Sepsis is characterized by a severe and life-threatening host immune response to polymicrobial infection accompanied by organ dysfunction.Studies on the therapeutic effect and mechanism of immunomodulatory drugs on th...Sepsis is characterized by a severe and life-threatening host immune response to polymicrobial infection accompanied by organ dysfunction.Studies on the therapeutic effect and mechanism of immunomodulatory drugs on the sepsis-induced hyperinflammatory or immunosuppression states of various immune cells remain limited.This study aimed to investigate the protective effects and underlying mechanism of artesunate(ART)on the splenic microenvironment of cecal ligation and puncture-induced sepsis model mice using single-cell RNA sequencing(scRNA-seq)and experimental validations.The scRNA-seq analysis revealed that ART inhibited the activation of pro-inflammatory macrophages recruited during sepsis.ART could restore neutrophils’chemotaxis and immune function in the septic spleen.It inhibited the activation of T regulatory cells but promoted the cytotoxic function of natural killer cells during sepsis.ART also promoted the differentiation and activity of splenic B cells in mice with sepsis.These results indicated that ART could alleviate the inflammatory and/or immunosuppressive states of various immune cells involved in sepsis to balance the immune homeostasis within the host.Overall,this study provided a comprehensive investigation of the regulatory effect of ART on the splenic microenvironment in sepsis,thus contributing to the application of ART as adjunctive therapy for the clinical treatment of sepsis.展开更多
The widespread use of artemisinin(ART)and its derivatives has significantly reduced the global burden of malaria;however,malaria still poses a serious threat to global health.Although significant progress has been ach...The widespread use of artemisinin(ART)and its derivatives has significantly reduced the global burden of malaria;however,malaria still poses a serious threat to global health.Although significant progress has been achieved in elucidating the antimalarial mechanisms of ART,the most crucial target proteins and pathways of ART remain unknown.Knowledge on the exact antimalarial mechanisms of ART is urgently needed,as signs of emerging ART resistance have been observed in some regions of the world.Here,we used a combined strategy involving mass spectrometry-coupled cellular thermal shift assay(MS-CETSA)and transcriptomics profiling to identify a group of putative antimalarial targets of ART.We then conducted a series of validation experiments on five prospective protein targets,demonstrating that ART may function against malaria parasites by interfering with redox homeostasis,lipid metabolism,and protein synthesis processes.Taken together,this study provides fresh perspectives on the antimalarial mechanisms of ART and identifies several crucial proteins involved in parasite survival that can be targeted to combat malaria.展开更多
Triptolide is a key active component of the widely used traditional Chinese herb medicine Tripterygium wilfordii Hook.F.Although triptolide exerts multiple biological activities and shows promising efficacy in treatin...Triptolide is a key active component of the widely used traditional Chinese herb medicine Tripterygium wilfordii Hook.F.Although triptolide exerts multiple biological activities and shows promising efficacy in treating inflammatory-related diseases,its well-known safety issues,especially reproductive toxicity has aroused concerns.However,a comprehensive dissection of triptolide-associated testicular toxicity at single cell resolution is still lacking.Here,we observed testicular toxicity after 14 days of triptolide exposure,and then constructed a single-cell transcriptome map of 59,127 cells in mouse testes upon triptolide-treatment.We identified triptolide-associated shared and cell-type specific differentially expressed genes,enriched pathways,and ligand-receptor pairs in different cell types of mouse testes.In addition to the loss of germ cells,our results revealed increased macrophages and the inflammatory response in triptolide-treated mouse testes,suggesting a critical role of inflammation in triptolide-induced testicular injury.We also found increased reactive oxygen species(ROS)signaling and downregulated pathways associated with spermatid development in somatic cells,especially Leydig and Sertoli cells,in triptolide-treated mice,indicating that dysregulation of these signaling pathways may contribute to triptolide-induced testicular toxicity.Overall,our high-resolution single-cell landscape offers comprehensive information regarding triptolide-associated gene expression profiles in major cell types of mouse testes at single cell resolution,providing an invaluable resource for understanding the underlying mechanism of triptolide-associated testicular injury and additional discoveries of therapeutic targets of triptolide-induced male reproductive toxicity.展开更多
