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犬细小病毒病(Canine parvovirus disease, CPVD)是由犬细小病毒(Canine parvovirus, CPV)引起的一种犬(Canis lupus familiaris)的急性、烈性、高致死性传染病。该病虽有疫苗进行防控,但仍有免疫失败的案例被报道。CPV的致病机制及宿主的防御机理还未完全阐明。尽管单个基因、蛋白和通路的研究是阐明各种机理的必需研究内容,但各种组学研究也为病毒病相关研究提供了重要的补充和新的理解视角。本文综述了近年来利用各种组学在CPVD相关研究中的进展以及所揭示的机制,以便更系统地从组学角度理解CPV与宿主之间的互作机制,探索更多可用于CPVD研究的组学方法,为CPVD的病理、防御、治疗等研究提供参考。
Abstract:Canine parvovirus disease(CPVD) is an acute, potent, highly lethal infectious disease in Canis lupus familiaris caused by Canine parvovirus(CPV). Although it is mainly prevented by vaccination, cases of vaccination failure have still been reported. The pathogenic mechanism of CPV and the defense mechanism of the host have not been fully elucidated. Although research studies of single gene, protein and pathway are necessary for clarifying the multiple mechanisms, omics approaches also provide important supplements, as well as new perspectives to the investigation of viral diseases. This article reviews the advances in various omics researches used in CPVD and the mechanisms revealed in recent years, in order to systematically understand the interplay between CPV and host from omics perspective, explore more possibilities of using omics methods in CPVD research, and provide references for the research on the pathology, defense, and treatment of CPVD.
王牧川,2018.牦牛呼吸道病毒的鉴定及牦牛源CPV-2的分子特征研究,硕士学位论文.成都:西南民族大学.(WANG M C,2018.Identification of yak respiratory virus and molecular characteristics of yak CPV-2,Thesis for M.S.Chengdu:Southwest Minzu University.)
伊淑帅,2019.东北地区宠物猫肠道病毒组学分析及腹泻相关病毒的分子检测与进化研究,博士学位论文.长春:吉林农业大学.(YI S S,2019.Viral metegenomic analysis of feline fecal virome and molecular detection and evolution analysis of feline diarrhea-associated viruses in northeastern China,Dissertation for Ph.D.Changchun:Jilin Agricultural University.)
ARORA R,MALLA W A,TYAGI A,et al.,2024.Transcriptome profiling of Canine parvovirus 2 nonstructural gene 1(CPV2.NS1) transfected 4T1 mice mammary tumor cells to elucidate its oncolytic effects.Int.J.Biol.Macromol.,281(Pt 4):136620.
BHATTA T R,CHAMINGS A,VIBIN J,et al.,2019.Detection and characterisation of Canine astrovirus,Canine parvovirus and Canine papillomavirus in puppies using next generation sequencing.Sci.Rep.,9:4602.
BOJAGORA A,SARIDAKIS V,2020.USP7 manipulation by viral proteins.Virus Res.,286:198076.
BONAGURO L,SCHULTE-SCHREPPING J,ULAS T,et al.,2022.A guide to systems-level immunomics.Nat.Immunol.,23(10):1412-1423.
BOROS á,ALBERT M,URBáN P,et al.,2022.Unusual “Asian-origin” 2c to 2b point mutant Canine parvovirus (Parvoviridae) and Canine astrovirus (Astroviridae) co-infection detected in vaccinated dogs with an outbreak of severe haemorrhagic gastroenteritis with high mortality rate in Hungary.Vet.Res.Commun.,46(4):1355-1361.
CHELBI-ALIX M K,THIBAULT P,2021.Crosstalk between SUMO and ubiquitin-like proteins:implication for antiviral defense.Front.Cell Dev.Biol.,9:671067.
CHUAMMITRI P,VANNAMAHAXAY S,SORNPET B,et al.,2020.Detection and characterization of microRNA expression profiling and its target genes in response to Canine parvovirus in Crandell Reese Feline Kidney cells.PeerJ,8:e8522.
DAI X F,ZHANG X H,MIAO Y J,et al.,2020.Canine parvovirus induces G1/S cell cycle arrest that involves EGFR Tyr1086 phosphorylation.Virulence,11(1):1203-1214.
