2007―2008年肠道病毒71型北京地区分离株的VP4基因序列分析

为了解2007 ― 2008 年北京地区流行的肠道病毒71 型( EV71) 是否存在基因序列变异及其与病毒毒力的关系, 我们选择2007 年分离的3 株EV71( 其中1 株分离自重症手足口病患儿的咽拭子标本, 其余2 株分离自普通手足口病患儿咽拭子标本) 和2008 年分离的5 株EV71( 其中3 株分离自重症手足口病患儿的咽拭子或鼻拭子标本, 2 株分离自普通手足口病患儿的疱疹液标本) , 提取基因组RNA, 经反转录-聚合酶链反应( RT-PCR) 扩增得到VP4 基因片段, 并进行核苷酸序列测定, 使用生物信息软件与GenBank 中的EV71 VP4 基因进行序列及病毒型别分析。结果表明, 所测得的8 株EV71 VP4 基因全长均为207 bp, 编码69 个氨基酸, 理论相对分子质量( Mr) 为7 ×10³。8 株EV71 病毒VP4 基因的核苷酸同源性在94% ～100% , 与GenBank 中其他EV71 病毒株VP4 的核苷酸同源性为82% ～100% , 与阜阳、深圳和台湾等地区流行的EV71 VP4 的核苷酸同源性比其他地区高。除了与印度报道的VP4 编码的氨基酸在第7 和54 位不同外( 印度株: 7 位蛋氨酸, 54位苏氨酸; 其余株7 位苏氨酸,54 位丙氨酸) , 这8 株EV71 VP4 编码的氨基酸序列之间以及与其他EV71 VP4编码的氨基酸同源性均为100%。8 株EV71 病毒VP4 与文献报道的3 株重症感染病毒株VP4 ( BrCr、MS 和NCKU9822) 核苷酸有较大差别, 而8 株病毒株中从重症感染( BJ97、BJ110B、BJ110Y 和BJ4243) 与轻症感染( BJ25、BJ47、BJ65 和BJ67) 分离到的毒株之间VP4 基因序列未见明显改变, 只有几个核苷酸存在差别。VP4 核苷酸序列的进化树分析表明, 这8 株EV71 均属于C4 亚型, 显示2007 ― 2008 年北京地区流行的EV71的VP4 基因相当保守, 分离自伴有神经系统感染的重症手足口病和普通手足口病患儿的EV71 的VP4 基因之间在核苷酸水平未出现同样的变异。结果提示, 近2 年来北京地区所流行的EV71 属C4 亚型。     

基因序列分析

为了解2007 ― 2008 年北京地区流行的肠道病毒71 型( EV71) 是否存在基因序列变异及其与病毒毒力的关系, 我们选择2007 年分离的3 株EV71( 其中1 株分离自重症手足口病患儿的咽拭子标本, 其余2 株分离自普通手足口病患儿咽拭子标本) 和2008 年分离的5 株EV71( 其中3 株分离自重症手足口病患儿的咽拭子或鼻拭子标本, 2 株分离自普通手足口病患儿的疱疹液标本) , 提取基因组RNA, 经反转录-聚合酶链反应( RT-PCR) 扩增得到VP4 基因片段, 并进行核苷酸序列测定, 使用生物信息软件与GenBank 中的EV71 VP4 基因进行序列及病毒型别分析。结果表明, 所测得的8 株EV71 VP4 基因全长均为207 bp, 编码69 个氨基酸, 理论相对分子质量( Mr) 为7 ×10³。8 株EV71 病毒VP4 基因的核苷酸同源性在94% ～100% , 与GenBank 中其他EV71 病毒株VP4 的核苷酸同源性为82% ～100% , 与阜阳、深圳和台湾等地区流行的EV71 VP4 的核苷酸同源性比其他地区高。除了与印度报道的VP4 编码的氨基酸在第7 和54 位不同外( 印度株: 7 位蛋氨酸, 54位苏氨酸; 其余株7 位苏氨酸,54 位丙氨酸) , 这8 株EV71 VP4 编码的氨基酸序列之间以及与其他EV71 VP4编码的氨基酸同源性均为100%。8 株EV71 病毒VP4 与文献报道的3 株重症感染病毒株VP4 ( BrCr、MS 和NCKU9822) 核苷酸有较大差别, 而8 株病毒株中从重症感染( BJ97、BJ110B、BJ110Y 和BJ4243) 与轻症感染( BJ25、BJ47、BJ65 和BJ67) 分离到的毒株之间VP4 基因序列未见明显改变, 只有几个核苷酸存在差别。VP4 核苷酸序列的进化树分析表明, 这8 株EV71 均属于C4 亚型, 显示2007 ― 2008 年北京地区流行的EV71的VP4 基因相当保守, 分离自伴有神经系统感染的重症手足口病和普通手足口病患儿的EV71 的VP4 基因之间在核苷酸水平未出现同样的变异。结果提示, 近2 年来北京地区所流行的EV71 属C4 亚型。     