Hepatocellular carcinoma(HCC)is one of most common and deadliest malignancies.Celastrol(Cel),a natural product derived from the Tripterygium wilfordii plant,has been extensively researched for its potential effectiven...Hepatocellular carcinoma(HCC)is one of most common and deadliest malignancies.Celastrol(Cel),a natural product derived from the Tripterygium wilfordii plant,has been extensively researched for its potential effectiveness in fighting cancer.However,its clinical application has been hindered by the unclear mechanism of action.Here,we used chemical proteomics to identify the direct targets of Cel and enhanced its targetability and antitumor capacity by developing a Cel-based liposomes in HCC.We demonstrated that Cel selectively targets the voltage-dependent anion channel 2(VDAC2).Cel directly binds to the cysteine residues of VDAC2,and induces cytochrome C release via dysregulating VDAC2-mediated mitochondrial permeability transition pore(mPTP)function.We further found that Cel induces ROS-mediated ferroptosis and apoptosis in HCC cells.Moreover,coencapsulation of Cel into alkyl glucoside-modified liposomes(AGCL)improved its antitumor efficacy and minimized its side effects.AGCL has been shown to effectively suppress the proliferation of tumor cells.In a xenograft nude mice experiment,AGCL significantly inhibited tumor growth and promoted apoptosis.Our findings reveal that Cel directly targets VDAC2 to induce mitochondria-dependent cell death,while the Cel liposomes enhance its targetability and reduces side effects.Overall,Cel shows promise as a therapeutic agent for HCC.展开更多
Tripterygium glycosides tablet(TGT),the classical commercial drug of Tripterygium wilfordii Hook.F.has been effectively used in the treatment of rheumatoid arthritis,nephrotic syndrome,leprosy,Behcet's syndrome,le...Tripterygium glycosides tablet(TGT),the classical commercial drug of Tripterygium wilfordii Hook.F.has been effectively used in the treatment of rheumatoid arthritis,nephrotic syndrome,leprosy,Behcet's syndrome,leprosy reaction and autoimmune hepatitis.However,due to its narrow and limited treatment window,TGT-induced organ toxicity(among which liver injury accounts for about 40%of clinical reports)has gained increasing attention.The present study aimed to clarify the cellular and molecular events underlying TGT-induced acute liver injury using single-cell RNA sequencing(scRNA-seq)technology.The TGT-induced acute liver injury mouse model was constructed through short-term TGT exposure and further verified by hematoxylin-eosin staining and liver function-related serum indicators,including alanine aminotransferase,aspartate aminotransferase,alkaline phosphatase and total bilirubin.Using the mouse model,we identified 15 specific subtypes of cells in the liver tissue,including endothelial cells,hepatocytes,cholangiocytes,and hepatic stellate cells.Further analysis indicated that TGT caused a significant inflammatory response in liver endothelial cells at different spatial locations;led to marked inflammatory response,apoptosis and fatty acid metabolism dysfunction in hepatocytes;activated hepatic stellate cells;brought about the activation,inflammation,and phagocytosis of liver capsular macrophages cells;resulted in immune dysfunction of liver lymphocytes;disturbed the intercellular crosstalk in liver microenvironment by regulating various signaling pathways.Thus,these findings elaborate the mechanism underlying TGT-induced acute liver injury,provide new insights into the safe and rational applications in the clinic,and complement the identification of new biomarkers and therapeutic targets for liver protection.展开更多