DAMGAARD R B,2021.The ubiquitin system:from cell signalling to disease biology and new therapeutic opportunities.Cell Death Differ.,28(2):423-426.
DECARO N,BUONAVOGLIA C,BARRS V R,2020.Canine parvovirus vaccination and immunisation failures:are we far from disease eradication?.Vet.Microbiol.,247:108760.
FAN X X,GAO Y,SHU L,et al.,2016.Transcriptome profiling indicating Canine parvovirus type 2a as a potential immune activator.Virus Genes,52(6):768-779.
FRANCO-MARTíNEZ L,TVARIJONAVICIUTE A,HORVATI■.Changes in salivary analytes in Canine parvovirus:a high-resolution quantitative proteomic study.Comp.Immunol.Microbiol.Infect.Dis.,60:1-10.
FRANZO G,TUCCIARONE C M,CECCHINATO M,et al.,2017.Canine parvovirus type 2 (CPV-2) and Feline panleukopenia virus (FPV) codon bias analysis reveals a progressive adaptation to the new niche after the host jump.Mol.Phylogenet.Evol.,114:82-92.
GAO J,ZHANG C T,WHEELOCK ? M,et al.,2024.Immunomics in one health:understanding the human,animal,and environmental aspects of COVID-19.Front.Immunol.,15:1450380.
GARNSEY M R,ROBINSON M C,NGUYEN L T,et al.,2024.Discovery of SARS-CoV-2 papain-like protease (PLpro) inhibitors with efficacy in a murine infection model.Sci.Adv.,10(35):eado4288.
GUARD B C,BARR J W,REDDIVARI L,et al.,2015.Characterization of microbial dysbiosis and metabolomic changes in dogs with acute diarrhea.PLoS ONE,10(5):e0127259.
HAJYASIEN A,2024.Introduction to multiomics technology.Cham:Springer International Publishing:1-11.
MATTOLA S,AHO V,BUSTAMANTE-JARAMILLO L F,et al.,2022a.Nuclear entry and egress of parvoviruses.Mol.Microbiol.,118(4):295-308.
MATTOLA S,SALOKAS K,AHO V,et al.,2022b.Parvovirus nonstructural protein 2 interacts with chromatin-regulating cellular proteins.PLoS Pathog.,18(4):e1010353.
MENDOZA-SALAZAR I,FRAGOZO A,GONZáLEZ-MARTíNEZ A P,et al.,2024.Almost 50 years of monomeric extracellular ubiquitin (eUb).Pharmaceuticals,17(2):185.
MIAO B C,CHEN S B,ZHANG X Z,et al.,2022.T598 and T601 phosphorylation sites of Canine parvovirus NS1 are crucial for viral replication and pathogenicity.Vet.Microbiol.,264:109301.
MU?OZ A I,VALLEJO-CASTILLO L,FRAGOZO A,et al.,2021.Increased survival in puppies affected by Canine parvovirus type Ⅱ using an immunomodulator as a therapeutic aid.Sci.Rep.,11:19864.
NEYESTANI N,MADANI K,SHIRANI D,et al.,2024.Involvement of Canine parvovirus in mRNA expression levels of key lectins and caspases in blood leukocytes.Vet.Res.Commun.,49(1):12.
NYKKY J,VUENTO M,GILBERT L,2014.Role of mitochondria in parvovirus pathology.PLoS ONE,9(1):e86124.
PEREIRA G Q,GOMES L A,SANTOS I S,et al.,2018.Fecal microbiota transplantation in puppies with Canine parvovirus infection.J.Vet.Intern.Med.,32(2):707-711.
PILLA R,SUCHODOLSKI J S,2020.The role of the canine gut microbiome and metabolome in health and gastrointestinal disease.Front.Vet.Sci.,6:498.
RAVI A,EREQAT S,AL-JAWABREH A,et al.,2019.Metagenomic profiling of ticks:identification of novel rickettsial genomes and detection of tick-borne Canine parvovirus.PLoS Negl.Trop.Dis.,13(1):e0006805.
ROUX S,MATTHIJNSSENS J,DUTILH B E,2021.Metagenomics in virology//Encyclopedia of Virology.Amsterdam:Elsevier:133-140.
RUIZ ROMERO J D J,2024.Gut microbes and serum metabolomics in canine with diabetes mellitus,Thesis for M.S.Urbana-Champaign:University of Illinois.
