2017-2021年宁夏急性驰缓性麻痹病例监测系统非脊灰肠道病毒病原鉴定分析

为了解宁夏急性驰缓性麻痹病例中（acute flaccid paralysis,AFP）非脊灰肠道病毒（non-polio enterovirus,NPEV）的流行,本研究对宁夏2017-2021年急性驰缓性麻痹病例监测中分离到的NPEV进行型别鉴定和基因进化分析。按照监测方案要求采用RD细胞和L20B细胞分离病毒,分离到的病毒进行VP1区的全部核苷酸序列测定、基因型别鉴定分析、系统发生学分析。2017-2021年共收到969份粪便标本,其中AFP病例标本290份,密接者标本679份。从969份标本中共分离到55株NPEV,AFP病例中分离率6.16%(9/146,以例计),密接者人群分离率6.7%(46/679)。其中53株鉴定成功,分别属于人肠道病毒HEV-A、HEV-B、HEV-C组,包含16个血清型别,其中HEV-A组24株（45.2%）,5个血清型,以EV-A71、CVA10、coxsackieviruses (CV)CVA4、为主;HEV-B组28株（54.7%）,10个血清型,以echoviruses(ECHO)30、CVB5、CVB3为主,HEV-C组1株为CVA24,...     

云南省2006～2010年非脊灰肠道病毒分子流行病学特征分析

为了解云南省非脊髓灰质炎(脊灰)肠道病毒(NPEV)的基因型分布及分子进化特征,对2006～2010年间从急性迟缓性麻痹(AFP)病例中分离到的105株NPEVs进行VP1区部分核苷酸扩增和序列测定。所获得的云南地方株基因序列与各基因型原型株进行核苷酸与氨基酸同源性比较,并与GenBank中选取的代表株构建基因进化关系树。结果分析显示:105株NPEVs分别属于HEV-A、HEV-B、HEV-C,其中HEV-A 18株(7个血清型)所占比例为17.1%;HEV-B 77株(22个血清型)所占比例为73.3%,表明云南省AFP病例中流行的NPEV还是以HEV-B为主;HEV-C 10株(4个血清型)所占比例为9.5%;没有分离到HEV-D组肠道病毒;基因进化树中各种血清型病毒与对应原型株及代表株聚集一起,除CA2、EV90和EV76外,云南地方株与原型株位于不同分支。相同型别的毒株在5年的流行过程中变异程度亦不同,亲缘关系远近不一,表明这些病毒在云南省存在不同的传播链。     

急性弛缓性麻痹病例中ECHO11病毒的基因特征分析

该文首次分析了我国ECHO11病毒的分子流行病学资料。1999~2004年,ECHO11病毒是山东省急性弛缓性麻痹(AFP)病例中分离到的优势毒株,2003年从山东省482例AFP病例中共分离到11株ECHO11病毒,其中相关的10例病例分布跨越山东省大部分地区,但发病日期集中在7月和12月。该研究试图通过对VP1编码基因全序列的测定和分析,为探讨ECHO11病毒与AFP之间的病因关系提供线索。分子流行病学研究提示,11株E-CHO11毒株都位于同一传播链,核苷酸同源性为97.2%~100%,氨基酸同源性为99.6%~100%,其中7月和12月的分离株之间相差8~9个核苷酸,氨基酸序列一致。这说明山东省2003年7月和12月分别发生了ECHO11病毒流行,但这些毒株与AFP的病因关系尚需进一步研究。11株病毒组成了A基因型中的一个新亚型,在进化树上单独呈密切相关的一簇,与同基因型内的其它亚型的核苷酸同源性为82.2%~84.7%,氨基酸同源性为94.8%~97.6%。     

人类肠道病毒74型山东地方株的全基因组序列分析

人类肠道病毒(HEV)74型是人类肠道病毒B组(HEV-B)的新成员。为了解其进化和重组特性,本研究对2005年山东省急性弛缓性麻痹(Acute flaccid paralysis,AFP)监测系统分离到的人类肠道病毒74型山东地方株05293/SD/CHN/2005进行了全基因组序列测定和分析。与GenBank中的另2株HEV74全基因组序列比对,发现在5’NTR和3’NTR区有核苷酸缺失和插入;核苷酸序列的同源性分别为80.8%和80.6%,氨基酸同源性为96%和95.9%。山东株与原型株USA/CA75-10213间P1、P2和P3区核苷酸同源性分别为81.5%、80.0%和79.7%,氨基酸同源性分别为95.9%、96.0%和96.2%;山东株与西藏株Rikaze-136间P1、P2和P3区核苷酸同源性分别为81.9%、78.8%和79.5%,氨基酸同源性分别为95.9%、96.1%和95.7%。通过系统发生树和同源重组分析,发现该病毒可能与其他HEV-B组肠道病毒间发生重组。     