The aerial parts of Mosla chinensis Maxim.and Mosla chinensis cv.'Jiangxiangru'(MCJ)are widely utilized in traditional Chinese medicine(TCM),known collectively as Xiang-ru.However,due to clinical effectiveness...The aerial parts of Mosla chinensis Maxim.and Mosla chinensis cv.'Jiangxiangru'(MCJ)are widely utilized in traditional Chinese medicine(TCM),known collectively as Xiang-ru.However,due to clinical effectiveness concerns and frequent misidentification,the original plants have increasingly been substituted by various species within the genera Elsholtzia and Mosla.The challenge in distinguishing between these genera arises from their similar morphological and metabolic profiles.To address this issue,our study introduced a rapid method for metabolic characterization,employing high-resolution mass spectrometry-based metabolomics.Through detailed biosynthetic and chemometric analyses,we pinpointed five phenolic compounds—salviaflaside,cynaroside,scutellarein-7-O-D-glucoside,rutin,and vicenin-2—among 203 identified compounds,as reliable chemical markers for distinguishing Xiang-ru from closely related Elsholtzia species.This methodology holds promise for broad application in the analysis of plant aerial parts,especially in verifying the authenticity of aromatic traditional medicinal plants.Our findings underscore the importance of non-volatile compounds as dependable chemical markers in the authentication process of aromatic traditional medicinal plants.展开更多
Paclitaxel,a tetracyclic diterpenoid,has garnered attention for its potent anti-cancer properties and intricate molecular structure,making it a significant target for chemical synthesis and biosynthesis[1].However,its...Paclitaxel,a tetracyclic diterpenoid,has garnered attention for its potent anti-cancer properties and intricate molecular structure,making it a significant target for chemical synthesis and biosynthesis[1].However,its natural sources are extremely limited,as it is derived exclusively from the bark of endangered genus Taxus plants,which contain paclitaxel in very low concentrations(0.01%−0.05%)[2-3].Recent advances in synthetic biology present promising opportunities to enhance paclitaxel levels in Taxus cell cultures or to enable the reconstitution of its production in heterologous hosts,such as yeast or tobacco(Nicotiana benthamiana).展开更多
The study of tumor nanovaccines(NVs)has gained interest because they specifically recognize and eliminate tumor cells.However,the poor recognition and internalization by dendritic cells(DCs)and insufficient immunogeni...The study of tumor nanovaccines(NVs)has gained interest because they specifically recognize and eliminate tumor cells.However,the poor recognition and internalization by dendritic cells(DCs)and insufficient immunogenicity restricted the vaccine efficacy.Herein,we extracted two molecular-weight Astragalus polysaccharides(APS,12.19 k D;APSHMw,135.67 k D)from Radix Astragali and made them self-assemble with OVA257–264directly forming OVA/APS integrated nanocomplexes through the microfluidic method.The nanocomplexes were wrapped with a sheddable calcium phosphate layer to improve stability.APS in the formed nanocomplexes served as drug carriers and immune adjuvants for potent tumor immunotherapy.The optimal APS-NVs were approximately 160 nm with uniform size distribution and could remain stable in physiological saline solution.The FITC-OVA in APS-NVs could be effectively taken up by DCs,and APS-NVs could stimulate the maturation of DCs,improving the antigen cross-presentation efficiency in vitro.The possible mechanism was that APS can induce DC activation via multiple receptors such as dectin-1 and Toll-like receptors 2 and 4.Enhanced accumulation of APS-NVs both in draining and distal lymph nodes were observed following s.c.injection.Smaller APS-NVs could easily access the lymph nodes.Furthermore,APS-NVs could markedly promote antigen delivery efficiency to DCs and activate cytotoxic T cells.In addition,APS-NVs achieve a better antitumor effect in established B16-OVA melanoma tumors compared with the OVA+Alum treatment group.The antitumor mechanism correlated with the increase in cytotoxic T cells in the tumor region.Subsequently,the poor tumor inhibitory effect of APS-NVs on the nude mouse model of melanoma also confirmed the participation of antitumor adaptive immune response induced by NVs.Therefore,this study developed a promising APS-based tumor NV that is an efficient tumor immunotherapy without systemic side effects.展开更多
Objective:Celastrol is a pentacyclic triterpenoid extracted from the traditional Chinese medicinal herb,Tripterygium wilfordii.This study aims to provide a scientific basis for the rational development and use of cela...Objective:Celastrol is a pentacyclic triterpenoid extracted from the traditional Chinese medicinal herb,Tripterygium wilfordii.This study aims to provide a scientific basis for the rational development and use of celastrol in breast cancer.Method:A quantitative chemical biology approach was used to investigate the protein targets and molecular mechanisms of celastrol in breast cancer cells.Results:Low-concentration celastrol exerted an anti-tumor effect by directly binding to hydroxysteroid dehydrogenase-like 2(HSDL2)and inhibiting its expression.Moreover,the expression of the pro-apoptotic protein,Bcl-2-associated X(BaX),increased,the level of the anti-apoptotic protein,B-cell lymphoma-2(Bcl-2),decreased,and the rate of apoptosis increased.After the transfection of cells with si-HSDL2,the apoptosis rate was similar to that observed after the administration of celastrol.However,apoptosis was reversed by the overexpression of HSDL2.Furthermore,our mass spectrometry(MS)data indicated a relationship between HSDL2 and the mitogen-activated protein kinase(MAPK)signaling pathway.We also found that the expression of HSDL2 was directly related to the degree of extracellular signal-regulated kinase(ERK)phosphorylation.Conclusion:Celastrol may promote apoptosis by suppressing the HSDL2/MAPK/ERK signaling pathway.展开更多