肠道病毒71型的RT-PCR诊断及基因特征

2002～2003年从上海市和重庆市手足口病患儿的疱液标本中分离到10株病毒,其中上海9株,重庆1株.利用两对分别针对EV71和Cox.A16病毒VP1区的特异性引物,用RT-PCR方法对病毒进行初步鉴别.根据PCR所用引物及PCR扩增出的产物片段大小不同,可初步判定出EV71和Cox.A16病毒的血清型别.RT-PCR结果提示,上海分离到的9株病毒中,有2株为EV71,其余7株病毒为Cox.A16;重庆分离到的1株病毒为EV71.10株病毒的RT-PCR产物经序列测定和分析证实,PCR定型结果正确,说明PCR法具有很高的特异性,可作为EV71初步鉴定的首选方法.对所分离的3株EV71病毒进行VP1区编码基因全序列的测定和遗传学分析,通过同源性比较和构建系统发生树发现,此3株EV71病毒和中国大陆已发表的7株EV71病毒(SHZH03、SHZH98、SH-F1、SH-F2、SH-H25、SH-H26和CHN-87)全部属于C基因型,与该型代表株比较,同源性为89.3%～94.6%;与A、B基因型代表株比较,同源性为81.3%～84.0%,差异较大.在C基因型中,此3株EV71病毒和中国大陆先前分离的6株病毒(SHZH03、SHZH98、SH-F1、SH-F2、SH-H25、SH-H26)的同源性较高,在94.5%～100%范围内.在系统发生树上,这9株病毒形成一个较独立的分支.与CHN-87株的同源性在92.1%～93.6%之间.与已知的C1、C2、C3亚型代表株比较,同源性在89.3%～92.9%,差异≥7%,因此认为可将这9株病毒划分为C4亚型.上海、重庆和深圳的EV71病毒有较高的同源性,提示该病毒EV71-CA亚型在中国大陆1998～2003年间有较广泛的传播.建立中国流行的EV71病毒毒株库和基因库,对诊断、预防和控制EV71在中国的爆发有重要意义,对加强EV71的实验室诊断、病毒学监测和病毒基因型和亚型的标准命名和分子流行病学研究有重要帮助.     

2008～2010年河南省人肠道病毒71型基因特征和重组分析

对河南省2008～2010年河南省人肠道病毒71型进行基因特征及重组特点研究。对河南省2008～2010年分离的5株肠道病毒EV71型构建VP1序列系统进化树并分析其全基因组序列的重组特点。VP1序列系统进化分析显示2008～2010年河南株均属于C4基因型的C4a亚群,Bootscan分析和5’NCR、P1、P2、P3区的进化树证实C4基因型在2A～2B处存在EV71的B基因型和C基因型的型内重组及在3B～3C处存在EV71的B基因型和CA16/G-10间的型间重组。2008～2010年河南EV71分离株为C4基因型的C4a亚群,与2004年以来的中国大陆优势株流行趋势完全一致,EV71C4基因型存在基因型内和型间双重组现象。     