SARABANDI S,POURTAGHI H,2023.Whole genome sequence analysis of CPV-2 isolates from 1998 to 2020.Virol.J.,20(1):138.
SHAHBAZI ASIL M,ZARIFIAN N,VALAFAR A,et al.,2023.Noticeable immune dysregulation-and-suppression in parvovirus affected dogs.Vet.Immunol.Immunopathol.,265:110663.
SMOLANDER H,2007.Nuclear reorganization and dynamics during Canine parvovirus infection,Thesis for M.S.Yliopi-sto:University of Jyv?skyl?.
SPARRER K M J,BERGERON é,GUPTA S,2023.Editorial:Ubiquitin and ubiquitin-like modifications in viral infection and innate immunity.Front.Immunol.,14:1148296.
SU X,ZHOU H Z,HAN Z W,et al.,2024.Transcriptional differential analysis of nitazoxanide-mediated anticanine parvovirus effect in F81 cells.Viruses,16(2):282.
SUNDAR PANJA A,2024.The systematic Codon usage bias has an important effect on genetic adaption in native species.Gene,926:148627.
TAN B,ZHANG X M,ANSARI A,et al.,2024.Design of a SARS-CoV-2 papain-like protease inhibitor with antiviral efficacy in a mouse model.Science,383(6690):1434-1440.
TEMEEYASEN G,SHARAFELDIN T A,LIN C M,et al.,2022.Spillover of Canine parvovirus type 2 to pigs,South Dakota,USA,2020.Emerg.Infect.Dis.,28(2):471-473.
VELEZ-BROCHERO M,BEHERA P,AFREEN K S,et al.,2024.Ubiquitination in viral entry and replication:mechanisms and implications.Adv.Virus Res.,119:1-38.
VERE G,ALAM M R,FARRAR S,et al.,2022.Targeting the ubiquitylation and ISGylation machinery for the treatment of COVID-19.Biomolecules,12(2):300.
WANG B,WANG X L,2019.Species diversity of fecal micro-bial flora in Canis lupus familiaris infected with canine parvovirus.Vet.Microbiol.,237:108390.
WANG H Y,LI Z J,LI C F,et al.,2023.Viral metagenomic analysis of the fecal samples in domestic dogs (Canis lupus familiaris).Viruses,15(3):685.
WANG K,LU Y,LI H B,et al.,2024.Role of long non-coding RNAs in metabolic reprogramming of gastrointestinal cancer cells.Cancer Cell Int.,24(1):15.
WANG X R,HAO X Q,ZHAO Y N,et al.,2025.Canine parvovirus NS1 induces host translation shutoff by reducing mTOR phosphorylation.J.Virol.,99(1):e0146324.
ZHANG L N,WANG K,AN F Y,et al.,2022.Fatal Canine parvovirus type 2a and 2c infections in wild Chinese pangolins (Manis pentadactyla) in Southern China.Transbound.Emerg.Dis.,69(6):4002-4008.
ZHAO H,CHENG Y N,WANG J K,et al.,2016.Profiling of host cell response to successive Canine parvovirus infection based on kinetic proteomic change identification.Sci.Rep.,6:29560.
ZHENG Y,HAO X Q,LIN X,et al.,2018.Bacterial diversity in the feces of dogs with CPV infection.Microb.Pathog.,121:70-76.
ZHOU H Z,CUI K D,SU X,et al.,2024.Overview of recent advances in canine parvovirus research:current status and future perspectives.Microorganisms,13(1):47.
ZHOU P,ZHANG X,ZENG W J,et al.,2017.microRNA expression analysis of Feline and Canine parvovirus infection in vivo (Felis).PLoS ONE,12(10):e0185698.
基本信息:
DOI:10.13417/j.gab.044.000219
中图分类号:S852.655
引用信息:
[1]艾馨,王浩荣,张亦凡等.犬细小病毒病的组学研究进展[J].基因组学与应用生物学,2025,44(03):219-228.DOI:10.13417/j.gab.044.000219.
基金信息:
吉林省教育厅科学研究项目(JJKH20231143KJ);吉林省教育厅“十三五”科学技术项目(JJKH20200521KJ)共同资助; 吉林省自然科学基金项目(20210101368JC)