The family Rhyscotidae Budde-Lund,1904 contains two genera:Rhyscotoides Schmalfuss&Ferrara,1978 and Rhyscotus Budde-Lund,1885.To date,twenty-one species within the family are known,occurring in the subtropic and t...The family Rhyscotidae Budde-Lund,1904 contains two genera:Rhyscotoides Schmalfuss&Ferrara,1978 and Rhyscotus Budde-Lund,1885.To date,twenty-one species within the family are known,occurring in the subtropic and tropic regions(Schmalfuss,2003;Schmidt,2003;Boyko et al.,2022).The members of the family can be recognized by the cephalon with a strongly inflated frons,the antennae with two-jointed flagellum,the maxillae are almost semicircular,the maxillipeds have short palpus and endite,and pleopod exopodites without pseudotracheae(Schmalfuss&Ferrara,1978).Before this study,the members of Rhyscotidae were unknown in China.The present research describes a new species of the genus Rhyscotus from Hainan Island,representing a new record of the family Rhyscotidae from China.展开更多
基金support by the Establishment of Sino-Austria“Belt and Road”Joint Laboratory on Traditional Chinese Medicine for Severe Infectious Diseases and Joint Research,China(Grant No.:2020YFE0205100)the National Key Research and Development Program of China(Grant Nos.:2020YFA0908000,2022YFC2303600)+9 种基金the Distinguished Expert Project of Sichuan Province Tianfu Scholar(Grant No.:CW202002)the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine,China(Grant No.:ZYYCXTD-C-202002)the National Natural Science Foundation of China(Grant Nos.:82141001,82274182,82074098,82173914)the China Academy of Chinese Medical Sciences(CACMS)Innovation Fund,China(Grant Nos.:CI2021A05101,CI2021A05104)the Scientific and Technological Innovation Project of China Academy of Chinese Medical Sciences(Grant No.:CI2021B014)the Science and Technology Foundation of Shenzhen,China(Grant No.:JCYJ20210324115800001)the Science and Technology Foundation of Shenzhen,China(Shenzhen Clinical Medical Research Center for Geriatric Diseases),the National Key R&D Program of China Key Projects for International Cooperation on Science,Technology and Innovation(Grant No.:2020YFE0205100)the Fundamental Research Funds for the Central Public Welfare Research Institutes,China(Grant Nos.:ZZ14-YQ-050,ZZ14-YQ-051,ZZ14-YQ-052,ZZ14-FL-002,ZZ14-ND-010,ZZ15-ND-10),Shenzhen Governmental Sustainable Development Fund,China(Grant No.:KCXFZ20201221173612034)Shenzhen key Laboratory of Kidney Diseases,China(Grant No.:ZDSYS201504301616234)Shenzhen Fund for Guangdong Provincial High-level Clinical Key Specialties,China(Grant No.:SZGSP001).
文摘Sepsis is characterized by a severe and life-threatening host immune response to polymicrobial infection accompanied by organ dysfunction.Studies on the therapeutic effect and mechanism of immunomodulatory drugs on the sepsis-induced hyperinflammatory or immunosuppression states of various immune cells remain limited.This study aimed to investigate the protective effects and underlying mechanism of artesunate(ART)on the splenic microenvironment of cecal ligation and puncture-induced sepsis model mice using single-cell RNA sequencing(scRNA-seq)and experimental validations.The scRNA-seq analysis revealed that ART inhibited the activation of pro-inflammatory macrophages recruited during sepsis.ART could restore neutrophils’chemotaxis and immune function in the septic spleen.It inhibited the activation of T regulatory cells but promoted the cytotoxic function of natural killer cells during sepsis.ART also promoted the differentiation and activity of splenic B cells in mice with sepsis.These results indicated that ART could alleviate the inflammatory and/or immunosuppressive states of various immune cells involved in sepsis to balance the immune homeostasis within the host.Overall,this study provided a comprehensive investigation of the regulatory effect of ART on the splenic microenvironment in sepsis,thus contributing to the application of ART as adjunctive therapy for the clinical treatment of sepsis.
