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Single-cell RNA sequencing reveals the dynamics of hepatic non-parenchymal cells in autoprotection against acetaminophen-induced hepatotoxicity
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作者 Lingqi Yu Jun Yan +6 位作者 Yingqi Zhan Anyao Li Lidan Zhu Jingyang Qian Fanfan Zhou Xiaoyan Lu Xiaohui Fan 《Journal of Pharmaceutical Analysis》 SCIE CAS CSCD 2023年第8期926-941,共16页
Gaining a better understanding of autoprotection against drug-induced liver injury(DILI)may provide new strategies for its prevention and therapy.However,little is known about the underlying mechanisms of this phenome... Gaining a better understanding of autoprotection against drug-induced liver injury(DILI)may provide new strategies for its prevention and therapy.However,little is known about the underlying mechanisms of this phenomenon.We used single-cell RNA sequencing to characterize the dynamics and functions of hepatic non-parenchymal cells(NPCs)in autoprotection against DILI,using acetaminophen(APAP)as a model drug.Autoprotection was modeled through pretreatment with a mildly hepatotoxic dose of APAP in mice,followed by a higher dose in a secondary challenge.NPC subsets and dynamic changes were identified in the APAP(hepatotoxicity-sensitive)and APAP-resistant(hepatotoxicity-resistant)groups.A chemokine(C-C motif)ligand 2^(+)endothelial cell subset almost disappeared in the APAP-resistant group,and an R-spondin 3^(+)endothelial cell subset promoted hepatocyte proliferation and played an important role in APAP autoprotection.Moreover,the dendritic cell subset DC-3 may protect the liver from APAP hepatotoxicity by inducing low reactivity and suppressing the autoimmune response and occurrence of inflammation.DC-3 cells also promoted angiogenesis through crosstalk with endothelial cells via vascular endothelial growth factor-associated ligand-receptor pairs and facilitated liver tissue repair in the APAP-resistant group.In addition,the natural killer cell subsets NK-3 and NK-4 and the Sca-1^(-)CD62L^(+)natural killer T cell subset may promote autoprotection through interferon-γ-dependent pathways.Furthermore,macrophage and neutrophil subpopulations with anti-inflammatory phenotypes promoted tolerance to APAP hepatotoxicity.Overall,this study reveals the dynamics of NPCs in the resistance to APAP hepatotoxicity and provides novel insights into the mechanism of autoprotection against DILI at a high resolution. 展开更多
关键词 Single-cell RNA sequencing Drug-induced liver injury Autoprotection against APAP hepatotoxicity Endothelial cells Dendritic cells
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Stem cell-based ischemic stroke therapy:Novel modifications and clinical challenges
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作者 Yuankai Sun Xinchi Jiang Jianqing Gao 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2024年第1期18-34,共17页
Ischemic stroke(IS)causes severe disability and high mortality worldwide.Stem cell(SC)therapy exhibits unique therapeutic potential for IS that differs from current treatments.SC’s cell homing,differentiation and par... Ischemic stroke(IS)causes severe disability and high mortality worldwide.Stem cell(SC)therapy exhibits unique therapeutic potential for IS that differs from current treatments.SC’s cell homing,differentiation and paracrine abilities give hope for neuroprotection.Recent studies on SC modification have enhanced therapeutic effects for IS,including gene transfection,nanoparticle modification,biomaterial modification and pretreatment.Thesemethods improve survival rate,homing,neural differentiation,and paracrine abilities in ischemic areas.However,many problems must be resolved before SC therapy can be clinically applied.These issues include production quality and quantity,stability during transportation and storage,as well as usage regulations.Herein,we reviewed the brief pathogenesis of IS,the“multi-mechanism”advantages of SCs for treating IS,various SC modification methods,and SC therapy challenges.We aim to uncover the potential and overcome the challenges of using SCs for treating IS and convey innovative ideas for modifying SCs. 展开更多
关键词 Ischemic stroke Stem cell therapy Stem cell modification Cell therapy challenge
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Targeting the organelle for radiosensitization in cancer radiotherapy
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作者 Xiaoyan Sun Linjie Wu +2 位作者 Lina Du Wenhong Xu Min Han 《Asian Journal of Pharmaceutical Sciences》 SCIE CAS 2024年第2期52-71,共20页
