期刊,中国病毒学 2023年卷5期_国家学术搜索

期刊信息/Journal information

中国病毒学

主　　编：陈新文

出版周期：双月刊

国际刊号：1674-0769

电子邮箱：bjb@wh.iov.cn

电　　话：027-87199157

邮政编码：430071

地　　址：武汉武昌区小洪山中区44号

中国病毒学/Journal Virologica SinicaCSCD北大核心CSTPCDSCI

查看更多>>本刊由中国科学院武汉病毒研究所、中国微生物学会共同主办、科学出版社出版的学术性双月刊，创刊于1986年，原名为《病毒学杂志》(Virologica　Sinica)，季刊。1991年更名为《中国病毒学》，外文刊名不变，2003年改为双月刊，自创刊以来，发表病毒学研究论文1000多篇，发表论文基金率为65%以上。曾三次荣获湖北省优秀期刊奖，被评为中国生物学核心期刊、基础医学类核心期刊和中国科学引文数据库核心期刊。长期被BA（生物学文摘）、CA（化学文摘）和中国生物学文摘、医学文摘、农业学文摘等国内外20余种文摘及检索刊物收录，为国家科技部信息所“万方数据（ChinaInfo）系统”、清华大学“中国学术期刊光盘版”和“中国期刊网”的期刊源。是CSCI　(中国科学引文索引)、中国生物学和医学期刊的核心期刊。影响因子为0.553　(2003年统计数据)

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nterovirus D68 infection upregulates SOCS3 expression to inhibit JAK-STAT3 signaling and antagonize the innate interferon response of the host

Yuling ZhangLeling XuZhe ZhangXin Su...

755-766页

查看更多>>摘要：Enterovirus D68(EV-D68)can cause respiratory diseases and acute flaccid paralysis,posing a great threat to public health.Interferons are cytokines secreted by host cells that have broad-spectrum antiviral effects,inducing the expression of hundreds of interferon-stimulated genes(ISGs).EV-D68 activates ISG expression early in infection,but at a later stage,the virus suppresses ISG expression,a strategy evolved by EV-D68 to antagonize interferons.Here,we explore a host protein,suppressor of cytokine signaling 3(SOCS3),is upregulated during EV-D68 infection and antagonizes the antiviral effects of type Ⅰ interferon.We subsequently demonstrate that the structural protein of EV-D68 upregulated the expression of RFX7,a transcriptional regulator of SOCS3,leading to the upregulation of SOCS3 expression.Further exploration revealed that SOCS3 plays its role by inhibiting the phosphorylation of signal transducer and activator of transcription 3(STAT3).The expression of SOCS3 inhibited the expression of ISG,thereby inhibiting the antiviral effect of type Ⅰ interferon and promoting EV-D68 tran-scription,protein production,and viral titer.Notably,a truncated SOCS3,generated by deleting the kinase inhibitory region(KIR)domain,failed to promote replication and translation of EV-D68.Based on the above studies,we designed a short peptide named SOCS3 inhibitor,which can specifically bind and inhibit the KIR structural domain of SOCS3,significantly reducing the RNA and protein levels of EV-D68.In summary,our results demonstrated a novel mechanism by which EV-D68 inhibits ISG transcription and antagonizes the antiviral re-sponses of host type Ⅰ interferon.

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Development of a novel virus-like particle-based vaccine for preventing tick-borne encephalitis virus infection

Jielin TangMuqing FuChonghui XuBao Xue...