基金supported by grants from the National Key Research and Development Program of China(2020YFA0908000 and 2022YFC2303600)the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese-Medicine(ZYYCXTD-C-202002)+8 种基金the National Natural Science Foundation of China(82141001,82274182,82074098,82003814,and 82173914)the China Academy of Chinese Medical Sciences(CACMS)Innovation Fund(CI2021A05104 and CI2021A05101)the Distinguished Expert Project of Sichuan Province Tianfu Scholar(CW202002)the Scientific and Technological Innovation Project of China Academy of Chinese Medical Sciences(CI2021B014)the China Postdoctoral Science Foundation(2022M721541)the Establishment of Sino-Austria‘‘Belt and Road”Joint Laboratory on Traditional Chinese Medicine for Severe Infectious Diseases and Joint Research(2020YFE0205100)the Excellent Scientific and Technological Innovation Training Program of Shenzhen(RCYX20210706092040048)the Fundamental Research Funds for the Central Public Welfare Research Institutes(ZZ14-YQ-051,ZZ14-YQ-052,ZZ14-FL-002,ZZ14-YQ-050,ZZ14-ND-010,and ZZ15-ND-10)the Introduce Innovative Team Projects of Jinan(202228029)。
文摘The widespread use of artemisinin(ART)and its derivatives has significantly reduced the global burden of malaria;however,malaria still poses a serious threat to global health.Although significant progress has been achieved in elucidating the antimalarial mechanisms of ART,the most crucial target proteins and pathways of ART remain unknown.Knowledge on the exact antimalarial mechanisms of ART is urgently needed,as signs of emerging ART resistance have been observed in some regions of the world.Here,we used a combined strategy involving mass spectrometry-coupled cellular thermal shift assay(MS-CETSA)and transcriptomics profiling to identify a group of putative antimalarial targets of ART.We then conducted a series of validation experiments on five prospective protein targets,demonstrating that ART may function against malaria parasites by interfering with redox homeostasis,lipid metabolism,and protein synthesis processes.Taken together,this study provides fresh perspectives on the antimalarial mechanisms of ART and identifies several crucial proteins involved in parasite survival that can be targeted to combat malaria.
基金supported by grants from the National Key Research and Development Program of China(Grant Nos.:2020YFA0908000,2022YFC2303600)the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine(Grant No.:ZYYCXTD-C-202002)+7 种基金the National Natural Science Foundation of China(Grant Nos.:82201786,82141001,82274182,82074098,82173914)the CACMS Innovation Fund(Grant Nos.:CI2021A05101,CI2021A05104)the Scientific and Technological Innovation Project of China Academy of Chinese Medical Sciences(Grant No.:CI2021B014)the Science and Technology Foundation of Shenzhen(Grant Nos.:JCYJ20220818102613029,JCYJ20210324114014039,JCYJ20210324115800001)Guangdong Basic and Applied Basic Research Foundation(Grant Nos.:2020A1515110549,2021A1515110646)the Science and Technology Foundation of Shenzhen(Shenzhen Clinical Medical Research Center for Geriatric Diseases)the National Key R&D Program of China Key projects for international cooperation on science,technology and innovation(Grant No.:2020YFE0205100)and the Fundamental Research Funds for the Central Public Welfare Research Institutes(Grant Nos.:ZZ14-YQ-050,ZZ14-YQ-051,ZZ14-YQ-052,ZZ14-FL-002,ZZ14-ND-010,ZZ15-ND-10).
文摘Triptolide is a key active component of the widely used traditional Chinese herb medicine Tripterygium wilfordii Hook.F.Although triptolide exerts multiple biological activities and shows promising efficacy in treating inflammatory-related diseases,its well-known safety issues,especially reproductive toxicity has aroused concerns.However,a comprehensive dissection of triptolide-associated testicular toxicity at single cell resolution is still lacking.Here,we observed testicular toxicity after 14 days of triptolide exposure,and then constructed a single-cell transcriptome map of 59,127 cells in mouse testes upon triptolide-treatment.We identified triptolide-associated shared and cell-type specific differentially expressed genes,enriched pathways,and ligand-receptor pairs in different cell types of mouse testes.In addition to the loss of germ cells,our results revealed increased macrophages and the inflammatory response in triptolide-treated mouse testes,suggesting a critical role of inflammation in triptolide-induced testicular injury.We also found increased reactive oxygen species(ROS)signaling and downregulated pathways associated with spermatid development in somatic cells,especially Leydig and Sertoli cells,in triptolide-treated mice,indicating that dysregulation of these signaling pathways may contribute to triptolide-induced testicular toxicity.Overall,our high-resolution single-cell landscape offers comprehensive information regarding triptolide-associated gene expression profiles in major cell types of mouse testes at single cell resolution,providing an invaluable resource for understanding the underlying mechanism of triptolide-associated testicular injury and additional discoveries of therapeutic targets of triptolide-induced male reproductive toxicity.