Radiotherapy is a well-established cytotoxic therapy for local solid cancers, utilizing high-energy ionizing radiation to destroy cancer cells. However, this method has several limitations, including low radiation ene... Radiotherapy is a well-established cytotoxic therapy for local solid cancers, utilizing high-energy ionizing radiation to destroy cancer cells. However, this method has several limitations, including low radiation energy deposition, severe damage to surrounding normal cells, and high tumor resistance to radiation. Among various radiotherapy methods, boron neutron capture therapy (BNCT) has emerged as a principal approach to improve the therapeutic ratio of malignancies and reduce lethality to surrounding normal tissue, but it remains deficient in terms of insufficient boron accumulation as well as short retention time, which limits the curative effect. Recently, a series of radiosensitizers that can selectively accumulate in specific organelles of cancer cells have been developed to precisely target radiotherapy, thereby reducing side effects of normal tissue damage, overcoming radioresistance, and improving radiosensitivity. In this review, we mainly focus on the field of nanomedicine-based cancer radiotherapy and discuss the organelle-targeted radiosensitizers, specifically including nucleus, mitochondria, endoplasmic reticulum and lysosomes. Furthermore, the organelle-targeted boron carriers used in BNCT are particularly presented. Through demonstrating recent developments in organelle-targeted radiosensitization, we hope to provide insight into the design of organelle-targeted radiosensitizers for clinical cancer treatment. 展开更多
关键词 Cancer radiotherapy Organelle-target RADIOSENSITIZATION Boron neutron capture therapy NANOMEDICINES
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Molecular Design of Conjugated Small Molecule Nanoparticles for Synergistically Enhanced PTT/PDT 被引量:4
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作者 Wei Shao Chuang Yang +5 位作者 Fangyuan Li Jiahe Wu Nan Wang Qiang Ding Jianqing Gao Daishun Ling 《Nano-Micro Letters》 SCIE EI CAS CSCD 2020年第11期25-38,共14页
Simultaneous photothermal therapy(PTT)and photodynamic therapy(PDT)is beneficial for enhanced cancer therapy due to the synergistic effect.Conventional materials developed for synergistic PTT/PDT are generally multico... Simultaneous photothermal therapy(PTT)and photodynamic therapy(PDT)is beneficial for enhanced cancer therapy due to the synergistic effect.Conventional materials developed for synergistic PTT/PDT are generally multicomponent agents that need complicated preparation procedures and be activated by multiple laser sources.The emerging monocomponent diketopyrrolopyrrole(DPP)-based conjugated small molecular agents enable dual PTT/PDT under a single laser irradiation,but suffer from low singlet oxygen quantum yield,which severely restricts the therapeutic efficacy.Herein,we report acceptor-oriented molecular design of a donor-acceptor-donor(D-A-D)conjugated small molecule(IID-ThTPA)-based phototheranostic agent,with isoindigo(IID)as selective acceptor and triphenylamine(TPA)as donor.The strong D-A strength and narrow singlet-triplet energy gap endow IID-ThTPA nanoparticles(IID-ThTPA NPs)high mass extinction coefficient(18.2 L g^-1 cm^-1),competitive photothermal conversion efficiency(35.4%),and a dramatically enhanced singlet oxygen quantum yield(84.0%)comparing with previously reported monocomponent PTT/PDT agents.Such a high PTT/PDT performance of IID-ThTPA NPs achieved superior tumor cooperative eradicating capability in vitro and in vivo. 展开更多
关键词 Molecular design Isoindigo Conjugated small molecule nanoparticles Singlet-triplet energy gap Synergistic PTT/PDT
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Current developments of bioanalytical sample preparation techniques in pharmaceuticals 被引量:3
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作者 Rahul G.Ingle Su Zeng +1 位作者 Huidi Jiang Wei-Jie Fang 《Journal of Pharmaceutical Analysis》 SCIE CAS CSCD 2022年第4期517-529,共13页
Sample preparation is considered as the bottleneck step in bioanalysis because each biological matrix has its own unique challenges and complexity.Competent sample preparation to extract the desired analytes and remov... Sample preparation is considered as the bottleneck step in bioanalysis because each biological matrix has its own unique challenges and complexity.Competent sample preparation to extract the desired analytes and remove redundant components is a crucial step in each bioanalytical approach.The matrix effect is a key hurdle in bioanalytical sample preparation,which has gained extensive consideration.Novel sample preparation techniques have advantages over classical techniques in terms of accuracy,automation,ease of sample preparation,storage,and shipment and have become increasingly popular over the past decade.Our objective is to provide a broad outline of current developments in various bioanalytical sample preparation techniques in chromatographic and spectroscopic examinations.In addition,how these techniques have gained considerable attention over the past decade in bioanalytical research is mentioned with preferred examples.Modern trends in bioanalytical sample preparation techniques,including sorbent-based microextraction techniques,are primarily emphasized. 展开更多