柯萨奇病毒A组2、6、8、12型山东地方株型别鉴定及其基因特征分析

在前期研究中,对山东省1989～2011年急性弛缓性麻痹(Acute flaccid paralysis,AFP)和手足口病(Hand,foot and mouth disease,HFMD)患者标本中分离到的部分人类肠道病毒(Human enteroviruses,HEVs)进行分子定型,发现了8个HEV-A血清型。为进一步探究HEV-A组病毒在山东省的基因型分布及分子进化特征,本研究继续对剩余分离株进行核酸提取,以HEV-A组特异性引物对VP1完整编码区进行序列扩增、测序和分子定型,又鉴定出4个血清型,分别为柯萨奇病毒A组(Coxsackievirus A,CVA)2、6、8、12型,共7株病毒。同源性分析显示,7株HEV-A山东分离株与其原型株核苷酸同源性介于80.8%～85.0%之间。系统进化树表明,CVA8、12型山东分离株与国内分离株存在一定亲缘关系,而CVA2、6型山东株同国内外分离株亲缘关系均较远,并且CVA2、6型在山东省内可能存在多个传播链。本研究将我省HEV-A组的血清型别增加至12个,进一步丰富了HEV-A山东地方株的遗传进化特征,并且发现CVA2、6、8、12血清型在山东省甚至全国范围内存在不同基因特征的传播链的共循环。     

肠道病毒ECHO13中国分离株的基因特征

为研究ECHO13病毒中国分离株的分子特征及其与世界其它分离株之间的基因关系,对1998年、2000年从中国福建省分离到2株ECHO13病毒进行基因序列对比分析.2株病毒分别命名为Fujian98-1和Fujian00-1,用逆转录-聚合酶链反应(RT-PCR)扩增出VP1蛋白编码基因全长861个核苷酸片段并进行序列测定,将2株ECHO13病毒的VP1序列与所有已发表的ECHO13病毒VP1基因全长进行同源性比较.结果显示,福建分离株之间核苷酸同源性为79.6%,氨基酸同源性为93.4%;与遗传距离最近的法国CF1089-91(AJ537604)毒株的核苷酸同源性分别为80%和88%,与代表株Del Carmen的核苷酸同源性分别为75.8%和77.9%.通过VP1基因分析,福建2株病毒均属于ECHO13病毒,与血清中和试验鉴定结果一致.下载所有已发表的ECHO13病毒VP1序列并构建进化树,发现福建2株病毒分属不同的分枝,提示这2株病毒来自不同的病毒传播链.进一步分析发现,整个ECHO13病毒可划分为3个不同的基因型:A、B和C基因型.福建Fujian98-1和Fujian00-1分别被划分在基因型B和C中,各基因型之间的核苷酸差异均大于20%.为验证该分型方法,将26株来自不同国家和时间的ECHO13病毒和2株福建分离ECHO13病毒部分VP1基因序列进行对比分析,建立进化树.结果显示,所有ECHO13病毒被分在A、B和C3个基因型中,而2株福建分离病毒仍然被分在B和C基因型中.除了B基因型1株病毒以外,所有3个基因型之间的核苷酸差异均大于15%,与VP1全长分型结果基本一致,说明部分VP1序列的基因分析也能用于对ECHO13病毒进行规律和分子流行病学的研究中.该研究首次报道了ECHO13病毒中国分离株的VP1蛋白基因全长序列,并推荐按VP1基因全长核苷酸差异≥20%作为划分基因型的标准,将已知的ECHO13病毒划分为A、B和C3个基因型.同时也可用病毒VP1基因5′端部分序列替代VP1全长序列来划分基因型.     