新乡地区2011年肠道病毒71型VP1基因特征分析及手足口病流行特点

为了解新乡地区2011年肠道病毒71型(EV71)VP1基因特征及手足口病流行特点,采用荧光RT-PCR对临床诊断的粪便标本进行总肠道病毒(EV)、柯萨奇病毒A16(CA16)和EV71检测;选取10例EV71阳性标本进行VPl序列扩增并测序,所得序列进行同源性分析和构建系统发生树;对2011年新乡市手足口病疫情监测数据进行分析。结果显示,重症标本的EV71阳性率(73%)显著高于CA16阳性率(19%)(P<0.01);10株新乡EV71分离株的核苷酸及氨基酸差异分别为2.8%和0.9%,属于C4亚型的C4a簇;9株VP1区第170位氨基酸为A,1株为V;与近缘的C4a型代表株相比,新乡优势株的氨基酸变异一般发生在VP1第292位氨基酸(T→A);2011年新乡市共上报手足口临床诊断病例1118例,92%的发病年龄在3岁以下,发病高峰分别出现在4和12月份,提示一定要加强手足口病预防控制,寒冷天气尤其不能忽视。     

肠道病毒71型北京分离株VP4基因序列及蛋白抗原性分析

为探讨肠道病毒71型(EV71)VP4基因序列与手足口病(HFMD)不同临床类型之间的关系,分析重组蛋白EV71 VP4的抗原性,并初步探讨其与柯萨奇病毒A16(CA16)重组蛋白VP4是否存在交叉反应性,对2007~2009年从北京患HFMD儿童标本分离到的10株EV71的VP4基因进行克隆测序,运用生物学软件对测序结果进行比较分析,并选择其中1株与1株同期分离的CA16的VP4分别进行原核表达;用表达产物对189份正常体检的成人及来首都儿科研究所就医的非HFMD患儿血清中的IgG进行Western Blot检测,并分析14份确诊为EV71感染和12份CA16感染患者急性期血清中的IgM抗体。分析表明这10株EV71 VP4基因核苷酸同源性为94.20%~100.00%,所推导的氨基酸序列则完全相同,从重症与轻症患儿分离的毒株之间VP4的核苷酸序列未见一致性的差异,基于EV71 VP4基因核苷酸序列的进化树分析表明2007~2009年北京地区所流行的毒株均属于C4亚型;本研究中EV71和CA16的VP4核苷酸序列的同源性为69.60%,所推导的氨基酸序列的同源性为78.60%,在运用Western Blot检测189份血清中的VP4特异性IgG时,EV71 VP4的血清阳性率为38.10%,说明其具有良好的抗原性,CA16 VP4的血清阳性率为58.20%,两者差别具有显著统计学意义(2χ=15.30,P<0.01),提示EV71 VP4与CA16 VP4没有交叉反应性;在用表达的VP4检测已确诊为相应病毒的特异性IgM时,两者皆为阴性,提示感染后机体对VP1和VP4产生不同的反应。     

2009年云南省2株肠道病毒71型分离株全基因组序列遗传特性分析

对2009年云南省肠道病毒71型分离株KMM09和KM186-09进行全基因组序列测序,并与我国及其它国家流行的EV71基因型进行比较和进化分析。KMM09和KM186-09基因组长为7 409bp,编码2 193个氨基酸,VP1系统进化分析显示2009年云南分离株属于C4基因型的C4a亚型。在结构区,与其它基因型相比较,C基因型之间的核苷酸和氨基酸的同源性高于其它基因型;而在非结构区,C4与B基因型和CA16原型株G10同源性高于其它C基因亚型。通过RDP3重组软件和blast比对分析,发现EV71C4基因型与B3基因型,与CA16原型株G10的基因组在非结构区存在重组。EV71全基因组序列的比较和分析,对了解引起我国手足口病暴发或流行C4基因亚型EV71毒株的遗传特性具有重要意义。     