关键词 BIOANALYSIS Biological matrices Matrix effect MICROEXTRACTION Sample preparationtechnique
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Effects of polyol excipient stability during storage and use on the quality of biopharmaceutical formulations
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作者 Min-Fei Sun Jia-Ning Liao +4 位作者 Zhen-Yi Jing Han Gao Bin-Bin Shen You-Fu Xu Wei-Jie Fang 《Journal of Pharmaceutical Analysis》 SCIE CAS CSCD 2022年第5期774-782,共9页
Biopharmaceuticals are formulated using a variety of excipients to maintain their storage stability.However,some excipients are prone to degradation during repeated use and/or improper storage,and the impurities gener... Biopharmaceuticals are formulated using a variety of excipients to maintain their storage stability.However,some excipients are prone to degradation during repeated use and/or improper storage,and the impurities generated by their degradation are easily overlooked by end users and are usually not strictly monitored,affecting the stability of biopharmaceuticals.In this study,we evaluated the degradation profile of polyol excipient glycerol during repeated use and improper storage and identified an unprecedented cyclic ketal impurity using gas chromatography with mass spectrometry(GC-MS).The other polyol excipient,mannitol,was much more stable than glycerol.The effects of degraded glycerol and mannitol on the stability of the model biopharmaceutical pentapeptide,thymopentin,were also evaluated.The thymopentin content was only 66.4% in the thymopentin formulations with degraded glycerol,compared to 95.8% in other formulations after the stress test.Most glycerol impurities(i.e.,aldehydes and ketones)reacted with thymopentin,affecting the stability of thymopentin formulations.In conclusion,this work suggests that more attention should be paid to the quality changes of excipients during repeated use and storage.Additional testing of excipient stability under real or accelerated conditions by manufacturers would help avoid unexpected and painful results. 展开更多
关键词 Excipient stability GC-MS GLYCEROL LC-MS/MS MANNITOL THYMOPENTIN
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Reductive lipid nanoparticles loaded with vinorelbine inhibit chemotherapy-induced invasion of cancer cells by modulating ENPP2
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作者 Xiaoqi Zhao Xuemeng Guo +10 位作者 Mei Pang Weigen Qiu Zhenyu Luo Qing Lin Yichao Lu Hang Yin Sijie Wang Huihui Liu Junlei Zhang Lihua Luo Jian You 《Nano Research》 SCIE EI CSCD 2024年第4期2886-2898,共13页
Cancer is a predominant culprit behind worldwide death and accounts for up to 10 million deaths every year.Chemotherapy is the primary therapeutic method employed for cancer in clinical settings and is essential in co... Cancer is a predominant culprit behind worldwide death and accounts for up to 10 million deaths every year.Chemotherapy is the primary therapeutic method employed for cancer in clinical settings and is essential in controlling tumor progression.Despite the advances in this field,tumor invasion and metastasis during treatment remain a significant cause of treatment failure.Nevertheless,the underlying mechanisms involving such a disappointing phenomenon are still not fully elucidated.Vinorelbine(VNB)extends the lifespan of many cancer patients in the clinic as an emerging chemotherapy drug approved by Food and Drug Administration(FDA).However,VNB-induced tumor metastasis is still an intractable problem,which may be closely related to the abnormal oxidative stress generated during VNB-mediated treatment.Hence,the study aims to construct a reductive nanosystem loaded with VNB,called VNB-VNP,to improve cancer cure rates and reduce tumor metastasis.With the reductive component vitamin E,VNB-VNP can effectively reduce oxidative stress and significantly outperform free VNB in preventing tumor progression.The transcriptome analysis shows that VNB-VNP can alleviate the over-expression of ectonucleotide pyrophosphatase/phosphodiesterase 2(ENPP2),which may be the main reason why VNB-VNP can inhibit tumor invasion and metastasis.Overall,the research designs a new platform for VNB treatment,which demonstrates promising efficacy in inhibiting neoplastic progression and identifies a new mechanism associated with VNB-induced tumor metastasis,which may offer several valuable references for enhancing chemotherapy efficacy in clinical anti-tumor therapy. 展开更多
关键词 chemotherapy VINORELBINE tumor Invasion lysophosphatidic acid ectonucleotide pyrophosphatase/phosphodiesterase 2(ENPP2)
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Metal nanoparticles for cancer therapy:Precision targeting of DNA damage
