Enterovirus D68(EV-D68)and enterovirus A71(EV-A71)are two major types of enteroviruses that pose emerging challenges to public health and have the potential to cause outbreaks,yet their pathogenic mechanisms remain la...Enterovirus D68(EV-D68)and enterovirus A71(EV-A71)are two major types of enteroviruses that pose emerging challenges to public health and have the potential to cause outbreaks,yet their pathogenic mechanisms remain largely unexplored.Arrestin domain containing 3(ARRDC3)is a vital regulator of glucose metabolism,cancer development,and inflammation.Whether ARRDC3 contributes to innate antiviral immunity is undefined.Here,we found that enterovirus infection induces ARRDC3 expression at both the mRNA and protein levels,thereby inhibiting enterovirus replication.Moreover,we demonstrate that the expression of Yes-associated protein(YAP),a key effector of the Hippo pathway,is severely downregulated by ARRDC3 via lysosomal pathway.YAP facilitates enterovirus replication by suppressing the interferon pathway during the later stage of enterovirus infection,independent of its transcriptional activity.Finally,the ARRDC3-YAP pathway exhibits a broad-spectrum antiviral effect in various viral infections,including those caused by human parainfluenza virus type 3(HPIV3)and vesicular stomatitis virus(VSV).Collectively,our results identify the critical role of ARRDC3 and its negative regulatory effect on YAP in the innate antiviral response,suggesting a novel therapeutic strategy against virus infection.展开更多
为确定人副流感病毒3型(Human parainfluenza virus type 3,hPIV3)病毒包膜表面血凝素神经氨酸酶(Hemagglutinin-neuraminidase,HN)糖蛋白茎部区十一肽重复序列中保守氨基酸中具有关键性作用的位点,进一步探讨HN蛋白茎部区在融合机制中...为确定人副流感病毒3型(Human parainfluenza virus type 3,hPIV3)病毒包膜表面血凝素神经氨酸酶(Hemagglutinin-neuraminidase,HN)糖蛋白茎部区十一肽重复序列中保守氨基酸中具有关键性作用的位点,进一步探讨HN蛋白茎部区在融合机制中的重要作用。结合定点突变和同源重组技术将HN蛋白茎部区十一肽重复序列中5个保守氨基酸位点(I102、P111、L114、S119、I125)突变为丙氨酸(Alanine,A),通过痘苗病毒-T7聚合酶系统在BHK-21细胞中表达突变蛋白,定性定量检测各突变体蛋白的促细胞融合活性、受体结合活性、神经氨酸酶活性和半融合活性。突变体蛋白I102A、P111A、L114A、S119A、I125A的促细胞融合活性均有不同程度下降,依次为野生型的6%、16%、14%、87%和4%,除S119A外其余4个突变型与野生型相比差别均具有统计学意义(P<0.01);突变体蛋白I102A、P111A、L114A、S119A、I125A的受体结合活性也出现不同程度下降,依次分别为野生型的32.2%、77.4%、74.2%、83.9%和38.7%,其中I102A和I125A的受体结合活性与野生型相比差别具有统计学意义(P<0.01);突变体蛋白I102A、P111A、L114A、S119A、I125A的神经氨酸酶活性分别为野生型的66.5%、73.1%、69.1%、76.1%和72.8%,与野生型相比差别无统计学意义(P>0.05)。结果表明:茎部区十一肽重复序列对hPIV3HN蛋白的促细胞融合活性和受体结合活性具有重要意义。该区域氨基酸I102、P111、L114、I125具有关键作用,推测其能通过影响头部区受体结合活性或是与融合蛋白的相互作用等不同方式导致HN蛋白结构功能发生改变。展开更多
Human parainfluenza virus type 3(HPIV3),a member of the Paramyxoviridae family,can cause lower respiratory disease in infants and young children.The phosphoprotein(P)of HPIV3 is an essential cofactor of the viral RNA-...Human parainfluenza virus type 3(HPIV3),a member of the Paramyxoviridae family,can cause lower respiratory disease in infants and young children.The phosphoprotein(P)of HPIV3 is an essential cofactor of the viral RNA-dependent RNA polymerase large protein(L).P connects nucleocapsid protein(N)with L to initiate genome transcription and replication.Sumoylation influences many important pathways of the target proteins,and many viral proteins are also themselves sumoylated.In this study,we found that the P of HPIV3 could be sumoylated,and mutation of K492 and K532 to arginine(PK492 R/K532 R)failed to be sumoylated within P,which enhances HPIV3 minigenome activity.Biochemical studies showed that PK492 R/K532 Rhad no effect on its interactions with N,formation of homo-tetramers and formation of inclusion bodies.Finally,we found that incorporation of K492 R/K532 R into a recombinant HPIV3(rHPIV3-PK492 R/K532 R)increased viral production in culture cells,suggesting that sumoylation attenuates functions of P and down-regulates viral replication.展开更多
基金supported by the National Natural Science Foundation of China(31600139)the Chongqing Science and Technology Bureau(cstc2016jcyjA0020+3 种基金CSTB2024NSCQ-KJFZMSX0067)the Yuzhong District Science and Technology Commission(20190123)the Chongqing Municipal Education Commission(KJQN202300415)the Project of Undergraduates Innovating Experiment,and the Project of Tutorial System of Excellent Medical Undergraduates in the Lab Teaching and Management Center of Chongqing Medical University(S202410631068,LTMCMTS202458,LTMCMTS202459,LTMCMTS202460 and LTMCMTS202461).
