Objective: To study the synergic effects of IL-12 and B7-1 transfectant on antitumor immunity in vivo. Methods: The retrovirus vector encoding mIL-12 and mB7-1 gene was tranfected into EL-4 thymic lymphoma cells respe...Objective: To study the synergic effects of IL-12 and B7-1 transfectant on antitumor immunity in vivo. Methods: The retrovirus vector encoding mIL-12 and mB7-1 gene was tranfected into EL-4 thymic lymphoma cells respectively.The cells were used as tumor vaccine and the therapeutic effect was observed. Results: In contrast to the miceimmunized with EL-4/Wt or EL-4/Neo groups, thetumorigenicity of EL-4/IL-12 transfectant was decreased(P<0.001). The EL-4/IL-12 and EL-4/B7-1 cells irradiatedwith 60Co showed significant systematic protective effectsagainst the rechallenge of EL-4/Wt. 60Co irradiatedEL-4/IL-12 cells delayed the occurrence of tumor andprolonged the survival period of tumor bearing mice.Combination of the vaccines of EL-4/IL-12 and EL-4/B7-1 resulted in the enhanced therapeutic effect compared witheach single transfectant group (P<0.001). Conclusion: The results showed that IL-12 transduced cells could enhancethe antitumor immunity of host as cancer vaccine.Combination of the EL-4/IL-12 and EL-4/B7-1 transfectant could improve immunity of host and is a prospect cancervaccine.展开更多
BACKGROUND Nucleus accumbens-1(NAC-1)is highly expressed in a variety of tumors,including colon cancer,and is closely associated with tumor recurrence,metastasis,and invasion.AIM To determine whether and how NAC-1 aff...BACKGROUND Nucleus accumbens-1(NAC-1)is highly expressed in a variety of tumors,including colon cancer,and is closely associated with tumor recurrence,metastasis,and invasion.AIM To determine whether and how NAC-1 affects antitumor immunity in colon cancer.METHODS NAC-1-siRNA was transfected into RKO colon cancer cells to knock down NAC expression;tumor cells with or without knockdown of NAC-1 were treated with CD8+T cells to test their cytocidal effect.The level of the immune checkpoint programmed death receptor-1 ligand(PD-L1)in colon cancer cells with or without knockdown of NAC-1 was analyzed using Quantitative real-time polymerase chain reaction and Western blotting.A double luciferase reporter assay was used to examine the effects of NAC-1 on the transcription of PD-L1.Mice bearing MC-38-OVA colon cancer cells expressing NAC-shRNA or controlshRNA were treated with OT-I mouse CD8+T cells to determine the tumor response to immunotherapy.Immune cells in the tumor tissues were analyzed using flow cytometry.NAC-1,PD-L1 and CD8+T cells in colon cancer specimens from patients were examined using immunohistochemistry staining.RESULTS Knockdown of NAC-1 expression in colon cancer cells significantly enhanced the cytocidal effect of CD8+T cells in cell culture experiments.The sensitizing effect of NAC-1 knockdown on the antitumor action of cytotoxic CD8+T cells was recapitulated in a colon cancer xenograft animal model.Furthermore,knockdown of NAC-1 in colon cancer cells decreased the expression of PD-L1 at both the mRNA and protein levels,and this effect could be rescued by transfection of an RNAi-resistant NAC-1 expression plasmid.In a reporter gene assay,transient expression of NAC-1 in colon cancer cells increased the promoter activity of PD-L1,indicating that NAC-1 regulates PD-L1 expression at the transcriptional level.In addition,depletion of tumoral NAC-1 increased the number of CD8+T cells but decreased the number of suppressive myeloid-derived suppressor cells and regulatory T cells.CONCLUSION Tumor expression of NAC-1 is a negative determinant of immunotherapy.展开更多
Traditional Chinese medicine has been used to treat more than 70%of cancer patients in China.Traditional Chinese medicine treatment includes the application of traditional Chinese medicine monomers,extracts,classical ...Traditional Chinese medicine has been used to treat more than 70%of cancer patients in China.Traditional Chinese medicine treatment includes the application of traditional Chinese medicine monomers,extracts,classical Chinese medicine compounds,self-made compounds,acupuncture,etc.Mechanisms of the anti-tumor effects of traditional Chinese medicine are related to their immune-regulatory roles.Some traditional Chinese medicines improve the sensitivity of chemotherapeutic drugs,enhance tumor-suppressive effects,and decrease adverse reactions.In 2021,research papers from China accounted for about two-thirds of all the papers on traditional Chinese medicine and anti-tumor immunity.China continues to lead the world in the field of anti-tumor immunity of traditional Chinese medicine,and the efficient and productive academic cooperation between China and other countries has promoted the rapid development of this field.In this review,we summarize the research progress of traditional Chinese medicine in the field of tumor immunity in 2021 to provide new insights into mechanisms underlying the anti-tumor effects of traditional Chinese medicine.展开更多
As a highly invasive malignancy,esophageal cancer(EC)is a global health issue,and was the eighth most prevalent cancer and the sixth leading cause of cancerrelated death worldwide in 2020.Due to its highly immunogenic...As a highly invasive malignancy,esophageal cancer(EC)is a global health issue,and was the eighth most prevalent cancer and the sixth leading cause of cancerrelated death worldwide in 2020.Due to its highly immunogenic nature,emerging immunotherapy approaches,such as immune checkpoint blockade,have demonstrated promising efficacy in treating EC;however,certain limitations and challenges still exist.In addition,tumors may exhibit primary or acquired resistance to immunotherapy in the tumor immune microenvironment(TIME);thus,understanding the TIME is urgent and crucial,especially given the importance of an immunosuppressive microenvironment in tumor progression.The aim of this review was to better elucidate the mechanisms of the suppressive TIME,including cell infiltration,immune cell subsets,cytokines and signaling pathways in the tumor microenvironment of EC patients,as well as the downregulated expression of major histocompatibility complex molecules in tumor cells,to obtain a better understanding of the differences in EC patient responses to immunotherapeutic strategies and accurately predict the efficacy of immunotherapies.Therefore,personalized treatments could be developed to maximize the advantages of immunotherapy.展开更多
The interplay between DNA replication stress and immune microenvironment alterations is known to play a crucial role in colorectal tumorigenesis,but a comprehensive understanding of their association with and relevant...The interplay between DNA replication stress and immune microenvironment alterations is known to play a crucial role in colorectal tumorigenesis,but a comprehensive understanding of their association with and relevant biomarkers involved in colorectal tumorigenesis is lacking.To address this gap,we conducted a study aiming to investigate this association and identify relevant biomarkers.We analyzed transcriptomic and proteomic profiles of 904 colorectal tumor tissues and 342 normal tissues to examine pathway enrichment,biological activity,and the immune microenvironment.Additionally,we evaluated genetic effects of single variants and genes on colorectal cancer susceptibility using data from genome-wide association studies(GWASs)involving both East Asian(7062 cases and 195745 controls)and European(24476 cases and 23073 controls)populations.We employed mediation analysis to infer the causal pathway,and applied multiplex immunofluorescence to visualize colocalized biomarkers in colorectal tumors and immune cells.Our findings revealed that both DNA replication activity and the flap structure-specific endonuclease 1(FEN1)gene were significantly enriched in colorectal tumor tissues,compared with normal tissues.Moreover,a genetic variant rs4246215 G>T in FEN1 was associated with a decreased risk of colorectal cancer(odds ratio=0.94,95%confidence interval:0.90–0.97,P_(meta)=4.70×10^(-9)).Importantly,we identified basophils and eosinophils that both exhibited a significantly decreased infiltration in colorectal tumors,and were regulated by rs4246215 through causal pathways involving both FEN1 and DNA replication.In conclusion,this trans-omics incorporating GWAS data provides insights into a plausible pathway connecting DNA replication and immunity,expanding biological knowledge of colorectal tumorigenesis and therapeutic targets.展开更多
