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了解2014~2017年南京地区诺如病毒胃肠炎暴发流行特征、变化规律和流行株特征,为疫情控制、疫苗研发提供科学依据。收集2014年9月至2017年8月南京地区12个区疾控上送85起疑似诺如病毒急性胃肠炎暴发样本,应用荧光定量PCR和一步法RT-PCR检测诺如病毒基因序列,测序后利用分子生物学软件对序列进行分析。其中66起诺如病毒检测阳性,暴发集中于幼儿园和小学,冬春季节高发。诺如病毒优势株在连续的几个流行季持续变化,由GII.4/Sydney 2012转变为新型GII.P17-GII.17,再到GII.P16-GII.2。其中GII.P16-GII.2与全球2016~2017年参考株同源性达98.4%~99.5%。2014~2017年南京地区诺如病毒急性胃肠炎暴发的流行强度呈上升趋势。引起暴发的诺如病毒以GII为主,含多种基因型,并存在重组株,优势基因型在连续的几个流行季持续改变。诺如病毒近几年不断变异,从而逃脱人群免疫,可能是其流行趋势上升的原因之一。
Abstract:The aim of this study is to investigate the epidemic characteristics,variation and predominant strains in the gastroenteritis outbreaks caused by norovirus in Nanjing,China,from 2014 to 2017 and to provide perspectives on disease prevention and vaccine development.Samples from 85 suspected norovirus outbreaks were collected from 12 district Center for Disease Control and Prevention(CDC)districts from September 2014 to August 2017.We detected the targeted norovirus gene sequences using fluorescent quantitative polymerase chain reaction(PCR)and one-step reverse transcription-polymerase chain reaction(RT-PCR).We analyzed the sequences using bioinformatics tools.Sixty-six outbreaks were positive for norovirus,and the outbreaks mainly occurred mainly in kindergartens and primary schools in the winter and spring seasons.A shift in the predominant genotypes was evident during successive epidemic seasons,from GII.4/Sydney 2012 to the emergent GII.P17-GII.17,then to recombinant GII.P16-GII.2.The local GII.P16-GII.2 strains shared 98.4%~99.5% similarities with global reference sequences(2016~2017).In conclusion,a rise in the prevalence of norovirus was observed since 2014.These outbreaks were caused mainly by GII,which contained multiple genotypes as well as recombinant strains,and the prevalent genotypes continued to change during successive epidemic seasons.The shift in the prevalent norovirus genotypes over time in recent years may have resulted in the escape from herd immunity,which is likely to be one of the reasons for the increase in norovirus prevalence in humans in Nanjing,China.
[1]Estes M K,Prasad B V,Atmar R L.Noroviruses everywhere:has something changed?[J].Curr Opin Infect Dis,2006,19(5):467-474.
[2]Aliabadi N,Lopman B A,Parashar U D,Hall A J.Progress toward norovirus vaccines:considerations for further development and implementation in potential target populations[J].Expert Rev Vaccines,2015,14(9):1241-1253.
[3]Bartsch S M,Lopman B A,Ozawa S,Hall A J,Lee B Y.Global economic burden of Norovirus gastroenteritis[J/OL].PLoS One,2016,11(4):e0151219.
[4]廖巧红,冉陆,靳淼,崔生辉,袁俊,马会来,班海群,孙立梅,罗莉,刘娜,段招军,余宏杰.诺如病毒感染暴发调查和预防控制技术指南(2015版)[J].中国病毒病杂志,2015,5(6):448-458.
[5]Fu J G,Shi C,Xu C,Lin Q,Zhang J,Yi Q H,Zhang J,Bao C J,Huo X,Zhu Y F,Ai J,Xing Z.Outbreaks of acute gastroenteritis associated with are-emerging GII.P16-GII.2norovirus in the spring of 2017in Jiangsu,China[J/OL].PLoS One,2017,12(12):e0186090.