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作者 Qian Chen Chunyan Fang +3 位作者 Fan Xia Qiyue Wang Fangyuan Li Daishun Ling 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2024年第3期1132-1149,共18页
Cancer,a complex and heterogeneous disease,arises from genomic instability.Currently,DNA damage-based cancer treatments,including radiotherapy and chemotherapy,are employed in clinical practice.However,the efficacy an... Cancer,a complex and heterogeneous disease,arises from genomic instability.Currently,DNA damage-based cancer treatments,including radiotherapy and chemotherapy,are employed in clinical practice.However,the efficacy and safety of these therapies are constrained by various factors,limiting their ability to meet current clinical demands.Metal nanoparticles present promising avenues for enhancing each critical aspect of DNA damage-based cancer therapy.Their customizable physicochemical properties enable the development of targeted and personalized treatment platforms.In this review,we delve into the design principles and optimization strategies of metal nanoparticles.We shed light on the limitations of DNA damage-based therapy while highlighting the diverse strategies made possible by metal nanoparticles.These encompass targeted drug delivery,inhibition of DNA repair mechanisms,induction of cell death,and the cascading immune response.Moreover,we explore the pivotal role of physicochemical factors such as nanoparticle size,stimuli-responsiveness,and surface modification in shaping metal nanoparticle platforms.Finally,we present insights into the challenges and future directions of metal nanoparticles in advancing DNA damage-based cancer therapy,paving the way for novel treatment paradigms. 展开更多
关键词 DNA damage Metal nanoparticles Nucleus-targeting DNA repair inhibition Immune response Size optimization Stimuli-responsiveness Surface modification
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A Sub-Nanostructural Transformable Nanozyme for Tumor Photocatalytic Therapy 被引量:5
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作者 Xi Hu Nan Wang +8 位作者 Xia Guo Zeyu Liang Heng Sun Hongwei Liao Fan Xia Yunan Guan Jiyoung Lee Daishun Ling Fangyuan Li 《Nano-Micro Letters》 SCIE EI CAS CSCD 2022年第6期282-293,共12页
The structural change-mediated catalytic activity regulation plays a significant role in the biological functions of natural enzymes.However,there is virtually no artificial nanozyme reported that can achieve natural ... The structural change-mediated catalytic activity regulation plays a significant role in the biological functions of natural enzymes.However,there is virtually no artificial nanozyme reported that can achieve natural enzyme-like stringent spatiotemporal structure-based catalytic activity regulation.Here,we report a subnanostructural transformable gold@ceria(STGC-PEG)nanozyme that performs tunable catalytic activities via near-infrared(NIR)light-mediated sub-nanostructural transformation.The gold core in STGC-PEG can generate energetic hot electrons upon NIR irradiation,wherein an internal sub-nanostructural transformation is initiated by the conversion between CeO;and electron-rich state of CeO;-x,and active oxygen vacancies generation via the hot-electron injection.Interestingly,the sub-nanostructural transformation of STGC-PEG enhances peroxidase-like activity and unprecedentedly activates plasmon-promoted oxidase-like activity,allowing highly efficient low-power NIR light(50 m W cm;)-activated photocatalytic therapy of tumors.Our atomic-level design and fabrication provide a platform to precisely regulate the catalytic activities of nanozymes via a light-mediated sub-nanostructural transformation,approaching natural enzyme-like activity control in complex living systems. 展开更多
关键词 Nanozymes Sub-nanostructural transformation Catalytic activity Reactive oxygen species Photocatalytic therapy
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Designed fabrication of mesoporous silica-templated self-assembled theranostic nanomedicines 被引量:1
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作者 Fangyuan Li&Daishun Ling Yang Du +6 位作者 Zheng Chen Ji Young Lee Peihua Lin Fan Xia Yunan Guan Fangyuan Li Daishun Ling 《Science China Chemistry》 SCIE EI CAS CSCD 2021年第2期204-217,共14页