Among various immunoregulatory molecules,the B7 family of immune-checkpoint receptors consists of highly valuable targets for cancer immunotherapy.Antibodies targeting two B7 family co-inhibitory receptors,CTLA-4 and ...Among various immunoregulatory molecules,the B7 family of immune-checkpoint receptors consists of highly valuable targets for cancer immunotherapy.Antibodies targeting two B7 family co-inhibitory receptors,CTLA-4 and PD-1,have elicited long-term clinical outcomes in previously refractory cancer types and are considered a breakthrough in cancer therapy.Despite the success,the relatively low response rate(20–30%)warrants efforts to identify and overcome additional immune-suppressive pathways.Among the expanding list of T cell inhibitory regulators,V domain immunoglobulin suppressor of T cell activation(VISTA)is a unique B7 family checkpoint that regulates a broad spectrum of immune responses.Here,we summarize recent advances that highlight the structure,expression,and multi-faceted immunomodulatory mechanisms of VISTA in the context of autoimmunity,inflammation,and anti-tumor immunity.展开更多
Nicotinamide phosphoribosyl transferase(NAMPT) is considered as a promising target for cancer therapy given its critical engagement in cancer metabolism and inflammation.However,therapeutic benefit of NAMPT enzymatic ...Nicotinamide phosphoribosyl transferase(NAMPT) is considered as a promising target for cancer therapy given its critical engagement in cancer metabolism and inflammation.However,therapeutic benefit of NAMPT enzymatic inhibitors appears very limited,likely due to the failure to intervene nonenzymatic functions of NAMPT.Herein,we show that NAMPT dampens antitumor immunity by promoting the expansion of tumor infiltrating myeloid derived suppressive cells(MDSCs) via a mechanism independent of its enzymatic activity.Using proteolysis-targeting chimera(PROTAC) technology,PROTAC A7 is identified as a potent and selective degrader of NAMPT,which degrades intracellular NAMPT(iNAMPT) via the ubiquitin-proteasome system,and in turn decreases the secretion of extracellular NAMPT(eNAMPT),the major player of the non-enzymatic activity of NAMPT.In vivo,PROTAC A7 efficiently degrades NAMPT,inhibits tumor infiltrating MDSCs,and boosts antitumor efficacy.Of note,the anticancer activity of PROTAC A7 is superior to NAMPT enzymatic inhibitors that fail to achieve the same impact on MDSCs.Together,our findings uncover the new role of enzymatically-independent function of NAMPT in remodeling the immunosuppressive tumor microenvironment,and reports the first NAMPT PROTAC A7 that is able to block the pro-tumor function of both iNAMPT and eNAMPT,pointing out a new direction for the development of NAMPT-targeted therapies.展开更多
Interleukin(IL)-4 is a crucial cytokine in tumor immunology.In the initial murine experiments,IL-4 exhibited potent anti-tumor ability.Tumors genetically modified to produce IL-4 were rejected,while parental tumors gr...Interleukin(IL)-4 is a crucial cytokine in tumor immunology.In the initial murine experiments,IL-4 exhibited potent anti-tumor ability.Tumors genetically modified to produce IL-4 were rejected,while parental tumors grew progressively.Mice rejected IL-4-producing tumors got long-lasting anti-tumor immunity.The comparative study showed that IL-4 induced the most effective immune response among several cytokines in both prophylactic and therapeutic models.All of these indicate IL-4 has strong potential as a tumor therapy agent.However,contrary evidence indeed exists,and is becoming more and more abundant which shows IL-4 is a tumor-promoting molecule.IL-4 amounts are usually elevated in human cancer patients.IL-4 knockout mice are more resistant to tumor challenge than IL-4 competent mice.Furthermore,tumor cells of various histological origins often express increased levels of IL-4 receptor in comparison to their normal counterparts.By carefully examining presently available data,we found the effects of IL-4 in tumor immunity are closely related to its sources,expressing time and dose,as well as the molecular and cellular environments.In this mini-review,we concentrate on illustrating the paradoxical roles and underlying mechanisms of IL-4 in tumor immunity and try to understand how one molecule has opposite effects.展开更多
A dendritic cell(DC)vaccine strategy has been developed as a new cancer immunotherapy,but the goal of complete tumor eradication has not yet been achieved.We have previously shown that baculoviruses potently infect DC...A dendritic cell(DC)vaccine strategy has been developed as a new cancer immunotherapy,but the goal of complete tumor eradication has not yet been achieved.We have previously shown that baculoviruses potently infect DCs and induce antitumor immunity against hepatomas in a mouse model.Baculovirus-infected,bone marrow-derived DCs(BMDCs)display increased surface expression of costimulatory molecules,such as CD80,CD86 and major histocompatibility complex(MHC)classes I and II,and secrete interferons and other proinflammatory cytokines.In this study,we evaluated the induction of antitumor immunity in mice by baculovirus-infected BMDCs against lung cancer and melanoma.After treatment with baculovirus-infected BMDCs,murine lung tumors caused by Lewis lung carcinoma(LLC)cells were significantly reduced in size,and the survival of the mice was improved.In addition,experiments using a melanoma mouse model showed that baculovirus-infected BMDCs inhibited tumor growth and improved survival compared with controls.Serum alanine aminotransferase(ALT),aspartate aminotransferase(AST)and creatinine levels remained normal in baculovirus-infected BMDC-treated mice.Our findings show that baculovirus-infected DCs induce antitumor immunity and pave the way for the use of this technique as an effective tool for DC immunotherapy against malignancies.展开更多
Immunotherapy has efficiently revolutionized the treatment of human neoplastic diseases.However,the overall responsive rate of current immunotherapy is still unsatisfactory,benefiting only a small proportion of patien...Immunotherapy has efficiently revolutionized the treatment of human neoplastic diseases.However,the overall responsive rate of current immunotherapy is still unsatisfactory,benefiting only a small proportion of patients.Therefore,significant attention has been paid to the modulation of tumor microenvironment(TME)for the enhancement of immunotherapy.Interestingly,recent studies have shown that cyclic GMP-AMP synthasestimulator of interferon gene(cGAS-STING)was initially found as an innate immune sensor to recognize cytoplasmic DNA(such as bacterial,viral,micronuclei,and mitochondrial).It is a promising signaling pathway to activate antitumor immune responses via type I interferon production.Notably,Mn^(2+)was found to be a critical molecule to sensitize the activation of the cGAS-STING pathway for better immunotherapy.This activation led to the development of Mn^(2+)-based strategies for tumor immunotherapy via the activation of the cGAS-STING pathway.In this critical review,we aimed to summarize the recent progress of this field,focusing on the following three aspects.First,we briefly introduced the signaling pathway of cGAS-STING activation,and its regulation effect on the antitumor immunity cycle has been discussed.Along with this,several agonists of the cGAS-STING pathway were introduced with their potential as immunotherapeutic drugs.Then,the basic biological functions of Mn^(2+)have been illustrated,focusing on its critical roles in the cGAS-STING pathway activation.Next,we systematically reviewed the Mn^(2+)-based strategies for tumor immunotherapy,which can be classified by the methods based on Mn^(2+)alone or Mn^(2+)combined with other therapeutic modalities.We finally speculated the future perspectives of the field and provided rational suggestions to develop better Mn^(2+)-based therapeutics.展开更多
B and T-lymphocyte attenuator(BTLA)plays an immunosuppressive role by inhibiting T-and B-cell functions.BTLA is associated with a variety of diseases,especially cancer immunity.However,the function of BTLA in various ...B and T-lymphocyte attenuator(BTLA)plays an immunosuppressive role by inhibiting T-and B-cell functions.BTLA is associated with a variety of diseases,especially cancer immunity.However,the function of BTLA in various cancers and its clinical prognostic value have still not been comprehensively analyzed.This study aimed to identify the relationship between BTLA and cancer from the perspectives of differences in BTLA expression,its clinical value,immune infiltration,and the correlation with immune-related genes in various cancers.Data regarding mRNA expression,miRNA expression,lncRNA expression,and clinical data of patients of 33 existing cancers were collected from the TCGA database.Target miRNA of BTLA and the lncRNA that interacts with the target miRNA were obtained from the StarBase database.Based on bioinformatics analysis methods,the relationship between various types of cancers and BTLA was thoroughly investigated,and a competing endogenous RNA network of BTLA,target miRNA,and interacting lncRNA was constructed.The Kaplan-Meier(KM)prognostic analysis of BTLA and target miRNA(has-miR-137)in various types of cancers was completed using the KM plotter.BTLA expression varied in different cancers,with statistical significance in nine cancer types.KM plotter to analyze the overall survival(OS)and regression-free survival prognosis of cancer patients revealed that the BTLA expression was statistically different in the OS of 11 types of cancers out of 21 types of cancers;the OS of 8 type of cancers was also statistically different.Correlation analysis of tumor immune genes revealed a positive correlation of BTLA expression with immunosuppressive gene(CTLA4 and PDCD1)expression.Gene Set Enrichment Analysis showed that BTLA and its co-expressed genes mainly act through biological processes and pathways,including immune response regulation,cell surface receptor signaling pathway,antigen binding,antigen receptor-mediated signaling pathway,and leukocyte migration.BTLA has the potential as a prognostic marker for CLL,COAD,NSCLC,and OV and a diagnostic marker for CLL,COAD,and KIRC.BTLA has a close and complex relationship with the occurrence and development of tumors,and cancer immunotherapy for BTLA is worthy of further analysis.展开更多
