G5型人A组轮状病毒LL36755株的VP4、VP6和NSP4编码基因的分子特征

最近在亚洲首次发现并报道了感染人的G5型人A组轮状病毒LL36755株,为进一步探讨其进化来源,克隆了G5型人A组轮状病毒LL36755株的VP4、VP6、NSP4编码基因,并分析其基因序列的分子特征。结果发现卢龙株LL36755为罕见的G5P[6]型,其VP6的亚群为SGⅡ型,NSP4的基因型为B型。系统进化树分析表明,卢龙株LL36755的VP7、VP4编码基因与猪来源的毒株关系密切,而VP6、NSP4编码基因与人来源的毒株紧密相联系。可以推断新的人腹泻A组轮状病毒LL36755株是猪的VP7,VP4编码基因与人的VP6,NSP4编码基因的自然重组;而且该毒株不是G5的原型,很可能是人类轮状病毒与猪轮状病毒毒株的自然重组后逐步进化而来。     

G9型人A组轮状病毒LL52696与LL52727株的主要基因及其编码蛋白特征的分析

人A组轮状病毒(Human rotavirus,HRV)是引起世界范围婴幼儿重症腹泻的最主要病原,也是导致发展中国家婴幼儿死亡的主要病因之一[1-3],世界卫生组织统计每年大约引起611 000婴儿和儿童死亡,特别是发展中国家[4].HRV感染广泛,且改善营养状况和卫生条件对HRV发病危险影响不大,因此在发达国家和发展中国家HRV感染率接近.HRV引起的腹泻至今无特效药,发展疫苗对控制HRV感染的作用就显得特别突出.     

Reassortment of Human and Animal Rotavirus Gene Segments in Emerging DS-1-Like G1P[8] Rotavirus Strains

The emergence and rapid spread of novel DS-1-like G1P[8] human rotaviruses in Japan were recently reported. More recently, such intergenogroup reassortant strains were identified in Thailand, implying the ongoing spread of unusual rotavirus strains in Asia. During rotavirus surveillance in Thailand, three DS-1-like intergenogroup reassortant strains having G3P[8] (RVA/Human-wt/THA/SKT-281/2013/G3P[8] and RVA/Human-wt/THA/SKT-289/2013/G3P[8]) and G2P[8] (RVA/Human-wt/THA/LS-04/2013/G2P[8]) genotypes were identified in fecal samples from hospitalized children with acute gastroenteritis. In this study, we sequenced and characterized the complete genomes of strains SKT-281, SKT-289, and LS-04. On whole genomic analysis, all three strains exhibited unique genotype constellations including both genogroup 1 and 2 genes: G3-P[8]-I2-R2-C2-M2-A2-N2-T2-E2-H2 for strains SKT-281 and SKT-289, and G2-P[8]-I2-R2-C2-M2-A2-N2-T2-E2-H2 for strain LS-04. Except for the G genotype, the unique genotype constellation of the three strains (P[8]-I2-R2-C2-M2-A2-N2-T2-E2-H2) is commonly shared with DS-1-like G1P[8] strains. On phylogenetic analysis, nine of the 11 genes of strains SKT-281 and SKT-289 (VP4, VP6, VP1-3, NSP1-3, and NSP5) appeared to have originated from DS-1-like G1P[8] strains, while the remaining VP7 and NSP4 genes appeared to be of equine and bovine origin, respectively. Thus, strains SKT-281 and SKT-289 appeared to be reassortant strains as to DS-1-like G1P[8], animal-derived human, and/or animal rotaviruses. On the other hand, seven of the 11 genes of strain LS-04 (VP7, VP6, VP1, VP3, and NSP3-5) appeared to have originated from locally circulating DS-1-like G2P[4] human rotaviruses, while three genes (VP4, VP2, and NSP1) were assumed to be derived from DS-1-like G1P[8] strains. Notably, the remaining NSP2 gene of strain LS-04 appeared to be of bovine origin. Thus, strain LS-04 was assumed to be a multiple reassortment strain as to DS-1-like G1P[8], locally circulating DS-1-like G2P[4], bovine-like human, and/or bovine rotaviruses. Overall, the great genomic diversity among the DS-1-like G1P[8] strains seemed to have been generated through reassortment involving human and animal strains. To our knowledge, this is the first report on whole genome-based characterization of DS-1-like intergenogroup reassortant strains having G3P[8] and G2P[8] genotypes that have emerged in Thailand. Our observations will provide important insights into the evolutionary dynamics of emerging DS-1-like G1P[8] strains and related reassortant ones.     