山东省柯萨奇病毒B1型VP1区全基因序列分析

为了解柯萨奇病毒B1型(Coxsackievirus B1,CV-B1)山东地方株的分子流行病学特征,本研究对1994年至2015年山东省急性弛缓性麻痹(Acute flaccid paralysis,AFP)监测系统、环境污水监测和无菌性脑膜炎病例标本中分离到的CV-B1病毒进行了VP1序列测定、系统发生学分析和同源性分析。共分离到CV-B1病毒53株,其中AFP监测、污水和及脑炎标本各分离到41株、4株和8株。基于VP1完整编码区序列的系统发生学分析显示CVB1山东株与国内其他分离株属于一个大的分支,该分支内无国外分离株,国外分离株构成了其他两个分支。山东株之间的VP1核苷酸同源性为84.4%~100.0%,与其他国家分离株的同源性为77.9%~85.0%。研究结果表明,中国CV-B1分离株与国外株相比有较大的遗传差异,需要加强相关手足口病病毒学监测,关注不同传播链的新的基因亚型的肠道病毒的输入。     

病毒性脑炎病例中埃可病毒11型病毒的基因特征分析

分析埃可病毒11型(Echovirus 11,ECHO 11)福建龙岩分离株的分子生物学特征。收集龙岩市第一医院2011年1~12月临床诊断为病毒性脑炎或中枢神经系统感染的住院病例脑脊液标本进行病毒分离鉴定,从7株经血清中和鉴定的ECHO 11分离株中,选取4株测定VP1完整编码区序列,与GenBank上已发表的ECHO 11型病毒VP1区进行同源性比较及遗传进化分析。4株ECHO 11分离株VPl区序列长度为600个核苷酸,编码200个氨基酸;4株之间的核苷酸同源性为100%,氨基酸同源性为99%~100%;与1953年Gregory原型株之间的核苷酸同源性为75%~76%,氨基酸同源性为90%;与2007年荷兰株(GU393773)之间核苷酸的同源性为94%~95%,氨基酸同源性为98%~99%,同源性最高;与国内2010年山东株之间核苷酸的同源性为74%,氨基酸同源性为88%~89%。系统进化树分析显示,4株龙岩分离株同属D5型,其与D5型病毒株(GU393713)之间核苷酸的同源性为93%,氨基酸同源性为99%。国内分离株之间相对较低的相似性提示国内ECHO 11病毒可能存在不同的传播链。     

肠道病毒ECHO25河南分离株基因特征分析

首次对ECHO25病毒进行分子生物学分析,阐明ECHO25(Entric Cytopathic Human Orphanviruses Type25)病毒河南分离株的分子生物学特征及其与世界其它分离株的基因关系。逆转录-聚合酶链反应(RT-PCR)扩增出VP1蛋白编码基因并进行序列测定,将所测4株ECHO25病毒的VP1序列与GenBank上已发表的ECH-O25病毒VP1区进行同源性比较及遗传进化分析发现:河南省4株ECHO25与标准株JV-4核苷酸同源性为79.2%～80.1%,氨基酸同源性为89.0%～92.4%;河南省4株ECHO25核苷酸同源性为93.0%～99.0%,氨基酸同源性为92.4%～97.5%;HN-01分离株与HN-26分离株高度同源,其核苷酸同源性达99.0%;河南省4株ECHO25同属B1基因亚型。     

龙岩市一起暴发性脑炎疫情分离的埃可病毒6型基因特征分析

对2010年福建省龙岩市长汀县埃可病毒6型(ECHO6)肠道病毒引起的暴发性脑炎,进行病原学分析,为该病的防控提供有价值的信息。对病例脑脊液标本进行荧光RT-PCR、病毒分离(RD细胞)、中和鉴定进行病原确认,再经PCR法对其中4株毒株进行VP1片段或全基因组核苷酸序列测定,用DNAStar软件中的MegAlign等软件进行同源性分析,Mega 4.0软件进行进化树分析。经病原学检测方法确认为ECHO6型肠道病毒,VP1片段核苷酸序列分析显示为C2亚型。全基因组序列共7 407个核苷酸,与其他ECHO病毒和CVB(Coxsackie virus B)病毒基因组构成相似,同源性为78.5%~87.3%。此次暴发性脑炎是由肠道病毒ECHO6C2亚型引起,病毒株全基因组序列长度与标准株(U16283)相近,同源性达80.4%。     

Epidemics and Frequent Recombination within Species in Outbreaks of Human Enterovirus B-Associated Hand,Foot and Mouth Disease in Shandong China in 2010 and 2011