[6]Kumazaki M,Usuku S.Genetic Analysis of Norovirus GII.4variant strains detected in outbreaks of gastroenteritis in Yokohama,Japan,from the 2006-2007to the2013-2014 seasons[J/OL].PLoS One,2015,10(11):e0142568.
[7]Anderson A D,Garrett V D,Sobel J,Monroe S S,Fankhauser R L,Schwab K J,Bresee J S,Mead P S,Higgins C,Campana J,Glass R I.Multistate outbreak of Norwalk-like virus gastroenteritis associated with a common caterer[J].Am J Epidemiol,2001,154(11):1013-1019.
[8]Kojima S,Kageyama T,Fukushi S,Hoshino F B,Shinohara M,Uchida K,Natori K,Takeda N,Katayama K.Genogroup-specific PCR primers for detection of Norwalk-like viruses[J].J Virol Methods,2002,100(1-2):107-114.
[9]Kraut R Y,Snedeker K G,Babenko O,Honish L.Influence of school year on seasonality of Norovirus outbreaks in developed countries[J].Can J Infect Dis Med Microbiol,2017,2017:9258140.
[10]Kumazaki M,Usuku S.Norovirus genotype distribution in outbreaks of acute gastroenteritis among children and older people:an 8-year study[J].BMC infectious diseases,2016,16(1):643.
[11]王璇,石利民,张洪英,郭宝福,谢国祥,丁洁.南京市诺如病毒GⅡ.4/Sydney变异株感染疫情的病原学研究[J].中国卫生检验杂志,2014,24(24):3501-3504.
[12]van Beek J,Ambert-Balay K,Botteldoorn N,Eden J S,Fonager J,Hewitt J,Iritani N,Kroneman A,Vennema H,Vinje J,White P A,Koopmans M.Indications for worldwide increased norovirus activity associated with emergence of a new variant of genotype II.4,late 2012[J].Euro Surveill,2013,18(1):8-9.
[13]Leshem E,Wikswo M,Barclay L,Brandt E,Storm W,Salehi E,DeSalvo T,Davis T,Saupe A,Dobbins G.Effects and clinical significance of GII.4Sydney norovirus,United States,2012-2013[J].Emerg Infect Dis,2013,19(8):1231-1238.
[14]Fu J,Ai J,Jin M,Jiang C,Zhang J,Shi C,Lin Q,Yuan Z,Qi X,Bao C,Tang F,Zhu Y.Emergence of a new GII.17norovirus variant in patients with acute gastroenteritis in Jiangsu,China,September 2014to March 2015[J].Euro Surveill,2015,20(24):21157.
[15]Medici M C,Tummolo F,Calderaro A,Chironna M,Giammanco G M,De Grazia S,Arcangeletti M C,De Conto F,Chezzi C,Martella V.Identification of the novel Kawasaki 2014GII.17human norovirus strain in Italy,2015[J].Euro Surveill,2015,20(35):30010.
[16]Matsushima Y,Ishikawa M,Shimizu T,Komane A,Kasuo S,Shinohara M,Nagasawa K,Kimura H,Ryo A,Okabe N,Haga K,Doan Y H,Katayama K,Shimizu H.Genetic analyses of GII.17 norovirus strains in diarrheal disease outbreaks from December2014to March 2015in Japan reveal a novel polymerase sequence and amino acid substitutions in the capsid region[J].Euro Surveill,2015,20(26):21173.
[17]Wang X,Du X,Yong W,Qiao M,He M,Shi L,Guo B,Hong L,Jiang Y,Xie G,Ding J.Genetic characterization of emergent GII.17 norovirus variants from2013to 2015in Nanjing,China[J].J Med Microbiol,2016,65(11):1274-1280.
[18]Nagasawa K,Matsushima Y,Motoya T,Mizukoshi F,Ueki Y,Sakon N,Murakami K,Shimizu T,Okabe N,Nagata N,Shirabe K,Shinomiya H,Suzuki W,Kuroda M,Sekizuka T,Ryo A,Fujita K,Oishi K,Katayama K,Kimura H.Phylogeny and immunoreactivity of Norovirus GII.P16-GII.2,Japan,winter2016-17[J].Emerg Infect Dis,2018,24(1):144-148.
