Pancreatic cancer (PC) occurs when malignant cells develop in the part of the pancreas, a glandular organ behind the stomach. For 2015, there are about 40,560 people dead of pancreatic cancer (20,710 men and 19,850...Pancreatic cancer (PC) occurs when malignant cells develop in the part of the pancreas, a glandular organ behind the stomach. For 2015, there are about 40,560 people dead of pancreatic cancer (20,710 men and 19,850 women) in the US (Siegel et al., 2015). Though PC accounts for about 3% of all cancers in the US, it can cause about 7% of cancer deaths. This is mainly because that the early stages of this cancer do not usually produce symptoms, and thus the cancer is almost always fatal when it is diagnosed.展开更多
Objective To investigate genes and involved biological processes closely associated with stem cell markers of colorectal cancer-epithelial cell adhesion molecule(EpCAM)+and CD44+.Methods By the bioinformatics method,w...Objective To investigate genes and involved biological processes closely associated with stem cell markers of colorectal cancer-epithelial cell adhesion molecule(EpCAM)+and CD44+.Methods By the bioinformatics method,with microarray data of colorectal cancer from gene expression omnibus(GEO)database and R2 platform,the genes significantly related with CD44 and Ep-展开更多
Gut microbiota play important roles in the immunity,digestion,and energy meta bolism of their reptile hosts.Mangshan pit viper(Protobothrops mangshanensis)is a critically endangered snake species that is a Class I nat...Gut microbiota play important roles in the immunity,digestion,and energy meta bolism of their reptile hosts.Mangshan pit viper(Protobothrops mangshanensis)is a critically endangered snake species that is a Class I national protected species in China.Little is known regarding the relationship between P.mangshanensis and their gut microbial communities.In this study,the gut microbiota of wild P.mangshanensis individuals,artificially hiberna ting captive individuals,and non-hibernating captive individuals were compared across nine samples.Comparative shotgun metagenomic analysis was used to investigate the taxonomic composition,diversity,and function of P.mangshanensis gut microbial communities and assess whether their gut microbiomes were affected by their living environments and captivity conditions.The dominant phyla within P.mangshanensis gut microbial communities were Proteobacteria(65.55%),Bacteroidetes(15.97%),and Firmicutes(8.11%).Enriched functional pathways within the gut microbiota included meta bolism(54.9%),environmental information processing(9.67%),and genetic information processing(9.37%).Wild snake gut communities exhibited higher microbial diversity than the other two groups.The gut microbiomes of wild and hibernating captive snakes may be more reflective of healthy intestinal homeostasis than that in nonhibernating snakes.Specifically,non-hibernating snakes exhibited increased levelsof potentially pathogenic populations and functional specialization within gut microbial communities.Thus,different livingenvironments and captivitymethodsmay correspond to major shifts in microbiota composition,diversity,and function within P.mangshanensis.This study provides important insights to help guide the conservation of P.mangshanensis,while also carrying broad implications for our understanding of the effects of living environments and non-hibernating captivity conditions on the gut microbiota of snakes.展开更多
BACKGROUND Alternative splicing(AS)increases the diversity of mRNA during transcription;it might play a role in alteration of the immune microenvironment,which could influence the development of immunotherapeutic stra...BACKGROUND Alternative splicing(AS)increases the diversity of mRNA during transcription;it might play a role in alteration of the immune microenvironment,which could influence the development of immunotherapeutic strategies against cancer.AIM To obtain the transcriptomic and clinical features and AS events in stomach adenocarcinoma(STAD)from the database.The overall survival data associated with AS events were used to construct a signature prognostic model for STAD.METHODS Differentially expressed immune-related genes were identified between subtypes on the basis of the prognostic model.In STAD,2042 overall-survival-related AS events were significantly enriched in various pathways and influenced several cellular functions.Furthermore,the network of splicing factors and overallsurvival-associated AS events indicated potential regulatory mechanisms underlying the AS events in STAD.RESULTS An eleven-AS-signature prognostic model(CD44|14986|ES,PPHLN1|21214|AT,RASSF4|11351|ES,KIAA1147|82046|AP,PPP2R5D|76200|ES,LOH12CR1|20507|ES,CDKN3|27569|AP,UBA52|48486|AD,CADPS|65499|AT,SRSF7|53276|RI,and WEE1|14328|AP)was constructed and significantly related to STAD overall survival,immune cells,and cancer-related pathways.The differentially expressed immune-related genes between the high-and low-risk score groups were significantly enriched in cancer-related pathways.CONCLUSION This study provided an AS-related prognostic model,potential mechanisms for AS,and alterations in the immune microenvironment(immune cells,genes,and pathways)for future research in STAD.展开更多
文摘Pancreatic cancer (PC) occurs when malignant cells develop in the part of the pancreas, a glandular organ behind the stomach. For 2015, there are about 40,560 people dead of pancreatic cancer (20,710 men and 19,850 women) in the US (Siegel et al., 2015). Though PC accounts for about 3% of all cancers in the US, it can cause about 7% of cancer deaths. This is mainly because that the early stages of this cancer do not usually produce symptoms, and thus the cancer is almost always fatal when it is diagnosed.