The epidemiology and molecular characteristics of human enterovirus B (HEV-B) associated with hand, foot and mouth disease (HFMD) outbreaks in China are not well known. In the present study, we tested 201 HEV isolates from 233 clinical specimens from patients with severe HFMD during 2010–2011 in Linyi, Shandong, China. Of the 201 isolates, 189 were fully typed and 18 corresponded to HEV-B species (six serotypes CVA9, CVB1, CVB4, Echo 6, Echo 25 and Echo 30) using sensitive semi-nested polymerase chain reaction analysis of VP1 gene sequences. Phylogenetic analysis based on the VP1 region showed that eight E30SD belonged to a novel sub-genogroup D2; E25SD belonged to a novel sub-genogroup D6; E6SD belonged to sub-lineage C6 and five CVB1SD belonged to subgroup 4C; and B4SD belonged sub-lineage D2. The full viral genomes of the CVB1SD, E6SD, E25SD and E30SD isolates were sequenced. Analysis of phylogenetic and similarity plots indicated that E25SD recombined with E25-HN-2, E30FDJS03 and E4AUS250 at noncontiguous P2A–P3D regions, while E30SD, E30FDJ03, E25-HN-2 and E9 DM had shared sequences in discrete regions of P2 and P3. Both E6SD and B1SD shared sequences with E1-HN, B4/GX/10, B5-HN, and A9-Alberta in contiguous regions of most of P2 and P3. Genetic algorithm recombination detection analysis further confirmed the existence of multiple potential recombination points. In conclusion, analysis of the complete genomes of E25SD, E30SD, CVB1SD and E6SD isolated from HFMD patients revealed that they formed novel subgenogroup. Given the prevalence and recombination of these viruses in outbreaks of HFMD, persistent surveillance of HFMD-associated HEV-B pathogens is required to predict potential emerging viruses and related disease outbreaks.     

2010年7～12月肠道病毒B组河南株的血清学分布

本文对河南省2010年7~12月的HFMD监测标本进行了肠道病毒B组的血清型分布研究。来自HFMD病例的阳性病毒分离物进行分子分型方法鉴定并进行VP1完整编码区核苷酸序列测定和分析。所获VP1全序与其他B组各基因型代表株和中国大陆株进行比较并构建系统发生树。共获得14株HEV-B河南株,分为E1、E6 、E11、 E13、 E25、 E30共6个血清型。VP1系统进化分析显示2010年河南HEV-B分离株与原型株亲缘关系较远,E25、E11和E6均与山东株亲缘关系最近,E1和E13均与云南株亲缘关系最近,E30与2008年河南株亲缘关系最近。E6病毒存在两种基因型的共循环现象。     

Development of A Neonatal Mouse Model for Coxsackievirus B1 Antiviral Evaluation

Virologica Sinica - Coxsackievirus B1 (CVB1) is a leading causative agent of severe infectious diseases in humans and has been reported to be associated with outbreaks of aseptic meningitis,...     

Evidence for frequent recombination within species human enterovirus B based on complete genomic sequences of all thirty-seven serotypes

The species Human enterovirus B (HEV-B) in the family Picornaviridae consists of coxsackievirus A9; coxsackieviruses B1 to B6; echoviruses 1 to 7, 9, 11 to 21, 24 to 27, and 29 to 33; and enteroviruses 69 and 73. We have determined complete genome sequences for the remaining 22 HEV-B serotypes whose sequences were not represented in public databases and analyzed these in conjunction with previously available complete sequences in GenBank. Members of HEV-B were monophyletic relative to all other human enterovirus species in all regions of the genome except in the 5'-nontranslated region (NTR), where they are known to cluster with members of HEV-A. Within HEV-B, phylogenies constructed from the structural (P1) and nonstructural regions of the genome (P2 and P3) are incongruent, suggesting that recombination had occurred. Similarity plots and bootscanning analysis across the complete genome identified multiple sites at which the phylogeny of a given strain's sequence shifted, indicating potential recombination points. These points are distributed in the 5'-NTR and throughout P2 and P3, but no sites with >80% bootstrap support were identified within the capsid. Individual sequence comparisons and phylogenetic analyses suggest that members of HEV-B have recombined with one another on multiple occasions, resulting in a complex mosaic of sequences derived from multiple parental viruses in the nonstructural regions of the genome. We conclude that RNA recombination is a common mechanism for enterovirus evolution and that recombination within the nonstructural regions of the genome (P2 and P3) has been observed only among members of the same species.     