Theranostic nanosystems that integrate diagnosis and therapy have garnered increasing attention for personalized medicine.The integration of the versatile nanoparticles to fabricate self-assembled theranostic nanomedi... Theranostic nanosystems that integrate diagnosis and therapy have garnered increasing attention for personalized medicine.The integration of the versatile nanoparticles to fabricate self-assembled theranostic nanomedicines becomes increasingly important in current medical research.Mesoporous silica nanoparticles(MSN)with their highly attractive physicochemical properties and favorable morphological attributes represent ideal templates for the controlled assembly and integration of functional nanomaterials to fabricate self-assembled theranostic nanomedicines.The rationally designed combination strategy and heterostructure will improve the overall bioavailability and preserve the unique property of each nanocomponent.In this review,the cutting-edge strategies for the designed fabrication of MSN-templated self-assembled nanomedicines are summarized.We categorize MSN-based nanomedicines by their unique heterostructures,including core-shell,yolk-shell,core-satellite,heterodimer and core-shell-satellite structures,and discuss the controlled assembly approaches as well as the intriguing applications for disease theranostics.Finally,a perspective on the challenges in the clinical translation of self-assembled theranostic nanomedicines is highlighted. 展开更多
关键词 self-assembly THERANOSTICS heterostructure mesoporous silica NANOMEDICINES
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Membrane fusion reverse micelle platforms as potential oral nanocarriers for efficient internalization of free hydrophilic peptides
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作者 Mengting Lin Linjie Wu +9 位作者 Yiying Lu Xiaoyan Bao Haiqing Zhong Qi Dai Qiyao Yang Yiyi Xia Xin Tan Yaxin Qin Ruolin Jiang Min Han 《Nano Research》 SCIE EI CSCD 2023年第7期9768-9780,共13页
Orally administered peptides or proteins are garnering increasing preference owing to their superiority in terms of patient compliance and convenience.However,the development of oral protein formulations has stalled d... Orally administered peptides or proteins are garnering increasing preference owing to their superiority in terms of patient compliance and convenience.However,the development of oral protein formulations has stalled due to the low bioavailability of macromolecules that encounter the aggressive gastrointestinal environment and harsh mucus villi barrier.Herein,we propose an ideal reverse micelle/self-emulsifying drug delivery system(RM/SEDDS)nanoplatform that is capable of improving the oral bioavailability of hydrophilic peptides by preventing enzymatic degradation and enhancing mucosal permeability.Upon the passage through the mucus,the self-emulsifying drug delivery system with optimal surface properties effectively penetrates the viscoelastic mucosal barrier,followed by the exposure of the inner reverse micelle amphipathic vectors,which autonomously form continua with the lipidic cell membrane and facilitate the internalization of drugs.This membrane-fusion mechanism inaugurates a new way for hydrophilic peptide delivery in the free form,circumventing the traditional impediments of the cellular internalization of nanocarriers and subsequent poor release of drugs.And more importantly,reverse micelles are not spatially specific to the laden drugs,which enables their delivery for a myriad of peptide clinical drugs.In conclusion,as an exquisitely designed nanoplatform,RM/SEDDS overcomes multiple physiological barriers and opens a new path for drug cellular entry,providing new prospects for the development of oral drug delivery systems. 展开更多
关键词 oral drug delivery system reverse micelle self-emulsifying drug delivery system membrane fusion hydrophilic peptide
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Erratum to:Membrane fusion reverse micelle platforms as potential oral nanocarriers for efficient internalization of free hydrophilic peptides
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作者 Mengting Lin Linjie Wu +9 位作者 Yiying Lu Xiaoyan Bao Haiqing Zhong Qi Dai Qiyao Yang Yiyi Xia Xin Tan Yaxin Qin Ruolin Jiang Min Han 《Nano Research》 SCIE EI CSCD 2023年第7期10712-10712,共1页
Erratum to Nano Research 2023,16(7):9768-9780 https://doi.org/10.1007/s12274-023-5645-7 The complete affiliations of co-author Yiying Lu is Institute of Pharmaceutics,College of Pharmaceutical Sciences,Zhejiang Univer... Erratum to Nano Research 2023,16(7):9768-9780 https://doi.org/10.1007/s12274-023-5645-7 The complete affiliations of co-author Yiying Lu is Institute of Pharmaceutics,College of Pharmaceutical Sciences,Zhejiang University,Hangzhou 310058,China and Department of Pharmacy,Second Affiliated Hospital,Zhejiang University School of Medicine,Hangzhou 310058,China. 展开更多
关键词 China PHARMACY POTENTIAL
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Nano-bio interactions between 2D nanomaterials and mononuclear phagocyte system cells
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作者 Jing Zhao Zheng Chen +4 位作者 Shanbiao Liu Pin Li Shiyi Yu Daishun Ling Fangyuan Li 《BMEMat(BioMedical Engineering Materials)》 2024年第2期92-117,共26页
