目的分析2013-2017年中国人感染H7N9禽流感病毒者死亡的相关风险因素。方法通过"万方数据库"、"中国知网(China National Knowledge Infrastructure,CNKI)"、"维普资讯网"进行检索,收集2013-2017年公开...目的分析2013-2017年中国人感染H7N9禽流感病毒者死亡的相关风险因素。方法通过"万方数据库"、"中国知网(China National Knowledge Infrastructure,CNKI)"、"维普资讯网"进行检索,收集2013-2017年公开发表的关于H7N9禽流感病例流行病学特征的文献,应用Review Manager 5.0软件对死亡病例的流行病学特征进行Meta分析。结果纳入符合标准的文献20篇,Meta分析结果显示,与女性相比,男性感染H7N9死亡的可能性更高,OR(95%CI)=1.57(1.09~26.00);与其他年份相比,2015年人感染H7N9死亡的可能性更高,OR(95%CI)=2.02(1.23~3.31);与≥60岁组相比,0~14岁和15~59岁组死亡的可能性更低,OR(95%CI)值分别为0.14(0.04~0.52)和0.50(0.29~0.84);与无明确禽类接触史者相比,有接触史者死亡的可能性更高,OR(95%CI)=1.88(1.02~3.45);与无慢性病史者相比,有慢性病史者死亡的可能性更高,OR(95%CI)=8.63(1.44~51.7)。结论年龄、活禽市场暴露、有慢性基础疾病史是H7N9感染死亡的相关风险因素。展开更多
Viral microRNAs are one component of the RNA interference phenomenon generated during viral infection. They were first identified in the Herpesviridae family, where they were found to regulate viral mRNA translation. ...Viral microRNAs are one component of the RNA interference phenomenon generated during viral infection. They were first identified in the Herpesviridae family, where they were found to regulate viral mRNA translation. In addition, prior work has suggested that Kaposi's sarcoma-associated herpesvirus (KSHV) is capable of regulating cellular gene transcription by miRNA. We demonstrate that a miRNA, hsvl-mir-H27, encoded within the genome of herpes simplex virus 1 (HSV-1), targets the mRNA of the cellular transcriptional repressor Kelch-like 24 (KLHL24) that inhibits transcriptional efficiency of viral imme- diate-early and early genes. The viral miRNA is able to block the expression of KLHL24 in cells infected by HSV-1. Our dis- covery reveals an effective viral strategy for evading host cell defenses and supporting the efficient replication and prolifera- tion of HSV- 1.展开更多
Coxsackie A virus is one of the major pathogens associated with hand, foot and mouth disease (HFMD). The etiological characteristics of Coxsackie A virus type 16 (CA16) are thought to correlate with the pathological p...Coxsackie A virus is one of the major pathogens associated with hand, foot and mouth disease (HFMD). The etiological characteristics of Coxsackie A virus type 16 (CA16) are thought to correlate with the pathological process of its infection. Two CA16 strains that were isolated from a severe HFMD patient presented with different plaque forms. This observation, along with biological analysis, indicated that the differences in the strains' biological characteristics, such as proliferation kinetics and immunogenicity, correlate with differences in their pathogenicity toward neonatal mice. Furthermore, these differences are thought to be associated with the sequence of the 5′ non-coding region of the viral genome and the VP1 structural region sequence. The results suggest that the biological and genetic characteristics of the CA16 viral strains are relevant to their pathogenicity.展开更多
The protein encoded by HSRG1(HSV-1 stimulation-related gene 1) is a virally induced protein expressed in HSV-1-infected cells.We have already reported that HSRG1 is capable of interacting with transcriptional regulato...The protein encoded by HSRG1(HSV-1 stimulation-related gene 1) is a virally induced protein expressed in HSV-1-infected cells.We have already reported that HSRG1 is capable of interacting with transcriptional regulator proteins.To further analyze the effects of HSRG1 on the regulation of viral gene transcription,we expressed the HSRG1 protein in transfected cells and found that it postpones the proliferation of HSV-1.CAT(chloramphenicol acetyltransferase) assays also revealed that HSRG1 reduces transcription from HSV-1 promoters.Yeast two-hybrid and immunoprecipitation assays indicated that HSRG1 interacts with Cyclin T2,the regulatory subunit of P-TEFb,which is required for transcription elongation by RNA Pol II(RNAP II) ,and that amino acid residues 1-420 in Cyclin T2 are important for binding with HSRG1.Fluorescence assays suggested that the cellular localizations of those two proteins are influenced by their interaction.Further analyses with CAT assays revealed that HSRG1 inhibits the transcriptional activation by Cyclin T2 of viral promoters.Our results suggested that the inhibitory effects of HSRG1 on viral replication and proliferation are probably induced by its binding to Cyclin T2.Therefore,it is likely that HSRG1 inhibits viral gene transcriptional elongation by interacting with Cyclin T2.展开更多
Studies of herpes simplex virus type 1 (HSV-1) infection have shown that many known and unknown cellular molecules in- volved in viral proliferation are up-regulated following HSV-1 infection. In this study, using t...Studies of herpes simplex virus type 1 (HSV-1) infection have shown that many known and unknown cellular molecules in- volved in viral proliferation are up-regulated following HSV-1 infection. In this study, using two-dimensional polyacrylamide gel electrophoresis, we found that the expression of the HSV-1 infection response repressive protein (HIRRP, GI 16552881) was up-regulated in human L02 cells infected with HSV-1. HIRRP, an unknown protein, was initially localized in the cytoplasm and then translocated into the nucleus of HSV-l-infected cells. Further analysis showed that HIRRP represses HSV-1 proliferation by inhibiting transcription of the viral genome by interacting with the cellular transcription factor, ATFS, via its N-terminal domain. ATF5 represses the transcription of many host genes but can also act as an activator of genes containing a specific motif. We found that ATF5 promotes the proliferation of HSV-1 via a potential mechanism by which ATF5 enhances the transcription of viral genes during the course of an HSV-1 infection; HIRRP then induces feedback repression of this tran- scription by interacting with ATFS.展开更多