Aim:Scavenger receptor class B,type I(SR-BI)is an integral plasma membrane protein that has been reported to be overexpressed in various malignancies,such as renal cancer,breast cancer,and prostate cancer,and is an in...Aim:Scavenger receptor class B,type I(SR-BI)is an integral plasma membrane protein that has been reported to be overexpressed in various malignancies,such as renal cancer,breast cancer,and prostate cancer,and is an independent prognostic factor.However,the clinical value and expression of SR-BI in GC are unknown.Our research aimed to explore the role of SR-BI in combination with immune markers as a diagnostic and prognostic marker for gastric cancer(GC).Methods:GC tissues,paracancerous tissues,and clinicopathological data of 149 patients were collected.The expression level of SR-BI,Tumor-infiltrating lymphocytes(TILs),and PD-L1 were evaluated by immunohistochemistry(IHC).The associations of the SR-BI staining intensity with clinicopathological features and immune markers were determined by the chi-square test.Univariate and multivariate COX regression analyses were used to evaluate independent prognostic factors.Kaplan–Meier analyses were performed to plot the survival curve.Results:Our results indicated that SR-BI was expressed at higher levels in tumor tissues than in adjacent paracancerous tissues(p<0.001),and patients with high levels of SR-BI expression had a worse prognosis.Univariate and multivariate analyses revealed that high SR-BI expression was an independent factor for poor prognosis.The chi-square test determined that the expression of SR-BI was negatively correlated with CD4+T cells and CD8+T cells(CD4+T cells,p=0.013;CD8+T cells,p=0.021),and positively correlated with PD-L1(p=0.022).Finally,survival analysis revealed that CD4+T cells were associated with the prognosis of GC patients(p=0.019),and the combined survival analysis of SR-BI and CD4+T cells was also statistically significant(p=0.030).Conclusion:SR-BI is highly expressed in GC tissue and associated with poor prognosis.Moreover,SR-BI can also regulate the GC tumor immune microenvironment.展开更多
Objective: The interplay between chemokine C-X-C motif ligand 12(CXCL12) and its specific receptors is known to trigger various signaling pathways, contributing to tumor proliferation and metastasis. Consequently,targ...Objective: The interplay between chemokine C-X-C motif ligand 12(CXCL12) and its specific receptors is known to trigger various signaling pathways, contributing to tumor proliferation and metastasis. Consequently,targeting this signaling axis has emerged as a potential strategy in cancer therapy. However, the precise role of CXCL12 in clinical therapy, especially in immunotherapy for bladder cancer(BCa), remains poorly elucidated.Methods: We gathered multiple omics data from public databases to unveil the clinical relevance and tumor immune landscape associated with CXCL12 in BCa patients. Univariate and multivariate Cox regression analyses were employed to assess the independent prognostic significance of CXCL12 expression and formulate a nomogram. The expression of CXCL12 in BCa cell lines and clinical tissue samples was validated using enzymelinked immunosorbent assays(ELISA) and immunohistochemistry(IHC).Results: While transcriptional expression of CXCL12 exhibited a decrease in nearly all tumor tissues, CXCL12 methylation expression was notably increased in BCa tissues. Single-cell RNA analysis highlighted tissue stem cells and endothelial cells as the primary sources expressing CXCL12. Abnormal CXCL12 expression, based on transcriptional and methylation levels, correlated with various clinical characteristics in BCa patients. Functional analysis indicated enrichment of CXCL12 and its co-expression genes in immune regulation and cell adhesion. The immune landscape analysis unveiled a significant association between CXCL12 expression and M2 macrophages(CD163~+ cells) in BCa tissues. Notably, CXCL12 expression emerged as a potential predictor of immunotherapy response and chemotherapy drug sensitivity in BCa patients.Conclusions: Taken together, these findings suggest aberrant production of CXCL12 in BCa tissues,potentially influencing the treatment responses of affected individuals.展开更多
Colorectal cancer(CRC)is the third most common and the second most fatal cancer.In recent years,more attention has been directed toward the role of gut microbiota in the initiation and development of CRC.Some bacteria...Colorectal cancer(CRC)is the third most common and the second most fatal cancer.In recent years,more attention has been directed toward the role of gut microbiota in the initiation and development of CRC.Some bacterial species,such as Fusobacterium nucleatum,Escherichia coli,Bacteroides fragilis,Enterococcus faecalis,and Salmonella sp.have been associated with CRC,based upon sequencing studies in CRC patients and functional studies in cell culture and animal models.These bacteria can cause host DNA damage by genotoxic substances,including colibactin secreted by pks+Escherichia coli,B.fragilis toxin(BFT)produced by Bacteroides fragilis,and typhoid toxin(TT)from Salmonella.These bacteria can also indirectly promote CRC by influencing host-signaling pathways,such as E-cadherin/β-catenin,TLR4/MYD88/NF-κB,and SMO/RAS/p38 MAPK.Moreover,some of these bacteria can contribute to CRC progression by helping tumor cells to evade the immune response by suppressing immune cell function,creating a proinflammatory environment,or influencing the autophagy process.Treatments with the classical antibacterial drugs,metronidazole or erythromycin,the antibacterial active ingredients,M13@Ag(electrostatically assembled from inorganic silver nanoparticles and the protein capsid of bacteriophage M13),berberine,and zerumbone,were found to inhibit tumorigenic bacteria to different degrees.In this review,we described progress in elucidating the tumorigenic mechanisms of several CRC-associated bacteria,as well as progress in developing effective antibacterial therapies.Specific bacteria have been shown to be active in the oncogenesis and progression of CRC,and some antibacterial compounds have shown therapeutic potential in bacteria-induced CRC.These bacteria may be useful as biomarkers or therapeutic targets for CRC.展开更多
BACKGROUND Mesenchymal stem cells(MSCs)have been reported to possess immune regulatory effects in innate and adaptive immune reactions.MSCs can mediate intercellular communications by releasing extracellular vesicles(...BACKGROUND Mesenchymal stem cells(MSCs)have been reported to possess immune regulatory effects in innate and adaptive immune reactions.MSCs can mediate intercellular communications by releasing extracellular vesicles(EVs),which deliver functional molecules to targeted cells.MSC derived EVs(MSC-EVs)confer altering effects on many immune cells,including T lymphocytes,B lymphocytes,natural killer cells,dendritic cells,and macrophages.A large number of studies have suggested that MSC-EVs participate in regulating autoimmunity related diseases.This characteristic of MSC-EVs makes them be potential biomarkers for the diagnosis and treatment of autoimmunity related diseases.AIM To verify the potential of MSC-EVs for molecular targeted therapy of autoimmunity related diseases.METHODS Literature search was conducted in PubMed to retrieve the articles published between 2010 and 2020 in the English language.The keywords,such as“MSCs,”“EVs,”“exosome,”“autoimmunity,”“tumor immunity,”and“transplantation immunity,”and Boolean operator“AND”and“NOT”coalesced admirably to be used for searching studies on the specific molecular mechanisms of MSC-EVs in many immune cell types and many autoimmunity related diseases.Studies that did not investigate the molecular mechanisms of MSC-EVs in the occurrence and development of autoimmune diseases were excluded.RESULTS A total of 96 articles were chosen for final reference lists.After analyzing those publications,we found that it had been well documented that MSC-EVs have the ability to induce multiple immune cells,like T lymphocytes,B lymphocytes,natural killer cells,dendritic cells,and macrophages,to regulate immune responses in innate immunity and adaptive immunity.Many validated EVsdelivered molecules have been identified as key biomarkers,such as proteins,lipids,and nucleotides.Some EVs-encapsulated functional molecules can serve as promising therapeutic targets particularly for autoimmune disease.CONCLUSION MSC-EVs play an equally important part in the differentiation,activation,and proliferation of immune cells,and they may become potential biomarkers for diagnosis and treatment of autoimmunity related diseases.展开更多