767-777页

查看更多>>摘要：Tick-borne encephalitis virus(TBEV)is an important tick-borne pathogen that poses as a serious public health concern.The coverage and immunogenicity of the currently available vaccines against TBEV are relatively low;therefore,it is crucial to develop novel and effective vaccines against TBEV.The present study describes a novel strategy for the assembly of virus-like particles(VLPs)by co-expressing the structural(core/prM/E)and non-structural(NS2B/NS3Pro)proteins of TBEV.The efficacy of the VLPs was subsequently evaluated in C57BL/6 mice,and the resultant IgG serum could neutralize both Far-Eastern and European subtypes of TBEV.These findings indicated that the VLP-based vaccine elicited the production of cross-subtype reactive antibodies.The VLPs pro-vided protection to mice lacking the type Ⅰ interferon receptor(IFNAR-/-)against lethal TBEV challenge,with undetectable viral load in brain and intestinal tissues.Furthermore,the group that received the VLP vaccine did not exhibit significant pathological changes and the inflammatory factors were significantly suppressed compared to the control group.Immunization with the VLP vaccine induced the production of multiple-cytokine-producing antiviral CD4+T cells in vivo,including TNF-α+,IL-2+,and IFN- γ+T cells.Altogether,the findings suggest that noninfectious VLPs can serve as a potentially safe and effective vaccine candidate against diverse subtypes of TBEV.

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Identification of a receptor tyrosine kinase inhibitor CP-724714 inhibits SADS-CoV related swine diarrhea coronaviruses infection in vitro

Ling ZhouCheng LiRuiyu ZhangQianniu Li...

778-786页

查看更多>>摘要：The outbreak of the COVID-19 epidemic in 2020 has caused unprecedented panic among all mankind,pointing the major importance of effective treatment.Since the emergence of the swine acute diarrhea syndrome coronavirus(SADS-CoV)at the end of 2017,multiple reports have indicated that the bat-related SADS-CoV possesses a potential threat for cross-species transmission.Vaccines and antiviral drugs development deserve more attention.In this study,we found that the HER2 phosphorylation inhibitor(CP-724714)inhibited SADS-CoV infection in a dose-dependent manner.Further validation demonstrated that CP-724714 affected at the post-entry stage of SADS-CoV infection cycle.Also,efficient SADS-CoV infection required the activation of HER2 and its cascade Ras-Raf-Mek-Erk signaling pathway.In addition,CP-724714 has a broad-spectrum anti-swine diarrhea coronaviruses activity,and can dose-dependently combat SADS-CoV,porcine epidemic diarrhea virus(PEDV),porcine deltacoronavirus(PDCoV)and transmissible gastroenteritis virus(TGEV)infection in vitro with a specificity index of greater than 21.98,9.38,95.23 and 31.62,respectively.These results highlight the potential utility of CP-724714 or antiviral drugs targeting with HER2 and its cascade Ras-Raf-Mek-Erk signaling pathway as host-targeted SADS-CoV and other related coronaviruses therapeutics.

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Nanobodies with cross-neutralizing activity provide prominent therapeutic efficacy in mild and severe COVID-19 rodent models

Qiuxue HanShen WangZhenshan WangCheng Zhang...

787-800页

查看更多>>摘要：The weakened protective efficacy of COVID-19 vaccines and antibodies caused by SARS-CoV-2 variants presents a global health emergency,which underscores the urgent need for universal therapeutic antibody intervention for clinical patients.Here,we screened three alpacas-derived nanobodies(Nbs)with neutralizing activity from twenty RBD-specific Nbs.The three Nbs were fused with the Fc domain of human IgG,namely aVHH-11-Fc,aVHH-13-Fc and aVHH-14-Fc,which could specifically bind RBD protein and competitively inhibit the binding of ACE2 receptor to RBD.They effectively neutralized SARS-CoV-2 pseudoviruses D614G,Alpha,Beta,Gamma,Delta,and Omicron sub-lineages BA.1,BA.2,BA.4,and BA.5 and authentic SARS-CoV-2 prototype,Delta,and Omicron BA.1,BA.2 strains.In mice-adapted COVID-19 severe model,intranasal administration of aVHH-11-Fc,aVHH-13-Fc and aVHH-14-Fc effectively protected mice from lethal challenges and reduced viral loads in both the upper and lower respiratory tracts.In the COVID-19 mild model,aVHH-13-Fc,which represents the optimal neutralizing activity among the above three Nbs,effectively protected hamsters from the challenge of SARS-CoV-2 prototype,Delta,Omicron BA.1 and BA.2 by significantly reducing viral replication and pathological alterations in the lungs.In structural modeling of aVHH-13 and RBD,aVHH-13 binds to the receptor-binding motif region of RBD and interacts with some highly conserved epitopes.Taken together,our study illustrated that alpaca-derived Nbs offered a therapeutic countermeasure against SARS-CoV-2,including those Delta and Omicron variants which have evolved into global pandemic strains.