基金support from the National Natural Science Foundation of China(Grants No.82304827,82074098,81841001)the Fundamental Research Funds for the Central public welfare research institutes(ZZ13-ZD-07),the National Key Research and Development Programof China(2020YFA0908000,2022YFC2303600)+7 种基金the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine(No:ZYYCXTD-C-202002)The Shenzhen Medical Research Fund of Shenzhen Medical Academy of Research and Translation(B2302051)the Fundamental Research Funds for the Central Public Welfare Research Institutes(Grants No.ZZ13-YQ-108)the Shenzhen Science and Technology Innovation Commission(Grants No.JCYJ20210324115800001)the Science and Technology Foundation of Shenzhen(Shenzhen Clinical Medical Research Center for Geriatric Diseases),the Distinguished Expert Project of Sichuan Province Tianfu Scholar(CW202002)Supported by Shenzhen Governmental Sustainable Development Fund(KCXFZ20201221173612034)Supported by Shenzhen key Laboratory of Kidney Diseases(ZDSYS201504301616234)Supported by Shenzhen Fund for Guangdong Provincial High-level Clinical Key Specialties(NO.SZGSP001).
文摘Hepatocellular carcinoma(HCC)is one of most common and deadliest malignancies.Celastrol(Cel),a natural product derived from the Tripterygium wilfordii plant,has been extensively researched for its potential effectiveness in fighting cancer.However,its clinical application has been hindered by the unclear mechanism of action.Here,we used chemical proteomics to identify the direct targets of Cel and enhanced its targetability and antitumor capacity by developing a Cel-based liposomes in HCC.We demonstrated that Cel selectively targets the voltage-dependent anion channel 2(VDAC2).Cel directly binds to the cysteine residues of VDAC2,and induces cytochrome C release via dysregulating VDAC2-mediated mitochondrial permeability transition pore(mPTP)function.We further found that Cel induces ROS-mediated ferroptosis and apoptosis in HCC cells.Moreover,coencapsulation of Cel into alkyl glucoside-modified liposomes(AGCL)improved its antitumor efficacy and minimized its side effects.AGCL has been shown to effectively suppress the proliferation of tumor cells.In a xenograft nude mice experiment,AGCL significantly inhibited tumor growth and promoted apoptosis.Our findings reveal that Cel directly targets VDAC2 to induce mitochondria-dependent cell death,while the Cel liposomes enhance its targetability and reduces side effects.Overall,Cel shows promise as a therapeutic agent for HCC.
基金supported by the National Key Research and Development Program of China(Grant Nos.:2020YFA0908000,2022YFC2303600)the Establishment of Sino-Austria“Belt and Road”Joint Laboratory on Traditional Chinese Medicine for Severe Infectious Diseases and Joint Research(Grant No.:2020YFE0205100)+13 种基金the National Natural Science Foundation of China(Grant Nos.:82104480,82004248,82141001,82274182,82074098,82173914)the Fundamental Research Funds for the Central public welfare research institutes(Grant Nos.:ZZ14-YQ-055,ZZ14-YQ-059,ZZ14-YQ-060,ZXKT19018,ZXKT19021,ZXKT19022,ZZ14-YQ-050,ZZ14-YQ-051,ZZ14-YQ-052,ZZ14-FL-002,ZZ14-ND-010,ZZ15-ND-10,ZZ16-ND-10-19)the Beijing Municipal Natural Science Foundation(Grant No.:7214287)the Innovation Team and Talents Cultivation Program of National Administration of Traditional Chinese Medicine(Grant No.:ZYYCXTD-C-202002)the Young Elite Scientists Sponsorship Program by CACM(Grant No.:2021QNRC2B29)the CACMS Innovation Fund(Grant Nos.:CI2021A05101,CI2021A05104)the Scientific and Technological Innovation Project of China Academy of Chinese Medical Sciences(Grant No.:CI2021B014)the Science and Technology Foundation of Shenzhen(Grant No.:JCYJ20210324115800001)the Science and Technology Foundation of Shenzhen(Shenzhen Clinical Medical Research Center for Geriatric Diseases)Shenzhen Governmental Sustainable Development Fund(Grant No.:KCXFZ20201221173612034)Shenzhen key Laboratory of Kidney Diseases(Grant No.:ZDSYS201504301616234)Shenzhen Fund for Guangdong Provincial High-level Clinical Key Specialties(Grant No.:SZGSP001)the Distinguished Expert Project of Sichuan Province Tianfu Scholar(Grant No.:CW202002)the State Key Laboratory of New-tech for Chinese Medicine Pharmaceutical Process Open Fund(Grant No.:SKL2020Z0302).