文摘Objective To investigate genes and involved biological processes closely associated with stem cell markers of colorectal cancer-epithelial cell adhesion molecule(EpCAM)+and CD44+.Methods By the bioinformatics method,with microarray data of colorectal cancer from gene expression omnibus(GEO)database and R2 platform,the genes significantly related with CD44 and Ep-
基金supported by the National Natural Science Foundation of China (Grant No. 31472021)the Project for Wildlife Conservation and Management of the National Forestry and Grassland Administration of China (Grant No. 2021-HN-001)the Wildlife Conservation Project of Hunan Province (Grant No. HNYB2019-001)
文摘Gut microbiota play important roles in the immunity,digestion,and energy meta bolism of their reptile hosts.Mangshan pit viper(Protobothrops mangshanensis)is a critically endangered snake species that is a Class I national protected species in China.Little is known regarding the relationship between P.mangshanensis and their gut microbial communities.In this study,the gut microbiota of wild P.mangshanensis individuals,artificially hiberna ting captive individuals,and non-hibernating captive individuals were compared across nine samples.Comparative shotgun metagenomic analysis was used to investigate the taxonomic composition,diversity,and function of P.mangshanensis gut microbial communities and assess whether their gut microbiomes were affected by their living environments and captivity conditions.The dominant phyla within P.mangshanensis gut microbial communities were Proteobacteria(65.55%),Bacteroidetes(15.97%),and Firmicutes(8.11%).Enriched functional pathways within the gut microbiota included meta bolism(54.9%),environmental information processing(9.67%),and genetic information processing(9.37%).Wild snake gut communities exhibited higher microbial diversity than the other two groups.The gut microbiomes of wild and hibernating captive snakes may be more reflective of healthy intestinal homeostasis than that in nonhibernating snakes.Specifically,non-hibernating snakes exhibited increased levelsof potentially pathogenic populations and functional specialization within gut microbial communities.Thus,different livingenvironments and captivitymethodsmay correspond to major shifts in microbiota composition,diversity,and function within P.mangshanensis.This study provides important insights to help guide the conservation of P.mangshanensis,while also carrying broad implications for our understanding of the effects of living environments and non-hibernating captivity conditions on the gut microbiota of snakes.
基金the National Clinical Key Specialty Construction Program of China and Grants from the National Science Foundation Project of the Fujian Science and Technology Department,No.2017J01264 and No.2018Y0015the Foundation for Fujian Provincial Health Technology Project,No.2019-ZQN-16,No.2019-CXB-9,and No.2019006the Startup Fund for Scientific Research,Fujian Medical University,No.2017Q1219 and No.2017Q1220.
文摘BACKGROUND Alternative splicing(AS)increases the diversity of mRNA during transcription;it might play a role in alteration of the immune microenvironment,which could influence the development of immunotherapeutic strategies against cancer.AIM To obtain the transcriptomic and clinical features and AS events in stomach adenocarcinoma(STAD)from the database.The overall survival data associated with AS events were used to construct a signature prognostic model for STAD.METHODS Differentially expressed immune-related genes were identified between subtypes on the basis of the prognostic model.In STAD,2042 overall-survival-related AS events were significantly enriched in various pathways and influenced several cellular functions.Furthermore,the network of splicing factors and overallsurvival-associated AS events indicated potential regulatory mechanisms underlying the AS events in STAD.RESULTS An eleven-AS-signature prognostic model(CD44|14986|ES,PPHLN1|21214|AT,RASSF4|11351|ES,KIAA1147|82046|AP,PPP2R5D|76200|ES,LOH12CR1|20507|ES,CDKN3|27569|AP,UBA52|48486|AD,CADPS|65499|AT,SRSF7|53276|RI,and WEE1|14328|AP)was constructed and significantly related to STAD overall survival,immune cells,and cancer-related pathways.The differentially expressed immune-related genes between the high-and low-risk score groups were significantly enriched in cancer-related pathways.CONCLUSION This study provided an AS-related prognostic model,potential mechanisms for AS,and alterations in the immune microenvironment(immune cells,genes,and pathways)for future research in STAD.
