Bacterial infections have always been a major threat to human health.Skin wounds are frequently exposed to the external environment,and they may become contaminated by bacteria derived from the surrounding skin,the lo...Bacterial infections have always been a major threat to human health.Skin wounds are frequently exposed to the external environment,and they may become contaminated by bacteria derived from the surrounding skin,the local environment,and the patient’s own endogenous sources.Contaminated wounds may enter a state of chronic inflammation that impedes healing.Urgent development of antibacterial wound dressings capable of effectively combating bacteria and overcoming resistance is necessary.Nanotechnology and nanomaterials present promising potential as innovative strategies for antimicrobial wound dressings,owing to their robust antibacterial characteristics and the inherent advantage of avoiding antibiotic resistance.Therefore,this review provides a concise overview of the antimicrobial mechanisms exhibited by low-dimensional nanomaterials.It further categorizes common low-dimensional antimicrobial nanomaterials into zero-dimensional(0D),one-dimensional(1D)and two-dimensional(2D)nanomaterials based on their structural characteristics,and gives a detailed compendium of the latest research advances and applications of different low-dimensional antimicrobial nanomaterials in wound healing,which could be helpful for the development of more effective wound dressings.展开更多
The authors regret that there is an error in the article Fig.9D1 due to the mistake of copying and pasting in the process of assembling figures and negligence in the proofreading,and also a mislabled error in the supp...The authors regret that there is an error in the article Fig.9D1 due to the mistake of copying and pasting in the process of assembling figures and negligence in the proofreading,and also a mislabled error in the supporting Information Fig.S9 and S10.展开更多
Cancer,like other diseases accompanied by metabolic changes,shows characteristic DNA/RNA modifications and activities of modifying enzymes,resulting in fluctuations in nucleoside levels.In this study,we undertook targ...Cancer,like other diseases accompanied by metabolic changes,shows characteristic DNA/RNA modifications and activities of modifying enzymes,resulting in fluctuations in nucleoside levels.In this study,we undertook targeted metabolomic analyses of nucleotides in different cancer cell culture models using a sensitive and reproducible ion-pair HPLC method.The experimental data were analyzed by principal component analysis(PCA)to identify potential biomarkers in cancer cells,and statistical significance was determined by one-way analysis of variance.As a result,a clear differentiation of normal and tumor cells into two clusters was shown,indicating abnormal metabolism of nucleotides in tumor cells.Six variables(AMP,UDP,CTP levels with a significance of Po0.05;ATP,UTP and GMP levels with a significance of Po0.01)were considered as potential biomarkers;the content of AMP,UTP,GMP and ATP was significantly higher in cancer cells.The receiver operating characteristic(ROC)curve analysis allowed us to discriminate normal cells from tumor cells based on area under the curve(AUC).The sequence of their AUC values were:ATP(0.979)4UTP(0.938)4CTP¼GMP(0.896)4AMP(0.812)4UDP(0.792),so we conclude that ATP and UTP are the best potential biomarkers in tumor cells.This study may provide a valuable tool for studying minute alterations of intracellular nucleotide pools induced by anticancer/antiviral drugs,diseases or environmental factors.展开更多
Utilization of the intestinal lymphatic pathway will allow extraordinary gains in lymph and tumors cascade-targeted delivery of oral drugs and awakening the innate/adaptive immunity of the body and the lesion microenv...Utilization of the intestinal lymphatic pathway will allow extraordinary gains in lymph and tumors cascade-targeted delivery of oral drugs and awakening the innate/adaptive immunity of the body and the lesion microenvironment,in addition to improving oral bioavailability relative to other means of delivery of oral drugs.Here,inspired by the specific invasion route of intestinal microorganisms,we pioneered an immune-awakening