Two-dimensional(2D)nanomaterials,known for their unique atomic arrangements and exceptional physicochemical properties,have garnered significant attention in biomedical applications,particularly in the realms of immun... Two-dimensional(2D)nanomaterials,known for their unique atomic arrangements and exceptional physicochemical properties,have garnered significant attention in biomedical applications,particularly in the realms of immunotherapy for tissue engineering and tumor therapy.These applications necessitate a thorough assessment of the potential influence of 2D nanomaterials on immune cells.Notably,the mononuclear phagocyte system(MPS)cells,which play pivotal roles in both innate and adaptive immunity,are essential for maintaining organismal homeostasis.MPS cells with phagocytic capability contribute to the prevention of foreign body invasion and the elimination of dead or senescent cells.Furthermore,MPS cells,including macrophages and dendritic cells,serve as vital bridges between innate and adaptive immune responses.Therefore,understanding the nano-bio interactions between 2D nanomaterials and MPS cells is imperative.These nano-bio interactions including cellular uptake,cytocompatibility,and immunological impact are invaluable forthe purposeful design of 2D nanomaterials.Herein,we provide an overview of the latest advancements in understanding the nano-bio interactions between 2D nanomaterials and MPS cells,and discuss the current challenges and future prospects of employing 2D nanomaterials in the field of nanomedicine. 展开更多
关键词 2D nanomaterials cellular uptake dendritic cells immunological impact macrophages mononuclear phagocyte system nano-bio interactions
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Targeting PI3K/AKT signaling for treatment of idiopathic pulmonary fibrosis 被引量:69
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作者 Jincheng Wang Kaili Hu +4 位作者 Xuanyan Cai Bo Yang Qiaojun He Jiajia Wang Qinjie Weng 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2022年第1期18-32,共15页
Idiopathic pulmonary fibrosis(IPF) is a chronic progressive fibrotic interstitial pneumonia with unknown causes. The incidence rate increases year by year and the prognosis is poor without cure.Recently, phosphatidyli... Idiopathic pulmonary fibrosis(IPF) is a chronic progressive fibrotic interstitial pneumonia with unknown causes. The incidence rate increases year by year and the prognosis is poor without cure.Recently, phosphatidylinositol 3-kinase(PI3 K)/protein kinase B(PKB/AKT) signaling pathway can be considered as a master regulator for IPF. The contribution of the PI3 K/AKT in fibrotic processes is increasingly prominent, with PI3 K/AKT inhibitors currently under clinical evaluation in IPF. Therefore,PI3 K/AKT represents a critical signaling node during fibrogenesis with potential implications for the development of novel anti-fibrotic strategies. This review epitomizes the progress that is being made in understanding the complex interpretation of the cause of IPF, and demonstrates that PI3 K/AKT can directly participate to the greatest extent in the formation of IPF or cooperate with other pathways to promote the development of fibrosis. We further summarize promising PI3 K/AKT inhibitors with IPF treatment benefits, including inhibitors in clinical trials and pre-clinical studies and natural products, and discuss how these inhibitors mitigate fibrotic progression to explore possible potential agents, which will help to develop effective treatment strategies for IPF in the near future. 展开更多
关键词 Idiopathic pulmonary fibrosis PI3K/AKT signaling PATHOGENESIS Coagulation cascade Immune activation Fibroblast accumulation Therapeutic target Drug therapy
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New idea to promote the clinical applications of stem cells or their extracellular vesicles in central nervous system disorders:Combining with intranasal delivery 被引量:3
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作者 Yaosheng Li Honghui Wu +3 位作者 Xinchi Jiang Yunfei Dong Juanjuan Zheng Jianqing Gao 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2022年第8期3215-3232,共18页
The clinical translation of stem cells and their extracellular vesicles(EVs)-based therapy for central nervous system(CNS) diseases is booming. Nevertheless, the insufficient CNS delivery and retention together with t... The clinical translation of stem cells and their extracellular vesicles(EVs)-based therapy for central nervous system(CNS) diseases is booming. Nevertheless, the insufficient CNS delivery and retention together with the invasiveness of current administration routes prevent stem cells or EVs from fully exerting their clinical therapeutic potential. Intranasal(IN) delivery is a possible strategy to solve problems as IN route could circumvent the brain-blood barrier non-invasively and fit repeated dosage regimens. Herein, we gave an overview of studies and clinical trials involved with IN route and discussed the possibility of employing IN delivery to solve problems in stem cells or EVs-based therapy. We reviewed relevant researches that combining stem cells or EVs-based therapy with IN administration and analyzed benefits brought by IN route. Finally, we proposed possible suggestions to facilitate the development of IN delivery of stem cells or EVs. 展开更多