Background:IQGAP3 plays a crucial role in regulating cell proliferation,division,and cytoskeletal organization.Abnormal expression of IQGAP3 has been linked to various tumors,but its function in glioma is not well und...Background:IQGAP3 plays a crucial role in regulating cell proliferation,division,and cytoskeletal organization.Abnormal expression of IQGAP3 has been linked to various tumors,but its function in glioma is not well understood.Methods:Various methods,including genetic differential analysis,single-cell analysis,ROC curve analysis,Cox regression,Kaplan-Meier analysis,and enrichment analysis,were employed to analyze the expression patterns,diagnostic potential,prognostic implications,and biological processes involving IQGAP3 in normal and tumor tissues.The impact of IQGAP3 on immune infiltration and the immune microenvironment in gliomas was evaluated using immunofluorescence.Additionally,the cBioPortal database was used to analyze copy number variations and mutation sites of IQGAP3.Experimental validation was also performed to assess the effects of IQGAP3 on glioma cells and explore underlying mechanisms.Results:High IQGAP3 expression in gliomas is associated with an unfavorable prognosis,particularly in wild-type IDH and 1p/19q non-codeleted gliomas.Enrichment analysis revealed that IQGAP3 is involved in regulating the cell cycle,PI3K/AKT signaling,p53 signaling,and PLK1-related pathways.Furthermore,IQGAP3 expression may be closely related to the immunosuppressive microenvironment of glioblastoma.BRD-K88742110 and LY-303511 are potential drugs for targeting IQGAP3 in anti-glioma therapy.In vitro experiments showed that downregulation of IQGAP3 inhibits the proliferation and migration of glioma cells,with the PLK1/PI3K/AKT pathway potentially playing a crucial role in IQGAP3-mediated glioma progression.Conclusion:IQGAP3 shows promise as a valuable biomarker for diagnosis,prognosis,and immunotherapeutic strategies in gliomas.展开更多
In recent years,studies have shown that there is a correlation between sleep disorders and cancer,but at the present stage,the research on sleep disorders and tumor related animal models is relatively insufficient.Our...In recent years,studies have shown that there is a correlation between sleep disorders and cancer,but at the present stage,the research on sleep disorders and tumor related animal models is relatively insufficient.Our research will focus on mice bearing B16F10-luc-G5 melanoma tumor with sleep fragmentation,detecting promoting effect of sleep fragmentation(SF)on the metastasis of melanoma.At the same time,we used Ganoderma lucidum poly⁃saccharides peptide(GL-pp,80 mg·kg-1),a component of traditional Chinese medicine Ganoderma lucidum,which has long enjoyed a good reputation at home and abroad,to observe its anti-tumor metastasis effects on B16F10-luc-G5 mice with SF.Then we used whole proteomics to analyze the difference proteins expressed in lung tissue and compared between groups,includes mice bearing B16F10-luc-G5,mice bearing B16F10-luc-G5 with SF and GL-pp administered mice bearing B16F10-luc-G5 with SF.With the analysis using bioinformatics,we found several key proteins,their genes name are Adcy9,ptk2,Yap1 and Lpin2,Per1 and Tim.And several important clusters,they are,immune system,platelet aggres⁃sion,energy metabolism,cell cytoskeleton,cell adhesion and circadian rhythms.Moreover,we detected the TLR4 signal pathway and macrophage differentiation to reconfirm the results of proteomics and trying to elucidate the mechanism of SF on tumor growth and metastasis and the effects of GL-pp.展开更多
Although current anticancer immunotherapies using immune checkpoint inhibitors(ICIs)have been reported with a high clinical success rate,numerous patients still bear‘cold’tumors with insufficient T cell infiltration...Although current anticancer immunotherapies using immune checkpoint inhibitors(ICIs)have been reported with a high clinical success rate,numerous patients still bear‘cold’tumors with insufficient T cell infiltration and low immunogenicity,responding poorly to ICI therapy.Considering the advancements in precision medicine,in-depth mechanism studies on the tumor immune microenvironment(TIME)among cold tumors are required to improve the treatment for these patients.Nanomedicine has emerged as a promising drug delivery system in anticancer immunotherapy,activates immune function,modulates the TIME,and has been applied in combination with other anticancer therapeutic strategies.This review initially summarizes the mechanisms underlying immunosuppressive TIME in cold tumors and addresses the recent advancements in nanotechnology for cold TIME reversal-based therapies,as well as a brief talk about the feasibility of clinical translation.展开更多
BACKGROUND Various histological types of gastric carcinomas(GCs)differ in terms of their pathogenesis and their preexisting background,both of which could impact the tumor immune microenvironment(TIME).However,the cur...BACKGROUND Various histological types of gastric carcinomas(GCs)differ in terms of their pathogenesis and their preexisting background,both of which could impact the tumor immune microenvironment(TIME).However,the current understanding of the immune contexture of GC is far from complete.AIM To clarify the tumor-host immune interplay through histopathological features and the tumor immune cycle concept.METHODS In total,50 GC cases were examined(15 cases of diffuse GC,31 patients with intestinal-type GC and 4 cases of mucinous GC).The immunophenotype of GC was assessed and classified as immune desert(ID),immune excluded(IE)or inflamed(Inf)according to CD8+cell count and spatial pattern.In addition,CD68+and CD163+macrophages and programmed death-ligand 1(PD-L1)expression were estimated.RESULTS We found that GCs with different histological differentiation demonstrated distinct immune contexture.Most intestinal-type GCs had inflamed TIMEs rich in both CD8+cells and macrophages.In contrast,more aggressive diffuse-type GC more often possessed ID characteristics with few CD8+lymphocytes but abundant CD68+macrophages,while mucinous GC had an IE-TIME with a prevalence of CD68+macrophages and CD8+lymphocytes in the peritumor stroma.PD-L1 expression prevailed mostly in intestinal-type Inf-GC,with numerous CD163+cells observed.Therefore,GCs of different histological patterns have specific mechanisms of immune escape.While intestinal-type GC was more often related to PD-L1 expression,diffuse and mucinous GCs possessing more aggressive behavior demonstrated low immunogenicity and a lack of tumor antigen recognition or immune cell recruitment into the tumor clusters.CONCLUSION These data help to clarify the links between tumor histogenesis and immunogenicity for a better understanding of GC biology and more tailored patient management.展开更多
ATP binding cassette subfamily C member 8(ABCC8)encodes a protein regulating the ATP-sensitive potassium channel.Whether the level of ABCC8 mRNA in lower grade glioma(LGG)correlates with immune cell infiltration and p...ATP binding cassette subfamily C member 8(ABCC8)encodes a protein regulating the ATP-sensitive potassium channel.Whether the level of ABCC8 mRNA in lower grade glioma(LGG)correlates with immune cell infiltration and patient outcomes has not been evaluated until now.Comparisons of ABCC8 expression between different tumors and normal tissues were evaluated by exploring publicly available datasets.The association between ABCC8 and tumor immune cell infiltration,diverse gene mutation characteristics,tumor mutation burden(TMB),and survival in LGG was also investigated in several independent datasets.Pathway enrichment analysis was conducted to search for ABCC8-associated signaling pathways.Through an online database,we found that ABCC8 expression in LGG was lower than in normal tissues.Then,the association of ABCC8 expression and immune cell infiltration in LGG was discussed.As we expected,the ABCC8 mRNA levels were negatively associated with non-T immune cell infiltration levels in all datasets.Consistently,TCGA_LGG RNA-seq data revealed that ABCC8 downregulated several non-T immune cell-associated signaling pathways in gene set enrichment analysis.Different ABCC8 expression groups showed diverse gene mutation characteristics and TMB.The high expression of ABCC8 was linked to improved survival of LGG patients.A pathway enrichment analysis of ABCC8-associated genes indicated that the GABAergic synapse signaling pathway might be involved in regulating immunity in LGG.Our findings show that ABCC8 reflects LGG tumor immunity and is an ideal prognostic biomarker for LGG.展开更多
基金supported by a grant from the National"95"Key Project of China(No.96-906A-01-20).