1A and 3D gene sequences of coxsackievirus B3 strain CC: variation and phylogenetic analysis.

Coxsackievirus B3 (CVB3) was thought to be the most common causative agent of life-threatening viral myocarditis. Coxsackievirus B3 strain CC (CVB3-CC) was isolated in China; however, no sequence data are available. The 1A and 3D regions of CVB3-CC were sequenced and phylogenetic analysis was done with reference to ten other CVB3 strains and all 36 prototype strains of human enterovirus B (HEV-B). Sequence analysis showed that the 1A gene region of CVB3-CC consisted of 207 nucleotides, encoding 69 amino acids; and the 3D gene region was comprised of 1386 nucleotides, encoding 462 amino acids. Variation analysis showed that the 3D gene of CVB3 strain CC varied the least among the two regions. Phylogenetic tree analysis of the 1A and 3D regions indicated that CVB3-CC clustered together with CVB3 Nancy strain suggesting that there may be a close evolutionary relationship between the two strains. Incongruity was observed between the non-structural protein gene and the structural protein gene trees, according to the topological structure, indicating that recombination was occurred among these strains.     

Differential Susceptibility and Response of Primary Human Myeloid BDCA1+ Dendritic Cells to Infection with Different Enteroviruses

Coxsackie B viruses (CVBs) and echoviruses (EVs) form the Human Enterovirus-B (HEV-B) species within the family Picornaviridae. HEV-B infections are widespread and generally cause mild disease; however, severe infections occur and HEV-B are associated with various chronic diseases such as cardiomyopathy and type 1 diabetes. Dendritic cells (DCs) are the professional antigen-presenting cells of our immune system and initiate and control immune responses to invading pathogens, yet also maintain tolerance to self-antigens. We previously reported that EVs, but not CVBs, can productively infect in vitro generated monocyte-derived DCs. The interactions between HEV-B and human myeloid DCs (mDCs) freshly isolated from blood, however, remain unknown. Here, we studied the susceptibility and responses of BDCA1⁺ mDC to HEV-B species and found that these mDC are susceptible to EV, but not CVB infection. Productive EV7 infection resulted in massive, rapid cell death without DC activation. Contrary, EV1 infection, which resulted in lower virus input at the same MOI, resulted in DC activation as observed by production of type I interferon-stimulated genes (ISGs), upregulation of co-stimulatory and co-inhibitory molecules (CD80, CD86, PDL1) and production of IL-6 and TNF-α, with a relative moderate decrease in cell viability. EV1-induced ISG expression depended on virus replication. CVB infection did not affect DC viability and resulted in poor induction of ISGs and CD80 induction in part of the donors. These data show for the first time the interaction between HEV-B species and BDCA1⁺ mDCs isolated freshly from blood. Our data indicate that different HEV-B species can influence DC homeostasis in various ways, possibly contributing to HEV-B associated pathology.     

Serotypes A1 and A2 of Mannheimia haemolytica are susceptible to genotypic, capsular and phenotypic variations in contrast to T3 and T4 serotypes of Bibersteinia (Pasteurella) trehalosi

Mannheimia haemolytica and Bibersteinia (Pasteurella) trehalosi are the most common bacterial isolates that cause pulmonary diseases in ruminants worldwide. The disease is determined by specific serotypes found in cattle and small ruminants. The molecular epidemiology of strains involved in disease is important in the control of outbreaks as well as in the preparation of vaccines. This study aimed to detect the instability and variations of bacterial strains that may affect the analysis of epidemic strains, or the stability of vaccinal strains. Eight strains of M. haemolytica belonging to serotypes A1 and A2 and three B. trehalosi strains of the T3 and T4 serotypes were used. Strains were subjected to pulsed field gel electrophoresis (PFGE) and capsular and phenotypic typing at each round of a total of 50 successive subcultures. Remarkable stability was found in all selected strains of B. trehalosi in contrast to M. haemoltyica, in which strains of both serotypes showed pattern variations produced by PFGE and capsular and phenotypic analysis. Objective criteria for M. haemolytica and B. trehalosi typing are consequently addressed.