关键词 Stem cells Extracellular vesicles Central nervous system disorders INTRANASAL Clinical translation STROKE Neurodegenerative disease GLIOMA
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Dynamic supraparticles for the treatment of age-related diseases 被引量:2
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作者 Hongwei Liao Zeyu Liang +4 位作者 Nan Wang Min Wei Ying Chen Fangyuan Li Daishun Ling 《Science Bulletin》 SCIE EI CAS CSCD 2019年第24期1850-1874,共25页
Age-related diseases(ARDs) are arising as a major threat to public health in our fast-aging society.Current development of nanomedicine has sparked much optimism toward ARDs management by improving drug delivery and c... Age-related diseases(ARDs) are arising as a major threat to public health in our fast-aging society.Current development of nanomedicine has sparked much optimism toward ARDs management by improving drug delivery and controlled drug release. However, effective treatments for ARDs, such as cancer and Alzheimer’s diseases(AD), are still lacking, due to the complicated pathological features of ARDs including multifactorial pathogenesis, intricate disease microenvironment, and dynamic symptom manifestation. Recently, dynamic supraparticles(DS), which are reversibly self-assembled functional nanoparticles, have provided a novel strategy for combating ARDs. Besides the intrinsic advantages of nanomedicine including multifunctional and multitarget, DS are capable of dynamic structural reconfiguration upon certain stimulation, creating another layer of maneuverability that allows programmed response to the spatiotemporal alterations of ARDs during progression and treatment. In this review,we will overview the challenges faced by ARDs management, and discuss the unique opportunities brought by DS. Then, we will summarize the designed synthesis of DS for ARDs treatment. Finally, we will dissect the therapeutic targets in ARDs that can be exploited by DS, and present the encouraging advances in this field. Hopefully, this review will bridge our knowledge of the design principle of DS and ARDs management, which may inspire the future development of potent theranostic agents to improve the healthcare. 展开更多
关键词 Dynamic supraparticles Age-related diseases NANOMEDICINE STIMULI-RESPONSIVE
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Tumor-responsive dynamic nanoassemblies for boosted photoimmunotherapy 被引量:1
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作者 Dao Shi Nan Wang +6 位作者 Jie Zhang Xi Hu Qiyue Wang Ruixue Xiao Baoyue Ding Fangyuan Li Daishun Ling 《Nano Research》 SCIE EI CSCD 2023年第8期11125-11138,共14页
Photoimmunotherapy(PIT)is an emerging therapeutic approach that integrates phototherapy and immunotherapy to eliminate primary tumors under an appropriate dosage of local light irradiation,while simultaneously prevent... Photoimmunotherapy(PIT)is an emerging therapeutic approach that integrates phototherapy and immunotherapy to eliminate primary tumors under an appropriate dosage of local light irradiation,while simultaneously preventing tumor metastasis and recurrence by activating the host antitumor immune response.Tumor-responsive dynamic nanoassemblies(TDNs)have evolved from being a mere curiosity to a promising platform for high-performance PIT.However,the dynamic nano-bio interaction between TDNs and tumor microenvironment remains poorly understood,which shall be critical for precise control of TDNs assembling/disassembling behavior and superior PIT efficacy.To deepen the understanding of the structure–function relationship of TDNs,this review introduces the rational design,nano-bio interactions,and controllable functionalities of cutting-edge TDNs for enhanced PIT.Moreover,the synergetic mechanism between TDNs-based PIT and immunomodulatory agents-mediated immunomodulation is particularly emphasized.Finally,the challenges and future perspectives in this emerging field are assessed. 展开更多
关键词 photoimmunotherapy tumor-responsive dynamic nanoassemblies immunosuppressive tumor microenvironment
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Metformin activates chaperone-mediated autophagy and improves disease pathologies in an Alzheimer disease mouse model 被引量:10
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作者 Xiaoyan Xu Yaqin Sun +12 位作者 Xufeng Cen Bing Shan Qingwei Zhao Tingxue Xie Zhe Wang Tingjun Hou Yu Xue Mengmeng Zhang Di Peng Qiming Sun Cong Yi Ayaz Najafov Hongguang Xia 《Protein & Cell》 SCIE CSCD 2021年第10期769-787,共19页