2008～2011年贵州省肠道病毒71型分子流行特征分析

为研究贵州省肠道病毒71型(EV71)的基因型和分子流行特征,监测了全省报告的手足口病病例,选择2008年以来贵州全省部分EV71阳性标本进行病毒分离及VP1全基因测序(含重症病例、死亡病例和轻症病例),与国内外近年流行毒株及各亚型代表株进行基因比对,分析同源性及基因亚型。2008年、2009年及2011年贵州省流行的主要病原为EV71,获得109株参比序列毒株的同源性为95.3%～99.7%,贵州省毒株与邻省及山东省、上海市、南京市、吉林省和宁波市代表株的同源性最高,轻症与重死病例的核苷酸及氨基酸序列无明显的特征性差异,未出现不同基因亚型病毒的输入或改变,仍属C4a亚型。同地区、同年度内的核苷酸序列差异小于跨地区、跨年度差异。     

西安地区EV71-VP1基因分析

目的:通过在原核表达系统初步构建EV71-VP1,对西安地区肠道病毒71型(EV71)的外壳蛋白VP1基因进行分析.方法:采集西安地区手足口病患儿的疱液、咽部分泌物进行病毒分离和RT-PCR检测;通过逆转录聚合酶链式反应(RT-PCR)扩增肠道病毒71型(EV71)外壳蛋白VP1基因,构建重组表达质粒PQE30/VP1,转化到大肠杆菌BL21中,对VP1基因进行遗传学分析.结果:对肠道病毒71型(EV71)西安地方株VP1基因测序.并将其与阜阳株(序列号为EU913471)相比较,表明我国西安地区EV71分离株与阜阳株有较大差别,核苷酸差异约为4%.结论:西安地方株VPl基因与阜阳株相比,其核苷酸差异较为明显.这将为西安地区EV71的分子流行病学研究以及EV71所致疾病的预防和控制,打下良好的基础.     

A Comparison of the Biological Characteristics of EV71 C4 Subtypes from Different Epidemic Strains

The comparative analysis of the biological characterization and the genetic background study of EV71 circulating strains is commonly recognized as basic work necessary for development of an effective EV71 vaccine. In this study, we sequenced five EV71 circulating strains, isolated from Fuyang, Hefei, Kunming and Shenzhen city of China and named them FY-23, FY-22, H44, K9 and S1 respectively. The sequence alignment demonstrated their genotypes be C4. The genetic distance of the VP1 gene from these isolates s...     

深圳地区2001～2004年肠道病毒71型部分VP1区基因分析

肠道病毒71型（Enterovirus type71,EV71）自1974年Sehmidt等人首次报道从美国加利福尼亚暴发的表现为中枢神经系统症状的患者标本中分离到后,世界上许多国家相继报道了EV71在不同地区的流行。近年来EV71在亚洲地区的流行呈上升趋势。目前已知EV71的感染可以导致手足口病、无菌性脑膜炎、脑炎和脊髓灰质炎样的麻痹性疾病等多种与神经系统相关的疾病。EV71已经取代脊髓灰质炎病毒成为肠道病毒中最受瞩目的成员。根据病毒衣壳蛋白VP1核苷酸序列的差异,可将EV71分为A、B、C3个基因型。     

A comparison of the biological characteristics of EV71 C4 subtypes from different epidemic strains

The comparative analysis of the biological characterization and the genetic background study of EV71 circulating strains is commonly recognized as basic work necessary for development of an effective EV71 vaccine. In this study, we sequenced five EV71 circulating strains, isolated from Fuyang, Hefei, Kunming and Shenzhen city of China and named them FY-23, FY-22, H44, K9 and S1 respectively. The sequence alignment demonstrated their genotypes be C4. The genetic distance of the VP1 gene from these isolates suggested that they were highly co-related with genetic identity similar to other previously reported EV71 strains in China. Additionally, these strains were identified to display some obvious proliferation dynamics and plaque morphology when propagated in Vero cells. However, a distinctive difference in pathogenic ability in neonatal mice was found. Some differences in cross neutralization test &; immunogenic analysis were also found. All these results are related to the biological characterization of circulating EV71 strains in China and aid in the development of an EV71 vaccine in the future.     