文摘Tripterygium glycosides tablet(TGT),the classical commercial drug of Tripterygium wilfordii Hook.F.has been effectively used in the treatment of rheumatoid arthritis,nephrotic syndrome,leprosy,Behcet's syndrome,leprosy reaction and autoimmune hepatitis.However,due to its narrow and limited treatment window,TGT-induced organ toxicity(among which liver injury accounts for about 40%of clinical reports)has gained increasing attention.The present study aimed to clarify the cellular and molecular events underlying TGT-induced acute liver injury using single-cell RNA sequencing(scRNA-seq)technology.The TGT-induced acute liver injury mouse model was constructed through short-term TGT exposure and further verified by hematoxylin-eosin staining and liver function-related serum indicators,including alanine aminotransferase,aspartate aminotransferase,alkaline phosphatase and total bilirubin.Using the mouse model,we identified 15 specific subtypes of cells in the liver tissue,including endothelial cells,hepatocytes,cholangiocytes,and hepatic stellate cells.Further analysis indicated that TGT caused a significant inflammatory response in liver endothelial cells at different spatial locations;led to marked inflammatory response,apoptosis and fatty acid metabolism dysfunction in hepatocytes;activated hepatic stellate cells;brought about the activation,inflammation,and phagocytosis of liver capsular macrophages cells;resulted in immune dysfunction of liver lymphocytes;disturbed the intercellular crosstalk in liver microenvironment by regulating various signaling pathways.Thus,these findings elaborate the mechanism underlying TGT-induced acute liver injury,provide new insights into the safe and rational applications in the clinic,and complement the identification of new biomarkers and therapeutic targets for liver protection.
基金supported by the National Key R&D Program of China(No.2022YFC3501700)the Young Elite Scientists Sponsorship Program by Cast(No.2021-QNRC1-02)+1 种基金the Key Project at Central Government Level:The Ability Establishment of Sustainable Use for Valuable Chinese Medicine Resources(No.2060302)the Research Project of Science and Technology Commission of Shanghai Municipalit(No.21DZ2202300)。
文摘The aerial parts of Mosla chinensis Maxim.and Mosla chinensis cv.'Jiangxiangru'(MCJ)are widely utilized in traditional Chinese medicine(TCM),known collectively as Xiang-ru.However,due to clinical effectiveness concerns and frequent misidentification,the original plants have increasingly been substituted by various species within the genera Elsholtzia and Mosla.The challenge in distinguishing between these genera arises from their similar morphological and metabolic profiles.To address this issue,our study introduced a rapid method for metabolic characterization,employing high-resolution mass spectrometry-based metabolomics.Through detailed biosynthetic and chemometric analyses,we pinpointed five phenolic compounds—salviaflaside,cynaroside,scutellarein-7-O-D-glucoside,rutin,and vicenin-2—among 203 identified compounds,as reliable chemical markers for distinguishing Xiang-ru from closely related Elsholtzia species.This methodology holds promise for broad application in the analysis of plant aerial parts,especially in verifying the authenticity of aromatic traditional medicinal plants.Our findings underscore the importance of non-volatile compounds as dependable chemical markers in the authentication process of aromatic traditional medicinal plants.
文摘Paclitaxel,a tetracyclic diterpenoid,has garnered attention for its potent anti-cancer properties and intricate molecular structure,making it a significant target for chemical synthesis and biosynthesis[1].However,its natural sources are extremely limited,as it is derived exclusively from the bark of endangered genus Taxus plants,which contain paclitaxel in very low concentrations(0.01%−0.05%)[2-3].Recent advances in synthetic biology present promising opportunities to enhance paclitaxel levels in Taxus cell cultures or to enable the reconstitution of its production in heterologous hosts,such as yeast or tobacco(Nicotiana benthamiana).