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Characterization of bacteriophage BUCT631 lytic for K1 Klebsiella pneumoniae and its therapeutic efficacy in Galleria mellonella larvae

Pengjun HanMingfang PuYahao LiHuahao Fan...

801-812页

查看更多>>摘要：Severe infections caused by multidrug-resistant Klebsiella pneumoniae(K.pneumoniae)highlight the need for new therapeutics with activity against this pathogen.Phage therapy is an alternative treatment approach for multidrug-resistant K.pneumoniae infections.Here,we report a novel bacteriophage(phage)BUCT631 that can specifically lyse capsule-type K1 K.pneumoniae.Physiological characterization revealed that phage BUCT631 could rapidly adsorb to the surface of K.pneumoniae and form an obvious halo ring,and it had relatively favorable thermal stability(4-50 ℃)and pH tolerance(pH=4-12).In addition,the optimal multiplicity of infection(MOI)of phage BUCT631 was 0.01,and the burst size was approximately 303 PFU/cell.Genomic analysis showed that phage BUCT631 has double-stranded DNA(total length of 44,812 bp)with a G+C content of 54.1％,and the genome contains 57 open reading frames(ORFs)and no virulence or antibiotic resistance related genes.Based on phylogenetic analysis,phage BUCT631 could be assigned to a new species in the genus Drulisvirus of the subfamily Slopekvirinae.In addition,phage BUCT631 could quickly inhibit the growth of K.pneumoniae within 2 h in vitro and significantly elevated the survival rate of K.pneumoniae infected Galleria mellonella larvae from 10％to 90％in vivo.These studies suggest that phage BUCT631 has promising potential for development as a safe alternative for control and treatment of multidrug-resistant K.pneumoniae infection.

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Genomic similarity and antibody-dependent enhancement of immune serum potentially affect the protective efficacy of commercial MLV vaccines against NADC30-like PRRSV

Yang LiLele XuDian JiaoZifang Zheng...

813-826页

查看更多>>摘要：Porcine reproductive and respiratory syndrome(PRRS)is one of the most significant diseases affecting the pig industry worldwide.The PRRSV mutation rate is the highest among the RNA viruses.To date,NADC30-like PRRSV and highly pathogenic PRRSV(HP-PRRSV)are the dominant epidemic strains in China;however,com-mercial vaccines do not always provide sufficient cross-protection,and the reasons for insufficient protection are unclear.This study isolated a wild-type NADC30-like PRRSV,SX-YL1806,from Shaanxi Province.Vaccination challenge experiments in piglets showed that commercial modified live virus(MLV)vaccines provided good protection against HP-PRRSV.However,it could not provide sufficient protection against the novel strain SX-YL1806.To explore the reasons for this phenomenon,we compared the genomic homology between the MLV strain and HP-PRRSV or NADC30-like PRRSV and found that the MLV strain had a lower genome similarity with NADC30-like PRRSV.Serum neutralization assay showed that MLV-immune serum slightly promoted the ho-mologous HP-PRRSV replication and significantly promoted the heterologous NADC30-like PRRSV strain repli-cation in vitro,suggesting that antibody-dependent enhancement(ADE)might also play a role in decreasing MLV protective efficacy.These findings expand our understanding of the potential factors affecting the protective effect of PRRSV MLV vaccines against the NADC30-like strains.

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Comparative study of the pathogenicity of the mosquito origin strain and duck origin strain of Tembusu virus in ducklings and three-week-old mice

Xiaoli WangYu HeJiaqi GuoZhen Wu...

827-831页

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Natural circulation of tick-borne severe fever with thrombocytopenia syndrome virus in the city ecosystem,China

Xing ZhangChaoyue ZhaoXiaoxi SiQiang Hu...

832-835页

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