Population Dynamics and Genetic Diversity of C4 Strains of Human Enterovirus 71 in Mainland China, 1998–2010

Background

Since 1997, several countries within the Asian Pacific region have been affected by one or more massive outbreaks of Hand Foot and Mouth Disease (HFMD). Virus typing experiments revealed that these outbreaks were caused by strains of human enterovirus 71 (EV71) belonging to several different, recently emerged subgenogroups. In mainland China, a different situation was observed. The first outbreak, localized in Shangdong Province, was reported in 2007, and was followed by a wide-spread outbreak in mainland China in 2008. Since then, numbers of reported HFMD cases have been persistently high.

Methodology/Principal Findings

To gain insight in the epidemiological behavior of EV71 in China, we studied genetic diversity and EV71 population dynamics to address whether the increase in number of reported EV71 infections reflects a real increase in viral spread or is just the result of increased awareness and surveillance. We used systematically collected VP1 gene sequences of 257 EV71 strains collected in Guangdong province from 2008 to 2010 as part of HFMD surveillance activities, and supplemented them with 305 GenBank EV71 reference stains collected in China from 1998 to 2010. All isolates from Guangdong Province belonged to subgenogroup C4. Viral population dynamics indicated that the increased reporting of HFMD in China since 2007 reflects a real increase in viral spread and continued replacement of viral lineages through time. Amino acid sequence comparisons revealed substitution of amino acid in residues 22, 145 and 289 through time regularly with the VP1 gene of EV71 strains isolated in mainland China from 1998 to 2010.

Conclusions

EV71 strains isolated in mainland China mainly belonged to subgenogroup C4. There was exponential growth of the EV71 virus population in 2007 and 2008. There was amino acid substitution through time regularly with the VP1 gene which possibly increased viral spread and/or ability of the virus to circulate persistently among the Chinese population.     

Outbreak of central nervous system disease associated with hand,foot, and mouth disease in Japan during the summer of 2000: detection and molecular epidemiology of enterovirus 71

Few outbreaks of the serious enterovirus 71 (EV71) infections, which affect the central nervous system (CNS), had been reported in Japan before 2000. During June through August 2000, a patient died of pulmonary edema caused by brainstem encephalitis accompanied by EV71-induced hand, foot, and mouth disease (HFMD), and many patients complicated by serious CNS disease, including paralysis, were hospitalized in a restricted area in Hyogo Prefecture, Japan (K-area). During the same period, endemics of HFMD were reported in other areas in Hyogo Prefecture, where EV71 was isolated from HFMD patients, but few patients developed aseptic meningitis. The isolations of EV71 from K-area patients were difficult with the use of Vero cells, so the strains were isolated by use of GL37 cells; Vero cells, however, could isolate EV71 strains from other areas in Hyogo Prefecture. We sequenced VP4 coding regions of these EV71 isolates and found that the isolates from K-area had the same sequence, which, except for one isolate, was different from the sequences of EV71 strains isolated from other areas of Hyogo Prefecture. Although these results were not enough to state that EV71 from K-area was a virulent strain, it seemed reasonable to conclude that serious CNS diseases in K-area were caused by EV71 because it was the only infectious agent detected in the inpatients of K-area.     

Genetic Diversity of Human Enterovirus 68 Strains Isolated in Kenya Using the Hypervariable 3′- End of VP1 Gene

Reports of increasing worldwide circulation of human enterovirus-68 (EV68) are well documented. Despite health concerns posed by resurgence of these viruses, little is known about EV68 strains circulating in Kenya. In this study, we characterized 13 EV68 strains isolated in Kenya between 2008 and 2011 based on the Hypervariable 3′- end of the VP1 gene. Viral RNA was extracted from the isolates and partial VP1 gene amplified by RT-PCR, followed by nucleotide sequencing. Alignment of deduced amino acid sequences revealed substitutions in Kenyan EV68 isolates absent in the prototype reference strain (Fermon). The majority of these changes were present in the BC and DE-loop regions, which are associated with viral antigenicity and virulence. The Kenyan strains exhibited high sequence homology with respect to those from other countries. Natural selection analysis based on the VP1 region showed that the Kenyan EV68 isolates were under purifying selection. Phylogenetic analysis revealed that majority (84.6%) of the Kenyan strains belonged to clade A, while a minority belonged to clades B and C. Overall, our results illustrate that although EV68 strains isolated in Kenya were genetically and antigenically divergent from the prototype strain (Fermon), they were closely related to those circulating in other countries, suggesting worldwide transmissibility. Further, the presence of shared mutations by Kenyan EV68 strains and those isolated in other countries, indicates evolution in the VP1 region may be contributing to increased worldwide detection of the viruses. This is the first study to document circulation of EV68 in Kenya.     