文摘Objective: To study the synergic effects of IL-12 and B7-1 transfectant on antitumor immunity in vivo. Methods: The retrovirus vector encoding mIL-12 and mB7-1 gene was tranfected into EL-4 thymic lymphoma cells respectively.The cells were used as tumor vaccine and the therapeutic effect was observed. Results: In contrast to the miceimmunized with EL-4/Wt or EL-4/Neo groups, thetumorigenicity of EL-4/IL-12 transfectant was decreased(P<0.001). The EL-4/IL-12 and EL-4/B7-1 cells irradiatedwith 60Co showed significant systematic protective effectsagainst the rechallenge of EL-4/Wt. 60Co irradiatedEL-4/IL-12 cells delayed the occurrence of tumor andprolonged the survival period of tumor bearing mice.Combination of the vaccines of EL-4/IL-12 and EL-4/B7-1 resulted in the enhanced therapeutic effect compared witheach single transfectant group (P<0.001). Conclusion: The results showed that IL-12 transduced cells could enhancethe antitumor immunity of host as cancer vaccine.Combination of the EL-4/IL-12 and EL-4/B7-1 transfectant could improve immunity of host and is a prospect cancervaccine.
基金the Changsha Municipal Natural Science Foundation,No.kq2014258.
文摘BACKGROUND Nucleus accumbens-1(NAC-1)is highly expressed in a variety of tumors,including colon cancer,and is closely associated with tumor recurrence,metastasis,and invasion.AIM To determine whether and how NAC-1 affects antitumor immunity in colon cancer.METHODS NAC-1-siRNA was transfected into RKO colon cancer cells to knock down NAC expression;tumor cells with or without knockdown of NAC-1 were treated with CD8+T cells to test their cytocidal effect.The level of the immune checkpoint programmed death receptor-1 ligand(PD-L1)in colon cancer cells with or without knockdown of NAC-1 was analyzed using Quantitative real-time polymerase chain reaction and Western blotting.A double luciferase reporter assay was used to examine the effects of NAC-1 on the transcription of PD-L1.Mice bearing MC-38-OVA colon cancer cells expressing NAC-shRNA or controlshRNA were treated with OT-I mouse CD8+T cells to determine the tumor response to immunotherapy.Immune cells in the tumor tissues were analyzed using flow cytometry.NAC-1,PD-L1 and CD8+T cells in colon cancer specimens from patients were examined using immunohistochemistry staining.RESULTS Knockdown of NAC-1 expression in colon cancer cells significantly enhanced the cytocidal effect of CD8+T cells in cell culture experiments.The sensitizing effect of NAC-1 knockdown on the antitumor action of cytotoxic CD8+T cells was recapitulated in a colon cancer xenograft animal model.Furthermore,knockdown of NAC-1 in colon cancer cells decreased the expression of PD-L1 at both the mRNA and protein levels,and this effect could be rescued by transfection of an RNAi-resistant NAC-1 expression plasmid.In a reporter gene assay,transient expression of NAC-1 in colon cancer cells increased the promoter activity of PD-L1,indicating that NAC-1 regulates PD-L1 expression at the transcriptional level.In addition,depletion of tumoral NAC-1 increased the number of CD8+T cells but decreased the number of suppressive myeloid-derived suppressor cells and regulatory T cells.CONCLUSION Tumor expression of NAC-1 is a negative determinant of immunotherapy.
基金the Fundamental Research Funds for the Central Universities(2632022ZD10).
文摘Traditional Chinese medicine has been used to treat more than 70%of cancer patients in China.Traditional Chinese medicine treatment includes the application of traditional Chinese medicine monomers,extracts,classical Chinese medicine compounds,self-made compounds,acupuncture,etc.Mechanisms of the anti-tumor effects of traditional Chinese medicine are related to their immune-regulatory roles.Some traditional Chinese medicines improve the sensitivity of chemotherapeutic drugs,enhance tumor-suppressive effects,and decrease adverse reactions.In 2021,research papers from China accounted for about two-thirds of all the papers on traditional Chinese medicine and anti-tumor immunity.China continues to lead the world in the field of anti-tumor immunity of traditional Chinese medicine,and the efficient and productive academic cooperation between China and other countries has promoted the rapid development of this field.In this review,we summarize the research progress of traditional Chinese medicine in the field of tumor immunity in 2021 to provide new insights into mechanisms underlying the anti-tumor effects of traditional Chinese medicine.
基金Supported by Xi’an Municipal Health Commission of China,No.2022qn07 and No.2023ms11.
文摘As a highly invasive malignancy,esophageal cancer(EC)is a global health issue,and was the eighth most prevalent cancer and the sixth leading cause of cancerrelated death worldwide in 2020.Due to its highly immunogenic nature,emerging immunotherapy approaches,such as immune checkpoint blockade,have demonstrated promising efficacy in treating EC;however,certain limitations and challenges still exist.In addition,tumors may exhibit primary or acquired resistance to immunotherapy in the tumor immune microenvironment(TIME);thus,understanding the TIME is urgent and crucial,especially given the importance of an immunosuppressive microenvironment in tumor progression.The aim of this review was to better elucidate the mechanisms of the suppressive TIME,including cell infiltration,immune cell subsets,cytokines and signaling pathways in the tumor microenvironment of EC patients,as well as the downregulated expression of major histocompatibility complex molecules in tumor cells,to obtain a better understanding of the differences in EC patient responses to immunotherapeutic strategies and accurately predict the efficacy of immunotherapies.Therefore,personalized treatments could be developed to maximize the advantages of immunotherapy.
基金supported by the National Natural Science Foundation of China(Grant No.82173601)Yili&Jiangsu Joint Institute of Health(Grant No.yl2021ms02).
文摘The interplay between DNA replication stress and immune microenvironment alterations is known to play a crucial role in colorectal tumorigenesis,but a comprehensive understanding of their association with and relevant biomarkers involved in colorectal tumorigenesis is lacking.To address this gap,we conducted a study aiming to investigate this association and identify relevant biomarkers.We analyzed transcriptomic and proteomic profiles of 904 colorectal tumor tissues and 342 normal tissues to examine pathway enrichment,biological activity,and the immune microenvironment.Additionally,we evaluated genetic effects of single variants and genes on colorectal cancer susceptibility using data from genome-wide association studies(GWASs)involving both East Asian(7062 cases and 195745 controls)and European(24476 cases and 23073 controls)populations.We employed mediation analysis to infer the causal pathway,and applied multiplex immunofluorescence to visualize colocalized biomarkers in colorectal tumors and immune cells.Our findings revealed that both DNA replication activity and the flap structure-specific endonuclease 1(FEN1)gene were significantly enriched in colorectal tumor tissues,compared with normal tissues.Moreover,a genetic variant rs4246215 G>T in FEN1 was associated with a decreased risk of colorectal cancer(odds ratio=0.94,95%confidence interval:0.90–0.97,P_(meta)=4.70×10^(-9)).Importantly,we identified basophils and eosinophils that both exhibited a significantly decreased infiltration in colorectal tumors,and were regulated by rs4246215 through causal pathways involving both FEN1 and DNA replication.In conclusion,this trans-omics incorporating GWAS data provides insights into a plausible pathway connecting DNA replication and immunity,expanding biological knowledge of colorectal tumorigenesis and therapeutic targets.
基金supported by research funding from NCI R01 CA164225(LW),Advancing A Healthier Wisconsin Research and Education Program(AHW REP)fund(LW)the Office of the Assistant Secretary of Defense for Health Affairs through the Peer Reviewed Cancer Research Program under Award No.W81XWH-14-1-0587(LW),Cancer Research Institute CLIP Grant(LW),pilot grant 504057 from the Melanoma Research Alliance(LW),Worldwide Cancer Research grant 16-1161(LW and SM),NIH R01 AI102893(SM),NCI R01 CA179363(SM),the Nicholas Family Foundation(SM),and the Gardetto Family endowment(SM).
文摘Among various immunoregulatory molecules,the B7 family of immune-checkpoint receptors consists of highly valuable targets for cancer immunotherapy.Antibodies targeting two B7 family co-inhibitory receptors,CTLA-4 and PD-1,have elicited long-term clinical outcomes in previously refractory cancer types and are considered a breakthrough in cancer therapy.Despite the success,the relatively low response rate(20–30%)warrants efforts to identify and overcome additional immune-suppressive pathways.Among the expanding list of T cell inhibitory regulators,V domain immunoglobulin suppressor of T cell activation(VISTA)is a unique B7 family checkpoint that regulates a broad spectrum of immune responses.Here,we summarize recent advances that highlight the structure,expression,and multi-faceted immunomodulatory mechanisms of VISTA in the context of autoimmunity,inflammation,and anti-tumor immunity.