基金supported by Key Project at Central Government Level:the ability establishment of sustainable use for valuable Chinese medicine resources(2060302-2305-04)CAMS Innovation Fund for Medical Sciences(2021-1-I2M-031,2022-I2M-1-018,2022-I2M-2-002)+1 种基金Jilin Provincial Fiscal Construction Program for High-Tech Industries and Technologies(2022C041-5,20220401117YY)Hohhot Science and Technology Program(2021-Social-4)。
文摘The study of tumor nanovaccines(NVs)has gained interest because they specifically recognize and eliminate tumor cells.However,the poor recognition and internalization by dendritic cells(DCs)and insufficient immunogenicity restricted the vaccine efficacy.Herein,we extracted two molecular-weight Astragalus polysaccharides(APS,12.19 k D;APSHMw,135.67 k D)from Radix Astragali and made them self-assemble with OVA257–264directly forming OVA/APS integrated nanocomplexes through the microfluidic method.The nanocomplexes were wrapped with a sheddable calcium phosphate layer to improve stability.APS in the formed nanocomplexes served as drug carriers and immune adjuvants for potent tumor immunotherapy.The optimal APS-NVs were approximately 160 nm with uniform size distribution and could remain stable in physiological saline solution.The FITC-OVA in APS-NVs could be effectively taken up by DCs,and APS-NVs could stimulate the maturation of DCs,improving the antigen cross-presentation efficiency in vitro.The possible mechanism was that APS can induce DC activation via multiple receptors such as dectin-1 and Toll-like receptors 2 and 4.Enhanced accumulation of APS-NVs both in draining and distal lymph nodes were observed following s.c.injection.Smaller APS-NVs could easily access the lymph nodes.Furthermore,APS-NVs could markedly promote antigen delivery efficiency to DCs and activate cytotoxic T cells.In addition,APS-NVs achieve a better antitumor effect in established B16-OVA melanoma tumors compared with the OVA+Alum treatment group.The antitumor mechanism correlated with the increase in cytotoxic T cells in the tumor region.Subsequently,the poor tumor inhibitory effect of APS-NVs on the nude mouse model of melanoma also confirmed the participation of antitumor adaptive immune response induced by NVs.Therefore,this study developed a promising APS-based tumor NV that is an efficient tumor immunotherapy without systemic side effects.
基金the National Key Research and Development Program of China(2020YFA0908000,2022YFC2303600)the National Natural Science Foundation of China(81903866,82274182)and the Central Public Welfare Research Institutes(ZZ13-YQ-105,ZZ15-YQ-065,ZZ14-YQ-058).
文摘Objective:Celastrol is a pentacyclic triterpenoid extracted from the traditional Chinese medicinal herb,Tripterygium wilfordii.This study aims to provide a scientific basis for the rational development and use of celastrol in breast cancer.Method:A quantitative chemical biology approach was used to investigate the protein targets and molecular mechanisms of celastrol in breast cancer cells.Results:Low-concentration celastrol exerted an anti-tumor effect by directly binding to hydroxysteroid dehydrogenase-like 2(HSDL2)and inhibiting its expression.Moreover,the expression of the pro-apoptotic protein,Bcl-2-associated X(BaX),increased,the level of the anti-apoptotic protein,B-cell lymphoma-2(Bcl-2),decreased,and the rate of apoptosis increased.After the transfection of cells with si-HSDL2,the apoptosis rate was similar to that observed after the administration of celastrol.However,apoptosis was reversed by the overexpression of HSDL2.Furthermore,our mass spectrometry(MS)data indicated a relationship between HSDL2 and the mitogen-activated protein kinase(MAPK)signaling pathway.We also found that the expression of HSDL2 was directly related to the degree of extracellular signal-regulated kinase(ERK)phosphorylation.Conclusion:Celastrol may promote apoptosis by suppressing the HSDL2/MAPK/ERK signaling pathway.
基金supported by the National Natural Science Foundation of China(31960100,82073972)。
文摘The family Rhyscotidae Budde-Lund,1904 contains two genera:Rhyscotoides Schmalfuss&Ferrara,1978 and Rhyscotus Budde-Lund,1885.To date,twenty-one species within the family are known,occurring in the subtropic and tropic regions(Schmalfuss,2003;Schmidt,2003;Boyko et al.,2022).The members of the family can be recognized by the cephalon with a strongly inflated frons,the antennae with two-jointed flagellum,the maxillae are almost semicircular,the maxillipeds have short palpus and endite,and pleopod exopodites without pseudotracheae(Schmalfuss&Ferrara,1978).Before this study,the members of Rhyscotidae were unknown in China.The present research describes a new species of the genus Rhyscotus from Hainan Island,representing a new record of the family Rhyscotidae from China.