[19]Bidalot M,Thery L,Kaplon J,De Rougemont A,Ambert-Balay K.Emergence of new recombinant noroviruses GII.p16-GII.4and GII.p16-GII.2,France,winter 2016to 2017[J].Euro Surveill,2017,22(15):30508.
[20]Kwok K,Niendorf S,Lee N,Hung T N,Chan L Y,Jacobsen S,Nelson E A S,Leung T F,Lai R W M,Chan P K S,Chan M C W.Increased detection of emergent recombinant Norovirus GII.P16-GII.2strains in young adults,Hong Kong,China[J].2016-2017.Emerg Infect Dis,2017,23(11):1852-1855.
[21]Ao Y,Wang J,Ling H,He Y,Dong X,Wang X,Peng J,Zhang H,Jin M,Duan Z.Norovirus GII.P16/GII.2-associated gastroenteritis,China,2016[J].Emerg Infect Dis,2017,23(7):1172-1175.
[22]Yang Y,Xia M,Tan M,Huang P,Zhong W,Pang X L,Lee B E,Meller J,Wang T,Jiang X.Genetic and phenotypic characterization of GII-4 noroviruses that circulated during 1987to 2008[J].J Virol,2010,84(18):9595-9607.
[23]Cannon J L,Barclay L,Collins N R,Wikswo M E,Castro C J,Magana L C,Gregoricus N,Marine R L,Chhabra P,Vinje J.Genetic and epidemiologic trends of Norovirus outbreaks in the United States from 2013to 2016demonstrated emergence of novel GII.4recombinant viruses[J].J Clin Microbiol,2017,55(7):2208-2221.
[24]Arias A,Thorne L,Ghurburrun E,Bailey D,Goodfellow I.Norovirus polymerase fidelity contributes to viral transmission in vivo[J/OL].mSphere,2016,1(5):e00279-16.
[25]Bull R A,Eden J S,Rawlinson W D,White P A.Rapid evolution of pandemic noroviruses of the GII.4lineage[J/OL].PLoS Pathog,2010,6(3):e1000831.
[26]Niendorf S,Jacobsen S,Faber M,Eis-Hubinger AM,Hofmann J,Zimmermann O,Hohne M,Bock CT.Steep rise in norovirus cases and emergence of a new recombinant strain GII.P16-GII.2,Germany,winter2016[J].Euro Surveill,2017,22(4):30447.
[27]Infectious Disease Surveillance Center.Norovirus trends in Japan,2015/16season[R].National Institute of Infectious Diseases,Japan,2017.
[28]I-chia L.Diarrhea cases reach record high[N].Taipei Times.http://www.taipeitimes.com/News/taiwan/archives/2017/03/15/2003666806.2017.
[29]Tohma K,Lepore C J,Ford-Siltz L A,Parra G I.Phylogenetic analyses suggest that factors other than the capsid protein play a role in the epidemic potential of GII.2 Norovirus[J].mSphere,2017,2(3):e00187-17.
基本信息:
DOI:10.13242/j.cnki.bingduxuebao.003393
中图分类号:R181.3;R512.5
引用信息:
[1]王璇,雍玮,杜雪飞,等.2014~2017年南京地区胃肠炎暴发中诺如病毒分子流行病学特征[J].病毒学报,2018,34(04):483-490.DOI:10.13242/j.cnki.bingduxuebao.003393.
基金信息:
南京市卫计委“十三五”医学科技创新平台项目(项目号:ZDX16020);题目:基于互联网大数据的传染病疫情应急处置关键技术平台及应用;; 南京市卫生青年人才培养工程入选人员项目(项目号:QRX11039);; 江苏省农业科技自主创新项目(项目号:CX(17)3002);题目:生食果蔬中食源性病毒监测技术研究~~
2018-06-04
2018-06-04
2018-06-04