基金supported by the National Natural Science Foundation of China (grant 82030105 to Chunquan Sheng91957126 to Min Huang)the National Key Research and Development Program of China (grant 2020YFA0509100 to Chunquan Sheng)。
文摘Nicotinamide phosphoribosyl transferase(NAMPT) is considered as a promising target for cancer therapy given its critical engagement in cancer metabolism and inflammation.However,therapeutic benefit of NAMPT enzymatic inhibitors appears very limited,likely due to the failure to intervene nonenzymatic functions of NAMPT.Herein,we show that NAMPT dampens antitumor immunity by promoting the expansion of tumor infiltrating myeloid derived suppressive cells(MDSCs) via a mechanism independent of its enzymatic activity.Using proteolysis-targeting chimera(PROTAC) technology,PROTAC A7 is identified as a potent and selective degrader of NAMPT,which degrades intracellular NAMPT(iNAMPT) via the ubiquitin-proteasome system,and in turn decreases the secretion of extracellular NAMPT(eNAMPT),the major player of the non-enzymatic activity of NAMPT.In vivo,PROTAC A7 efficiently degrades NAMPT,inhibits tumor infiltrating MDSCs,and boosts antitumor efficacy.Of note,the anticancer activity of PROTAC A7 is superior to NAMPT enzymatic inhibitors that fail to achieve the same impact on MDSCs.Together,our findings uncover the new role of enzymatically-independent function of NAMPT in remodeling the immunosuppressive tumor microenvironment,and reports the first NAMPT PROTAC A7 that is able to block the pro-tumor function of both iNAMPT and eNAMPT,pointing out a new direction for the development of NAMPT-targeted therapies.
基金This work was supported by Chinese Academy of Sciences(KSCX2-YW-R-42)National Natural Science Foundation of China(30771972 and 30700287)+1 种基金Ministry of Science and Technology of China(2006CB504304,2006CB910901,and 2009CB918900)Ministry of Education,Culture,Sports,Science and Technology(MEXT)of Japan.
文摘Interleukin(IL)-4 is a crucial cytokine in tumor immunology.In the initial murine experiments,IL-4 exhibited potent anti-tumor ability.Tumors genetically modified to produce IL-4 were rejected,while parental tumors grew progressively.Mice rejected IL-4-producing tumors got long-lasting anti-tumor immunity.The comparative study showed that IL-4 induced the most effective immune response among several cytokines in both prophylactic and therapeutic models.All of these indicate IL-4 has strong potential as a tumor therapy agent.However,contrary evidence indeed exists,and is becoming more and more abundant which shows IL-4 is a tumor-promoting molecule.IL-4 amounts are usually elevated in human cancer patients.IL-4 knockout mice are more resistant to tumor challenge than IL-4 competent mice.Furthermore,tumor cells of various histological origins often express increased levels of IL-4 receptor in comparison to their normal counterparts.By carefully examining presently available data,we found the effects of IL-4 in tumor immunity are closely related to its sources,expressing time and dose,as well as the molecular and cellular environments.In this mini-review,we concentrate on illustrating the paradoxical roles and underlying mechanisms of IL-4 in tumor immunity and try to understand how one molecule has opposite effects.
基金a Grant-in-Aid for High Technology Research(No.09309011)from the Ministry of Education,Science,Sports,and Culture,Japanand by a Grant-in-Aid for AIDS research from the Ministry of Health,Labor and Welfare,Japan.
文摘A dendritic cell(DC)vaccine strategy has been developed as a new cancer immunotherapy,but the goal of complete tumor eradication has not yet been achieved.We have previously shown that baculoviruses potently infect DCs and induce antitumor immunity against hepatomas in a mouse model.Baculovirus-infected,bone marrow-derived DCs(BMDCs)display increased surface expression of costimulatory molecules,such as CD80,CD86 and major histocompatibility complex(MHC)classes I and II,and secrete interferons and other proinflammatory cytokines.In this study,we evaluated the induction of antitumor immunity in mice by baculovirus-infected BMDCs against lung cancer and melanoma.After treatment with baculovirus-infected BMDCs,murine lung tumors caused by Lewis lung carcinoma(LLC)cells were significantly reduced in size,and the survival of the mice was improved.In addition,experiments using a melanoma mouse model showed that baculovirus-infected BMDCs inhibited tumor growth and improved survival compared with controls.Serum alanine aminotransferase(ALT),aspartate aminotransferase(AST)and creatinine levels remained normal in baculovirus-infected BMDC-treated mice.Our findings show that baculovirus-infected DCs induce antitumor immunity and pave the way for the use of this technique as an effective tool for DC immunotherapy against malignancies.
基金National Natural Science Foundation of China(No.U1903125,82073799)Natural Science Foundation of Hunan province in China(No.2021JJ20084)the Science and Technology Innovation Program of Hunan Province(No.2021RC3020)。
文摘Immunotherapy has efficiently revolutionized the treatment of human neoplastic diseases.However,the overall responsive rate of current immunotherapy is still unsatisfactory,benefiting only a small proportion of patients.Therefore,significant attention has been paid to the modulation of tumor microenvironment(TME)for the enhancement of immunotherapy.Interestingly,recent studies have shown that cyclic GMP-AMP synthasestimulator of interferon gene(cGAS-STING)was initially found as an innate immune sensor to recognize cytoplasmic DNA(such as bacterial,viral,micronuclei,and mitochondrial).It is a promising signaling pathway to activate antitumor immune responses via type I interferon production.Notably,Mn^(2+)was found to be a critical molecule to sensitize the activation of the cGAS-STING pathway for better immunotherapy.This activation led to the development of Mn^(2+)-based strategies for tumor immunotherapy via the activation of the cGAS-STING pathway.In this critical review,we aimed to summarize the recent progress of this field,focusing on the following three aspects.First,we briefly introduced the signaling pathway of cGAS-STING activation,and its regulation effect on the antitumor immunity cycle has been discussed.Along with this,several agonists of the cGAS-STING pathway were introduced with their potential as immunotherapeutic drugs.Then,the basic biological functions of Mn^(2+)have been illustrated,focusing on its critical roles in the cGAS-STING pathway activation.Next,we systematically reviewed the Mn^(2+)-based strategies for tumor immunotherapy,which can be classified by the methods based on Mn^(2+)alone or Mn^(2+)combined with other therapeutic modalities.We finally speculated the future perspectives of the field and provided rational suggestions to develop better Mn^(2+)-based therapeutics.
基金funded by the Central to guide local scientific and Technological Development(ZYYDDFFZZJ-1)Natural Science Foundation of Gansu Province,China(No.18JR3RA052)+2 种基金Lanzhou Talent Innovation and Entrepreneurship Project Task Contract(No.2016-RC-56)Gansu Da Vinci Robot High-End Diagnosis and Treatment Team Construction Project,and Gansu Provincial Youth Science and Technology Fund Program(20JR10RA415)National Key Research and Development Program(No.2018YFC1311500).
文摘B and T-lymphocyte attenuator(BTLA)plays an immunosuppressive role by inhibiting T-and B-cell functions.BTLA is associated with a variety of diseases,especially cancer immunity.However,the function of BTLA in various cancers and its clinical prognostic value have still not been comprehensively analyzed.This study aimed to identify the relationship between BTLA and cancer from the perspectives of differences in BTLA expression,its clinical value,immune infiltration,and the correlation with immune-related genes in various cancers.Data regarding mRNA expression,miRNA expression,lncRNA expression,and clinical data of patients of 33 existing cancers were collected from the TCGA database.Target miRNA of BTLA and the lncRNA that interacts with the target miRNA were obtained from the StarBase database.Based on bioinformatics analysis methods,the relationship between various types of cancers and BTLA was thoroughly investigated,and a competing endogenous RNA network of BTLA,target miRNA,and interacting lncRNA was constructed.The Kaplan-Meier(KM)prognostic analysis of BTLA and target miRNA(has-miR-137)in various types of cancers was completed using the KM plotter.BTLA expression varied in different cancers,with statistical significance in nine cancer types.KM plotter to analyze the overall survival(OS)and regression-free survival prognosis of cancer patients revealed that the BTLA expression was statistically different in the OS of 11 types of cancers out of 21 types of cancers;the OS of 8 type of cancers was also statistically different.Correlation analysis of tumor immune genes revealed a positive correlation of BTLA expression with immunosuppressive gene(CTLA4 and PDCD1)expression.Gene Set Enrichment Analysis showed that BTLA and its co-expressed genes mainly act through biological processes and pathways,including immune response regulation,cell surface receptor signaling pathway,antigen binding,antigen receptor-mediated signaling pathway,and leukocyte migration.BTLA has the potential as a prognostic marker for CLL,COAD,NSCLC,and OV and a diagnostic marker for CLL,COAD,and KIRC.BTLA has a close and complex relationship with the occurrence and development of tumors,and cancer immunotherapy for BTLA is worthy of further analysis.