Saccharomyces-inspired mesoporous silicon nanoparticle(yMSN)for the ingenious cascade-targeted delivery of therapeutic cancer vaccines and antitumor drugs to lymph and tumors via the intestinal lymphatic pathway.Encouragingly,yMSN high-loaded tumor-specific antigens(OVA,11.9%)and anti-tumor drugs(Len,28.6%)with high stability,namely Len/OVA/yMSN,efficiently co-delivered OVA and Len to their desired target sites.Moreover,yMSN concomitantly awakened the innate antitumor immunity of dendritic cells and macrophages,strengthening vaccine-induced adaptive immune responses and reversing macrophage-associated immunosuppression in the tumor microenvironment.Surprisingly,Len/OVA/yMSN treatment resulted in excellent synergistic antitumor efficacy and long-term antitumor memory in OVA-Hepa1-6-bearing mice.This high-performance nanocarrier provides a novel approach for lesion-targeting delivery of oral drugs accompanied with awakening of the innate/adaptive immunity of the lesion environment,and also represents a novel path for the oral delivery of diverse therapeutic agents targeting other lymph-mediated diseases.展开更多
Nucleotide pools in mammalian cells change due to the influence of antitumor drugs,which may help in evaluating the drug effect and understanding the mechanism of drug action.In this study,an ion-pair RP-HPLC method w...Nucleotide pools in mammalian cells change due to the influence of antitumor drugs,which may help in evaluating the drug effect and understanding the mechanism of drug action.In this study,an ion-pair RP-HPLC method was used for a simple,sensitive and simultaneous determination of the levels of 12 nucleotides in mammalian cells treated with antibiotic antitumor drugs(daunorubicin,epirubicin and dactinomycin D).Through the use of this targeted metabolomics approach to find potential biomarkers,UTP and ATP were verified to be the most appropriate biomarkers.Moreover,a holistic statistical approach was put forward to develop a model which could distinguish 4 categories of drugs with different mechanisms of action.This model can be further validated by evaluating drugs with different mechanismsof action.This targeted metabolomics study may provide a novel approach to predict the mechanism of action of antitumor drugs.展开更多
基金financially supportsed by National Natural Science Foundation of China(No.52173150)Guangzhou Science and Technology Program City-University Joint Funding Project(No.2023A03J0001)Postdoctoral Science Foundation(No.2022M723670).
文摘Bacterial infections have always been a major threat to human health.Skin wounds are frequently exposed to the external environment,and they may become contaminated by bacteria derived from the surrounding skin,the local environment,and the patient’s own endogenous sources.Contaminated wounds may enter a state of chronic inflammation that impedes healing.Urgent development of antibacterial wound dressings capable of effectively combating bacteria and overcoming resistance is necessary.Nanotechnology and nanomaterials present promising potential as innovative strategies for antimicrobial wound dressings,owing to their robust antibacterial characteristics and the inherent advantage of avoiding antibiotic resistance.Therefore,this review provides a concise overview of the antimicrobial mechanisms exhibited by low-dimensional nanomaterials.It further categorizes common low-dimensional antimicrobial nanomaterials into zero-dimensional(0D),one-dimensional(1D)and two-dimensional(2D)nanomaterials based on their structural characteristics,and gives a detailed compendium of the latest research advances and applications of different low-dimensional antimicrobial nanomaterials in wound healing,which could be helpful for the development of more effective wound dressings.
文摘The authors regret that there is an error in the article Fig.9D1 due to the mistake of copying and pasting in the process of assembling figures and negligence in the proofreading,and also a mislabled error in the supporting Information Fig.S9 and S10.
基金support of Natural Science Foundation of Liaoning Province(No.201102210)Program for Liaoning Innovative Research Team in University(No.LH2012018)National Undergraduate Training Programs for Innovation and Entrepreneurship(No.201210163007).