Chaperone-mediated autophagy(CMA)is a lysosome-dependent selective degradation pathway implicated in the pathogenesis of cancer and neurodegenerative diseases.However,the mechanisms that regulate CMA are not fully und... Chaperone-mediated autophagy(CMA)is a lysosome-dependent selective degradation pathway implicated in the pathogenesis of cancer and neurodegenerative diseases.However,the mechanisms that regulate CMA are not fully understood.Here,using unbiased drug screening approaches,we discover Metformin,a drug that is commonly the first medication prescribed for type 2 diabetes,can induce CMA.We delineate the mechanism of CMA induction by Metformin to be via activation of TAK1-IKKα/β signaling that leads to phosphorylation of Ser85 of the key mediator of CMA,Hsc70,and its activation.Notably,we find that amyloid-beta precursor protein(APP)is a CMA substrate and that it binds to Hsc70 in an IKKα/β-dependent manner.The inhibition of CMA-mediated degradation of APP enhances its cytotoxicity.Importantly,we find that in the APP/PS1 mouse model of Alzheimer's disease(AD),activation of CMA by Hsc70 overexpression or Metformin potently reduces the accumulated brain Aβplaque levels and reverses the molecular and behavioral AD phenotypes.Our study elucidates a novel mechanism of CMA regulation via Metformin-TAK1-IKKα/β-Hsc70 signaling and suggests Metformin as a new activator of CMA for diseases,such as AD,where such therapeutic intervention could be beneficial. 展开更多
关键词 chaperone-mediated autophagy METFORMIN TAK1 IKKα/β Hsc70 APP Alzheimer’s disease
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A mini-review and perspective on ferroptosis-inducing strategies in cancer therapy 被引量:3
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作者 Shuaifei Wang Hongwei Liao +1 位作者 Fangyuan Li Daishun Ling 《Chinese Chemical Letters》 SCIE CAS CSCD 2019年第4期847-852,共6页
Ferroptosis, as a new type of cell death caused by lipid peroxidation, has attracted much attention since it was first identified in 2012. A lot of progress has been made in unraveling its mechanisms and therapeutic p... Ferroptosis, as a new type of cell death caused by lipid peroxidation, has attracted much attention since it was first identified in 2012. A lot of progress has been made in unraveling its mechanisms and therapeutic potential as a target for cancer therapy. Hitherto, there are mainly two strategies widely adopted for designing ferroptosis-inducing agents, which include increasing the intracellular reactive oxygen species(ROS) level by Fenton reaction, and inactivating the glutathione peroxidase 4(GPX4). In this mini-review,we summarize the recent advances in ferroptosis-based anticancer treatments with a highlight on nanomaterials, and discuss the current challenges faced by those agents from the perspective of in vivo applications. Moreover, by generalizing ferroptosis induced by excess iron ions to cell death caused by the polyvalent metal-mediated oxidative burden, we introduce a new paradigm of cancer treatment by exploiting various polyvalent metals to disrupt the vulnerable redox balance in cancer cells, which may greatly diversify our arsenal to combat cancer. 展开更多
关键词 Ferroptosis Fenton reaction Reactive oxygen species LIPID PEROXIDATION GLUTATHIONE PEROXIDASE 4
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TSNAdb: A Database for Tumor-specific Neoantigens from Immunogenomics Data Analysis 被引量:4
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作者 Jingcheng Wu Wenyi Zhao +4 位作者 Binbin Zhou Zhixi Su Xun Gu Zhan Zhou Shuqing Chen 《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2018年第4期276-282,共7页
Tumor-specific neoantigens have attracted much attention since they can be used as biomarkers to predict therapeutic effects of immune checkpoint blockade therapy and as potential targets for cancer immunotherapy. In ... Tumor-specific neoantigens have attracted much attention since they can be used as biomarkers to predict therapeutic effects of immune checkpoint blockade therapy and as potential targets for cancer immunotherapy. In this study, we developed a comprehensive tumor-specific neoantigen database (TSNAdb v1.0), based on pan-cancer immunogenomic analyses of somatic mutation data and human leukocyte antigen (HLA) allele information for 16 tumor types with 7748 tumor samples from The Cancer Genome Atlas (TCGA) and The Cancer Immunome Atlas (TCIA). We predicted binding affinities between mutant/wild-type peptides and HLA class I molecules by NetMHCpan v2.8/v4.0, and presented detailed information of 3,707,562/1,146,961 potential neoantigens generated by somatic mutations of all tumor samples. Moreover, we employed recurrent mutations in combination with highly frequent HLA alleles to predict potential shared neoantigens across tumor patients,which would facilitate the discovery of putative targets for neoantigen-based cancer immunotherapy.TSNAdb is freely available at http://biopharm.zju.edu.cn/tsnadb. 展开更多
关键词 NEOANTIGEN Cancer immunotherapy Somatic mutation Human leukocyte antigen DATABASE
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