基金supported by the Natural Science Foundation of Zhejiang Province(HDMY22H160008)the Medical Science and Technology Project of Zhejiang Province(2022KY114)the National Natural Science Foundation of China(82204828).
文摘Aim:Scavenger receptor class B,type I(SR-BI)is an integral plasma membrane protein that has been reported to be overexpressed in various malignancies,such as renal cancer,breast cancer,and prostate cancer,and is an independent prognostic factor.However,the clinical value and expression of SR-BI in GC are unknown.Our research aimed to explore the role of SR-BI in combination with immune markers as a diagnostic and prognostic marker for gastric cancer(GC).Methods:GC tissues,paracancerous tissues,and clinicopathological data of 149 patients were collected.The expression level of SR-BI,Tumor-infiltrating lymphocytes(TILs),and PD-L1 were evaluated by immunohistochemistry(IHC).The associations of the SR-BI staining intensity with clinicopathological features and immune markers were determined by the chi-square test.Univariate and multivariate COX regression analyses were used to evaluate independent prognostic factors.Kaplan–Meier analyses were performed to plot the survival curve.Results:Our results indicated that SR-BI was expressed at higher levels in tumor tissues than in adjacent paracancerous tissues(p<0.001),and patients with high levels of SR-BI expression had a worse prognosis.Univariate and multivariate analyses revealed that high SR-BI expression was an independent factor for poor prognosis.The chi-square test determined that the expression of SR-BI was negatively correlated with CD4+T cells and CD8+T cells(CD4+T cells,p=0.013;CD8+T cells,p=0.021),and positively correlated with PD-L1(p=0.022).Finally,survival analysis revealed that CD4+T cells were associated with the prognosis of GC patients(p=0.019),and the combined survival analysis of SR-BI and CD4+T cells was also statistically significant(p=0.030).Conclusion:SR-BI is highly expressed in GC tissue and associated with poor prognosis.Moreover,SR-BI can also regulate the GC tumor immune microenvironment.
基金supported by the Research fund of Anhui Institute of Translational Medicine (No. 2021zhyx-C62)。
文摘Objective: The interplay between chemokine C-X-C motif ligand 12(CXCL12) and its specific receptors is known to trigger various signaling pathways, contributing to tumor proliferation and metastasis. Consequently,targeting this signaling axis has emerged as a potential strategy in cancer therapy. However, the precise role of CXCL12 in clinical therapy, especially in immunotherapy for bladder cancer(BCa), remains poorly elucidated.Methods: We gathered multiple omics data from public databases to unveil the clinical relevance and tumor immune landscape associated with CXCL12 in BCa patients. Univariate and multivariate Cox regression analyses were employed to assess the independent prognostic significance of CXCL12 expression and formulate a nomogram. The expression of CXCL12 in BCa cell lines and clinical tissue samples was validated using enzymelinked immunosorbent assays(ELISA) and immunohistochemistry(IHC).Results: While transcriptional expression of CXCL12 exhibited a decrease in nearly all tumor tissues, CXCL12 methylation expression was notably increased in BCa tissues. Single-cell RNA analysis highlighted tissue stem cells and endothelial cells as the primary sources expressing CXCL12. Abnormal CXCL12 expression, based on transcriptional and methylation levels, correlated with various clinical characteristics in BCa patients. Functional analysis indicated enrichment of CXCL12 and its co-expression genes in immune regulation and cell adhesion. The immune landscape analysis unveiled a significant association between CXCL12 expression and M2 macrophages(CD163~+ cells) in BCa tissues. Notably, CXCL12 expression emerged as a potential predictor of immunotherapy response and chemotherapy drug sensitivity in BCa patients.Conclusions: Taken together, these findings suggest aberrant production of CXCL12 in BCa tissues,potentially influencing the treatment responses of affected individuals.
基金This work was supported by the CAMS Innovation Fund for Medical Sciences(Grant No.2016-I2M-3-007)the National Natural Science Foundation of China(Grant No.81803584)+1 种基金the Technology Major Projects for“Major New Drugs Innovation and Development”(Grant Nos.2018ZX09711001-005-025 and 2018ZX09711001-012)the Inner Mongolian Natural Science Foundation(Grant No.2018LH08032)。
文摘Colorectal cancer(CRC)is the third most common and the second most fatal cancer.In recent years,more attention has been directed toward the role of gut microbiota in the initiation and development of CRC.Some bacterial species,such as Fusobacterium nucleatum,Escherichia coli,Bacteroides fragilis,Enterococcus faecalis,and Salmonella sp.have been associated with CRC,based upon sequencing studies in CRC patients and functional studies in cell culture and animal models.These bacteria can cause host DNA damage by genotoxic substances,including colibactin secreted by pks+Escherichia coli,B.fragilis toxin(BFT)produced by Bacteroides fragilis,and typhoid toxin(TT)from Salmonella.These bacteria can also indirectly promote CRC by influencing host-signaling pathways,such as E-cadherin/β-catenin,TLR4/MYD88/NF-κB,and SMO/RAS/p38 MAPK.Moreover,some of these bacteria can contribute to CRC progression by helping tumor cells to evade the immune response by suppressing immune cell function,creating a proinflammatory environment,or influencing the autophagy process.Treatments with the classical antibacterial drugs,metronidazole or erythromycin,the antibacterial active ingredients,M13@Ag(electrostatically assembled from inorganic silver nanoparticles and the protein capsid of bacteriophage M13),berberine,and zerumbone,were found to inhibit tumorigenic bacteria to different degrees.In this review,we described progress in elucidating the tumorigenic mechanisms of several CRC-associated bacteria,as well as progress in developing effective antibacterial therapies.Specific bacteria have been shown to be active in the oncogenesis and progression of CRC,and some antibacterial compounds have shown therapeutic potential in bacteria-induced CRC.These bacteria may be useful as biomarkers or therapeutic targets for CRC.
文摘BACKGROUND Mesenchymal stem cells(MSCs)have been reported to possess immune regulatory effects in innate and adaptive immune reactions.MSCs can mediate intercellular communications by releasing extracellular vesicles(EVs),which deliver functional molecules to targeted cells.MSC derived EVs(MSC-EVs)confer altering effects on many immune cells,including T lymphocytes,B lymphocytes,natural killer cells,dendritic cells,and macrophages.A large number of studies have suggested that MSC-EVs participate in regulating autoimmunity related diseases.This characteristic of MSC-EVs makes them be potential biomarkers for the diagnosis and treatment of autoimmunity related diseases.AIM To verify the potential of MSC-EVs for molecular targeted therapy of autoimmunity related diseases.METHODS Literature search was conducted in PubMed to retrieve the articles published between 2010 and 2020 in the English language.The keywords,such as“MSCs,”“EVs,”“exosome,”“autoimmunity,”“tumor immunity,”and“transplantation immunity,”and Boolean operator“AND”and“NOT”coalesced admirably to be used for searching studies on the specific molecular mechanisms of MSC-EVs in many immune cell types and many autoimmunity related diseases.Studies that did not investigate the molecular mechanisms of MSC-EVs in the occurrence and development of autoimmune diseases were excluded.RESULTS A total of 96 articles were chosen for final reference lists.After analyzing those publications,we found that it had been well documented that MSC-EVs have the ability to induce multiple immune cells,like T lymphocytes,B lymphocytes,natural killer cells,dendritic cells,and macrophages,to regulate immune responses in innate immunity and adaptive immunity.Many validated EVsdelivered molecules have been identified as key biomarkers,such as proteins,lipids,and nucleotides.Some EVs-encapsulated functional molecules can serve as promising therapeutic targets particularly for autoimmune disease.CONCLUSION MSC-EVs play an equally important part in the differentiation,activation,and proliferation of immune cells,and they may become potential biomarkers for diagnosis and treatment of autoimmunity related diseases.