Genetic analysis of the VP1 region of human enterovirus 71 strains isolated in Fuyang,China, during 2008

Enterovirus 71 (EV71) is a common cause of Hand, foot, and mouth disease (HFMD) and may also cause severe neurological diseases, such as encephalitis and poliomyelitis-like paralysis. To examine the genetic diversity of EV71, we determined and analyzed the complete VP1 sequences (891 nucleotides) from nine EV71 strains isolated in Fuyang, China. We found that nine EV71 strains isolated were over 98% homologous at the nucleotide level and 93%-100% homologous to members of the C4 subgenogroup. At the amino acid level, these Fuyang strains were 99% -100% homologous to one another, 97%-100% homologous to members of the C4 subgenogroup, and the histidine(H) at amino acid position 22 was conserved among the Fuyang strains. The results indicate that Fuyang isolates belong to genotype C4, and an H at position 22 appears to be a marker for the Fuyang strains.     

Hand foot and mouth disease due to enterovirus 71 in Malaysia

Hand foot and mouth disease is a febrile sickness complex characterized by cutaneous eruption (exanthem) on the palms and soles with simultaneous occurrence of muco-cutanous vesiculo-ulcerative lesions (enanthem) affecting the mouth.The illness is caused by a number of enteroviruses with coxsackievirus A16 and enterovirus 71 as the main causative agents.Human enterovirus 71 (EV71) belongs to the species Human enterovirus A under the genus Enterovirus within the family Picornaviridae.EV71 has been associated with an array of clinical diseases including hand foot and mouth disease (HFMD),aseptic meningitis,encephalitis and poliomyelitis-like acute flaccid paralysis.A large outbreak of HFMD due to highly neurovirulent EV71 emerged in Malaysia in 1997,and caused 41deaths amongst young children.In late 2000,a recurrence of an outbreak of HFMD occurred in Malaysia with S fatalities in peninsular Malaysia.Outbreak of HFMD due to EV71 recurred in 2003 with an unknown number of cases and mortalities.A similar outbreak of HFMD with 2 recorded deaths in young children occurred in peninsular Malaysia in late 2005 and this was followed by a larger outbreak in Sarawak (Malaysian Borneo) with 6 reported fatalities in the early part of 2006.The current on-going outbreak of HFMD started in peninsular Malaysia in epidemiological week 12 of 2010.As with other HFMD outbreaks in Malaysia,both EV71 and CA16 were the main aetiological viruses isolated.In similarity with the HFMD outbreak in 2005,the isolation of CA16 preceded the appearance of EV71.Based on the VP 1 gene nucleotide sequences,4 sub-genogroups of EV71 (C1,C2,B3 and B4) co-circulated and caused the outbreak of hand,foot and mouth disease in peninsular Malaysia in 1997.Two sub-genogroups (C1 and B4) were noted to cause the outbreak in 2000 in both peninsular Malaysia and Sarawak.EV71 of sub-genogroup B5 with smaller contribution from sub-genogroup C1 caused the outbreak in 2003.In the 2005 outbreak,besides the EV71 strains of sub-genogroup C1,EV71 strains belonging to sub-genogroup B5 were isolated but formed a cluster which was distinct from the EV71 strains from the sub-genogroup B5 isolated in 2003.The four EV71 strains isolated from clinical specimens of patients with hand,foot and mouth disease in the Sarawak outbreak in early 2006 also belonged to sub-genogroup B5.Phylogenetic analysis of the VP1 gene suggests that the EV71 strains causing the outbreak in Sarawak could have originated from peninsular Malaysia.Epidemiological and molecular data since 1997 show the recurrence of HFMD due to EV71 in Malaysia every 2 to 4 years.In each of the past outbreaks,more than one sub-genogroup of the virus co-circulate.