基金supported by the National Natural Science Foundation of China (30670094, 30700028)National Basic Research Program of China (2012CB518901, 2011CB504903)
文摘Viral microRNAs are one component of the RNA interference phenomenon generated during viral infection. They were first identified in the Herpesviridae family, where they were found to regulate viral mRNA translation. In addition, prior work has suggested that Kaposi's sarcoma-associated herpesvirus (KSHV) is capable of regulating cellular gene transcription by miRNA. We demonstrate that a miRNA, hsvl-mir-H27, encoded within the genome of herpes simplex virus 1 (HSV-1), targets the mRNA of the cellular transcriptional repressor Kelch-like 24 (KLHL24) that inhibits transcriptional efficiency of viral imme- diate-early and early genes. The viral miRNA is able to block the expression of KLHL24 in cells infected by HSV-1. Our dis- covery reveals an effective viral strategy for evading host cell defenses and supporting the efficient replication and prolifera- tion of HSV- 1.
基金supported by the National Basic Research Program of China (Grant No. 2011CB504903)the National Natural Science Foundation of China (Grant No. 81171573)+1 种基金the Important National Science & Technology Specific Projects (Grant No. 2009ZX10004-308)the General Program of Applied Basic Research Programs Commission, Foundation of Yunnan Province (Grant No. 2011FB116)
文摘Coxsackie A virus is one of the major pathogens associated with hand, foot and mouth disease (HFMD). The etiological characteristics of Coxsackie A virus type 16 (CA16) are thought to correlate with the pathological process of its infection. Two CA16 strains that were isolated from a severe HFMD patient presented with different plaque forms. This observation, along with biological analysis, indicated that the differences in the strains' biological characteristics, such as proliferation kinetics and immunogenicity, correlate with differences in their pathogenicity toward neonatal mice. Furthermore, these differences are thought to be associated with the sequence of the 5′ non-coding region of the viral genome and the VP1 structural region sequence. The results suggest that the biological and genetic characteristics of the CA16 viral strains are relevant to their pathogenicity.
基金supported by the National Natural Science Foundation of China(Grant Nos.30700028,30670094)the Doctoral Fund of Ministry of Education of China(Grant No.0060023008)
文摘The protein encoded by HSRG1(HSV-1 stimulation-related gene 1) is a virally induced protein expressed in HSV-1-infected cells.We have already reported that HSRG1 is capable of interacting with transcriptional regulator proteins.To further analyze the effects of HSRG1 on the regulation of viral gene transcription,we expressed the HSRG1 protein in transfected cells and found that it postpones the proliferation of HSV-1.CAT(chloramphenicol acetyltransferase) assays also revealed that HSRG1 reduces transcription from HSV-1 promoters.Yeast two-hybrid and immunoprecipitation assays indicated that HSRG1 interacts with Cyclin T2,the regulatory subunit of P-TEFb,which is required for transcription elongation by RNA Pol II(RNAP II) ,and that amino acid residues 1-420 in Cyclin T2 are important for binding with HSRG1.Fluorescence assays suggested that the cellular localizations of those two proteins are influenced by their interaction.Further analyses with CAT assays revealed that HSRG1 inhibits the transcriptional activation by Cyclin T2 of viral promoters.Our results suggested that the inhibitory effects of HSRG1 on viral replication and proliferation are probably induced by its binding to Cyclin T2.Therefore,it is likely that HSRG1 inhibits viral gene transcriptional elongation by interacting with Cyclin T2.
基金supported by the National Basic Research Program of China(2012CB518901)the National Natural Science Foundation of China(31100127)
文摘Studies of herpes simplex virus type 1 (HSV-1) infection have shown that many known and unknown cellular molecules in- volved in viral proliferation are up-regulated following HSV-1 infection. In this study, using two-dimensional polyacrylamide gel electrophoresis, we found that the expression of the HSV-1 infection response repressive protein (HIRRP, GI 16552881) was up-regulated in human L02 cells infected with HSV-1. HIRRP, an unknown protein, was initially localized in the cytoplasm and then translocated into the nucleus of HSV-l-infected cells. Further analysis showed that HIRRP represses HSV-1 proliferation by inhibiting transcription of the viral genome by interacting with the cellular transcription factor, ATFS, via its N-terminal domain. ATF5 represses the transcription of many host genes but can also act as an activator of genes containing a specific motif. We found that ATF5 promotes the proliferation of HSV-1 via a potential mechanism by which ATF5 enhances the transcription of viral genes during the course of an HSV-1 infection; HIRRP then induces feedback repression of this tran- scription by interacting with ATFS.