基金supported by the Doctoral Foundation of HuBei University of Science and Technology(Grant Numbers BK202007 and BK202028 to L.W.and Z.Z.)Special Research Fund Project of School of Stomatology and Optometry,Xianning Medical College,Hubei University of Science and Technology(Grant Number 2020XZ37 to L.W.)+3 种基金Hubei Provincial Department of Education“Hundred Schools and Hundred Counties”(Grant Number BXLBX0806 to Z.Z.)the Foundation of Hubei University of Science and Technology“Double Hundred Project”(Grant Number 2022HKSB01 to Z.Z.)the Foundation of Innovation Team of Hubei University of Science and Technology(Grant Number 2023T13 to S.Y.)Natural Science Foundation of Hubei Province(Grant Number 2023AFB1027 to Z.Z.).
文摘Background:IQGAP3 plays a crucial role in regulating cell proliferation,division,and cytoskeletal organization.Abnormal expression of IQGAP3 has been linked to various tumors,but its function in glioma is not well understood.Methods:Various methods,including genetic differential analysis,single-cell analysis,ROC curve analysis,Cox regression,Kaplan-Meier analysis,and enrichment analysis,were employed to analyze the expression patterns,diagnostic potential,prognostic implications,and biological processes involving IQGAP3 in normal and tumor tissues.The impact of IQGAP3 on immune infiltration and the immune microenvironment in gliomas was evaluated using immunofluorescence.Additionally,the cBioPortal database was used to analyze copy number variations and mutation sites of IQGAP3.Experimental validation was also performed to assess the effects of IQGAP3 on glioma cells and explore underlying mechanisms.Results:High IQGAP3 expression in gliomas is associated with an unfavorable prognosis,particularly in wild-type IDH and 1p/19q non-codeleted gliomas.Enrichment analysis revealed that IQGAP3 is involved in regulating the cell cycle,PI3K/AKT signaling,p53 signaling,and PLK1-related pathways.Furthermore,IQGAP3 expression may be closely related to the immunosuppressive microenvironment of glioblastoma.BRD-K88742110 and LY-303511 are potential drugs for targeting IQGAP3 in anti-glioma therapy.In vitro experiments showed that downregulation of IQGAP3 inhibits the proliferation and migration of glioma cells,with the PLK1/PI3K/AKT pathway potentially playing a crucial role in IQGAP3-mediated glioma progression.Conclusion:IQGAP3 shows promise as a valuable biomarker for diagnosis,prognosis,and immunotherapeutic strategies in gliomas.
文摘In recent years,studies have shown that there is a correlation between sleep disorders and cancer,but at the present stage,the research on sleep disorders and tumor related animal models is relatively insufficient.Our research will focus on mice bearing B16F10-luc-G5 melanoma tumor with sleep fragmentation,detecting promoting effect of sleep fragmentation(SF)on the metastasis of melanoma.At the same time,we used Ganoderma lucidum poly⁃saccharides peptide(GL-pp,80 mg·kg-1),a component of traditional Chinese medicine Ganoderma lucidum,which has long enjoyed a good reputation at home and abroad,to observe its anti-tumor metastasis effects on B16F10-luc-G5 mice with SF.Then we used whole proteomics to analyze the difference proteins expressed in lung tissue and compared between groups,includes mice bearing B16F10-luc-G5,mice bearing B16F10-luc-G5 with SF and GL-pp administered mice bearing B16F10-luc-G5 with SF.With the analysis using bioinformatics,we found several key proteins,their genes name are Adcy9,ptk2,Yap1 and Lpin2,Per1 and Tim.And several important clusters,they are,immune system,platelet aggres⁃sion,energy metabolism,cell cytoskeleton,cell adhesion and circadian rhythms.Moreover,we detected the TLR4 signal pathway and macrophage differentiation to reconfirm the results of proteomics and trying to elucidate the mechanism of SF on tumor growth and metastasis and the effects of GL-pp.
基金the grants from National Natural Science Foundation of China(21602030 and 81872808)Program of Shanghai Academic Research Leader(18XD1400500)+2 种基金Project Supported by Shanghai Municipal Science and Technology Major Project(2018SHZDZX01)ZJLab,Fudan-SIMM Joint Research Fund(FU-SIMM20182006)Scientific Research Program of Shanghai Health and Family Planning Commission(20184Y0149).
文摘Although current anticancer immunotherapies using immune checkpoint inhibitors(ICIs)have been reported with a high clinical success rate,numerous patients still bear‘cold’tumors with insufficient T cell infiltration and low immunogenicity,responding poorly to ICI therapy.Considering the advancements in precision medicine,in-depth mechanism studies on the tumor immune microenvironment(TIME)among cold tumors are required to improve the treatment for these patients.Nanomedicine has emerged as a promising drug delivery system in anticancer immunotherapy,activates immune function,modulates the TIME,and has been applied in combination with other anticancer therapeutic strategies.This review initially summarizes the mechanisms underlying immunosuppressive TIME in cold tumors and addresses the recent advancements in nanotechnology for cold TIME reversal-based therapies,as well as a brief talk about the feasibility of clinical translation.
文摘BACKGROUND Various histological types of gastric carcinomas(GCs)differ in terms of their pathogenesis and their preexisting background,both of which could impact the tumor immune microenvironment(TIME).However,the current understanding of the immune contexture of GC is far from complete.AIM To clarify the tumor-host immune interplay through histopathological features and the tumor immune cycle concept.METHODS In total,50 GC cases were examined(15 cases of diffuse GC,31 patients with intestinal-type GC and 4 cases of mucinous GC).The immunophenotype of GC was assessed and classified as immune desert(ID),immune excluded(IE)or inflamed(Inf)according to CD8+cell count and spatial pattern.In addition,CD68+and CD163+macrophages and programmed death-ligand 1(PD-L1)expression were estimated.RESULTS We found that GCs with different histological differentiation demonstrated distinct immune contexture.Most intestinal-type GCs had inflamed TIMEs rich in both CD8+cells and macrophages.In contrast,more aggressive diffuse-type GC more often possessed ID characteristics with few CD8+lymphocytes but abundant CD68+macrophages,while mucinous GC had an IE-TIME with a prevalence of CD68+macrophages and CD8+lymphocytes in the peritumor stroma.PD-L1 expression prevailed mostly in intestinal-type Inf-GC,with numerous CD163+cells observed.Therefore,GCs of different histological patterns have specific mechanisms of immune escape.While intestinal-type GC was more often related to PD-L1 expression,diffuse and mucinous GCs possessing more aggressive behavior demonstrated low immunogenicity and a lack of tumor antigen recognition or immune cell recruitment into the tumor clusters.CONCLUSION These data help to clarify the links between tumor histogenesis and immunogenicity for a better understanding of GC biology and more tailored patient management.
基金This work was supported by the Scientific and Technological Innovation Program for Clinical Medicine of Jinan(202019132)to LIPING GONG.
文摘ATP binding cassette subfamily C member 8(ABCC8)encodes a protein regulating the ATP-sensitive potassium channel.Whether the level of ABCC8 mRNA in lower grade glioma(LGG)correlates with immune cell infiltration and patient outcomes has not been evaluated until now.Comparisons of ABCC8 expression between different tumors and normal tissues were evaluated by exploring publicly available datasets.The association between ABCC8 and tumor immune cell infiltration,diverse gene mutation characteristics,tumor mutation burden(TMB),and survival in LGG was also investigated in several independent datasets.Pathway enrichment analysis was conducted to search for ABCC8-associated signaling pathways.Through an online database,we found that ABCC8 expression in LGG was lower than in normal tissues.Then,the association of ABCC8 expression and immune cell infiltration in LGG was discussed.As we expected,the ABCC8 mRNA levels were negatively associated with non-T immune cell infiltration levels in all datasets.Consistently,TCGA_LGG RNA-seq data revealed that ABCC8 downregulated several non-T immune cell-associated signaling pathways in gene set enrichment analysis.Different ABCC8 expression groups showed diverse gene mutation characteristics and TMB.The high expression of ABCC8 was linked to improved survival of LGG patients.A pathway enrichment analysis of ABCC8-associated genes indicated that the GABAergic synapse signaling pathway might be involved in regulating immunity in LGG.Our findings show that ABCC8 reflects LGG tumor immunity and is an ideal prognostic biomarker for LGG.