文摘Cancer,like other diseases accompanied by metabolic changes,shows characteristic DNA/RNA modifications and activities of modifying enzymes,resulting in fluctuations in nucleoside levels.In this study,we undertook targeted metabolomic analyses of nucleotides in different cancer cell culture models using a sensitive and reproducible ion-pair HPLC method.The experimental data were analyzed by principal component analysis(PCA)to identify potential biomarkers in cancer cells,and statistical significance was determined by one-way analysis of variance.As a result,a clear differentiation of normal and tumor cells into two clusters was shown,indicating abnormal metabolism of nucleotides in tumor cells.Six variables(AMP,UDP,CTP levels with a significance of Po0.05;ATP,UTP and GMP levels with a significance of Po0.01)were considered as potential biomarkers;the content of AMP,UTP,GMP and ATP was significantly higher in cancer cells.The receiver operating characteristic(ROC)curve analysis allowed us to discriminate normal cells from tumor cells based on area under the curve(AUC).The sequence of their AUC values were:ATP(0.979)4UTP(0.938)4CTP¼GMP(0.896)4AMP(0.812)4UDP(0.792),so we conclude that ATP and UTP are the best potential biomarkers in tumor cells.This study may provide a valuable tool for studying minute alterations of intracellular nucleotide pools induced by anticancer/antiviral drugs,diseases or environmental factors.
基金This work was supported by China Postdoctoral Science Foundation(No.2020T130434,China)National Natural Science Foundation of China(No.82073798,China)+2 种基金National Natural Science Foundation of China(No.82104107,China)National Basic Research Program of China(973 Program)(No.2015CB932100,China)Doctoral Start-up Foundation of Liaoning Province(No.2021-BS-127,China).
文摘Utilization of the intestinal lymphatic pathway will allow extraordinary gains in lymph and tumors cascade-targeted delivery of oral drugs and awakening the innate/adaptive immunity of the body and the lesion microenvironment,in addition to improving oral bioavailability relative to other means of delivery of oral drugs.Here,inspired by the specific invasion route of intestinal microorganisms,we pioneered an immune-awakening Saccharomyces-inspired mesoporous silicon nanoparticle(yMSN)for the ingenious cascade-targeted delivery of therapeutic cancer vaccines and antitumor drugs to lymph and tumors via the intestinal lymphatic pathway.Encouragingly,yMSN high-loaded tumor-specific antigens(OVA,11.9%)and anti-tumor drugs(Len,28.6%)with high stability,namely Len/OVA/yMSN,efficiently co-delivered OVA and Len to their desired target sites.Moreover,yMSN concomitantly awakened the innate antitumor immunity of dendritic cells and macrophages,strengthening vaccine-induced adaptive immune responses and reversing macrophage-associated immunosuppression in the tumor microenvironment.Surprisingly,Len/OVA/yMSN treatment resulted in excellent synergistic antitumor efficacy and long-term antitumor memory in OVA-Hepa1-6-bearing mice.This high-performance nanocarrier provides a novel approach for lesion-targeting delivery of oral drugs accompanied with awakening of the innate/adaptive immunity of the lesion environment,and also represents a novel path for the oral delivery of diverse therapeutic agents targeting other lymph-mediated diseases.
基金supported financially by the Natural Science Foundation of Liaoning Province,China (No.201102210)the Program for Liaoning Innovative Research Team in University (No.LH2012018)
文摘Nucleotide pools in mammalian cells change due to the influence of antitumor drugs,which may help in evaluating the drug effect and understanding the mechanism of drug action.In this study,an ion-pair RP-HPLC method was used for a simple,sensitive and simultaneous determination of the levels of 12 nucleotides in mammalian cells treated with antibiotic antitumor drugs(daunorubicin,epirubicin and dactinomycin D).Through the use of this targeted metabolomics approach to find potential biomarkers,UTP and ATP were verified to be the most appropriate biomarkers.Moreover,a holistic statistical approach was put forward to develop a model which could distinguish 4 categories of drugs with different mechanisms of action.This model can be further validated by evaluating drugs with different mechanismsof action.This targeted metabolomics study may provide a novel approach to predict the mechanism of action of antitumor drugs.