文摘Enterovirus D68(EV-D68)and enterovirus A71(EV-A71)are two major types of enteroviruses that pose emerging challenges to public health and have the potential to cause outbreaks,yet their pathogenic mechanisms remain largely unexplored.Arrestin domain containing 3(ARRDC3)is a vital regulator of glucose metabolism,cancer development,and inflammation.Whether ARRDC3 contributes to innate antiviral immunity is undefined.Here,we found that enterovirus infection induces ARRDC3 expression at both the mRNA and protein levels,thereby inhibiting enterovirus replication.Moreover,we demonstrate that the expression of Yes-associated protein(YAP),a key effector of the Hippo pathway,is severely downregulated by ARRDC3 via lysosomal pathway.YAP facilitates enterovirus replication by suppressing the interferon pathway during the later stage of enterovirus infection,independent of its transcriptional activity.Finally,the ARRDC3-YAP pathway exhibits a broad-spectrum antiviral effect in various viral infections,including those caused by human parainfluenza virus type 3(HPIV3)and vesicular stomatitis virus(VSV).Collectively,our results identify the critical role of ARRDC3 and its negative regulatory effect on YAP in the innate antiviral response,suggesting a novel therapeutic strategy against virus infection.
文摘为确定人副流感病毒3型(Human parainfluenza virus type 3,hPIV3)病毒包膜表面血凝素神经氨酸酶(Hemagglutinin-neuraminidase,HN)糖蛋白茎部区十一肽重复序列中保守氨基酸中具有关键性作用的位点,进一步探讨HN蛋白茎部区在融合机制中的重要作用。结合定点突变和同源重组技术将HN蛋白茎部区十一肽重复序列中5个保守氨基酸位点(I102、P111、L114、S119、I125)突变为丙氨酸(Alanine,A),通过痘苗病毒-T7聚合酶系统在BHK-21细胞中表达突变蛋白,定性定量检测各突变体蛋白的促细胞融合活性、受体结合活性、神经氨酸酶活性和半融合活性。突变体蛋白I102A、P111A、L114A、S119A、I125A的促细胞融合活性均有不同程度下降,依次为野生型的6%、16%、14%、87%和4%,除S119A外其余4个突变型与野生型相比差别均具有统计学意义(P<0.01);突变体蛋白I102A、P111A、L114A、S119A、I125A的受体结合活性也出现不同程度下降,依次分别为野生型的32.2%、77.4%、74.2%、83.9%和38.7%,其中I102A和I125A的受体结合活性与野生型相比差别具有统计学意义(P<0.01);突变体蛋白I102A、P111A、L114A、S119A、I125A的神经氨酸酶活性分别为野生型的66.5%、73.1%、69.1%、76.1%和72.8%,与野生型相比差别无统计学意义(P>0.05)。结果表明:茎部区十一肽重复序列对hPIV3HN蛋白的促细胞融合活性和受体结合活性具有重要意义。该区域氨基酸I102、P111、L114、I125具有关键作用,推测其能通过影响头部区受体结合活性或是与融合蛋白的相互作用等不同方式导致HN蛋白结构功能发生改变。
基金supported by grants from National Key R&D Program of China(2017YFA0505801)the National Natural Science Foundation of China(81825015,81871650 and 31630086)+2 种基金National Science and Technology Major Project(2018ZX10101004)the Natural Science Foundation of Hubei Province Innovation Group(2017CFA022)Advanced Customer Cultivation Project of Wuhan National Biosafety Laboratory(2019ACCP-MS06)。
文摘Human parainfluenza virus type 3(HPIV3),a member of the Paramyxoviridae family,can cause lower respiratory disease in infants and young children.The phosphoprotein(P)of HPIV3 is an essential cofactor of the viral RNA-dependent RNA polymerase large protein(L).P connects nucleocapsid protein(N)with L to initiate genome transcription and replication.Sumoylation influences many important pathways of the target proteins,and many viral proteins are also themselves sumoylated.In this study,we found that the P of HPIV3 could be sumoylated,and mutation of K492 and K532 to arginine(PK492 R/K532 R)failed to be sumoylated within P,which enhances HPIV3 minigenome activity.Biochemical studies showed that PK492 R/K532 Rhad no effect on its interactions with N,formation of homo-tetramers and formation of inclusion bodies.Finally,we found that incorporation of K492 R/K532 R into a recombinant HPIV3(rHPIV3-PK492 R/K532 R)increased viral production in culture cells,suggesting that sumoylation attenuates functions of P and down-regulates viral replication.