2018–2020年人轮状病毒锦州地方株VP4及VP7基因特征

【背景】人A组轮状病毒(Rotavirus Group A,RVA)是婴幼儿胃肠炎的主要病原体及发展中国家婴幼儿死亡的重要原因,目前无特效药物治疗,疫苗预防是唯一可行的预防感染方法。外衣壳蛋白VP7和VP4是疫苗设计的主要靶点,针对该基因加强RVA地方株分子流行病学监测十分必要。【目的】对锦州地方流行RVA株VP7和VP4基因进行型别鉴定和序列特征分析。【方法】收集锦州地区2018-2020年RVA感染腹泻患儿的粪便标本,提取病毒RNA,通过RT-PCR扩增VP7、VP4基因片段并测序,得到7株RVA VP7和VP4序列。使用在线基因分型工具Rota C V2.0对测序结果进行分型分析。应用BLAST、DNAStar、MEGA X、Bio Edit等生物软件与临床流行株及疫苗株进行系统发育分析及氨基酸序列比对分析。【结果】分型结果表明7株锦州地方株均为G9P[8]型,系统发育分析证实其VP7和VP4基因分别属于G9-Ⅵ和P[8]-3谱系,核苷酸序列相似性分别为99.32%-100%与99.41%-100%。JZ株VP7与疫苗株Rotavac和Rotasiil相比,在抗原表位区7-1a、7-1b、7-2中分别存在4个和3个氨基酸替换。JZ株VP4与疫苗株Rotarix和Rota Teq VP4氨基酸序列相比,发现7个和4个氨基酸替换,位于抗原表位区8-1和8-3。【结论】2018-2020年在辽宁锦州地区检测到7株G9P[8]型RVA株,VP7和VP4序列相似性高于99%,G9P[8]型可能是辽宁省锦州地区2018-2020年婴幼儿轮状病毒腹泻的主要流行基因型之一。与同基因型疫苗株比较,位于JZ株VP7和VP4抗原表位区的氨基酸位点差异对于野毒株免疫逃逸机制的研究具有意义。     

Longitudinal analysis of VP7 gene of group A human rotavirus G2P[4] strains circulating in the pre‐vaccine era in Sapporo,Japan from 1991 to 2011

Sequence analysis of the VP7 gene in 23 group A human rotavirus G2P[4] strains obtained during 1991–2011, that is, the pre‐vaccine era, in Sapporo, Japan showed considerable genetic diversity, mainly in variable regions. Recent G2P[4] epidemic strains were located in sublineage IVa with a distinctive substitution of D96N. This study provides background data on the genetic variability of G2P[4] rotavirus‐VP7 gene prior to the widespread use of rotavirus vaccines in Japan.     

Full Genome Characterization of Novel DS-1-Like G8P[8] Rotavirus Strains that Have Emerged in Thailand: Reassortment of Bovine and Human Rotavirus Gene Segments in Emerging DS-1-Like Intergenogroup Reassortant Strains

The emergence and rapid spread of unusual DS-1-like intergenogroup reassortant rotavirus strains have been recently reported in Asia, Australia, and Europe. During rotavirus surveillance in Thailand in 2013–2014, novel DS-1-like intergenogroup reassortant strains having G8P[8] genotypes (i.e., strains KKL-17, PCB-79, PCB-84, PCB-85, PCB-103, SKT-107, SWL-12, NP-130, PCB-656, SKT-457, SSKT-269, and SSL-55) were identified in stool samples from hospitalized children with severe diarrhea. In this study, we determined and characterized the complete genomes of these 12 strains (seven strains, KKL-17, PCB-79, PCB-84, PCB-85, PCB-103, SKT-107, and SWL-12, found in 2013 (2013 strains), and five, NP-130, PCB-656, SKT-457, SSKT-269, and SSL-55, in 2014 (2014 strains)). On full genomic analysis, all 12 strains showed a unique genotype constellation comprising a mixture of genogroup 1 and 2 genes: G8-P[8]-I2-R2-C2-M2-A2-N2-T2-E2-H2. With the exception of the G genotype, the unique genotype constellation of the 12 strains (P[8]-I2-R2-C2-M2-A2-N2-T2-E2-H2) was found to be shared with DS-1-like intergenogroup reassortant strains. On phylogenetic analysis, six of the 11 genes of the 2013 strains (VP4, VP2, VP3, NSP1, NSP3, and NSP5) appeared to have originated from DS-1-like intergenogroup reassortant strains, while the remaining four (VP7, VP6, VP1, and NSP2) and one (NSP4) gene appeared to be of bovine and human origin, respectively. Thus, the 2013 strains appeared to be reassortant strains as to DS-1-like intergenogroup reassortant, bovine, bovine-like human, and/or human rotaviruses. On the other hand, five of the 11 genes of the 2014 strains (VP4, VP2, VP3, NSP1, and NSP3) appeared to have originated from DS-1-like intergenogroup reassortant strains, while three (VP7, VP1, and NSP2) and one (NSP4) were assumed to be of bovine and human origin, respectively. Notably, the remaining two genes, VP6 and NSP5, of the 2014 strains appeared to have originated from locally circulating DS-1-like G2P[4] human rotaviruses. Thus, the 2014 strains were assumed to be multiple reassortment strains as to DS-1-like intergenogroup reassortant, bovine, bovine-like human, human, and/or locally circulating DS-1-like G2P[4] human rotaviruses. Overall, the great genomic diversity among the DS-1-like intergenogroup reassortant strains seemed to have been generated through additional reassortment events involving animal and human strains. Moreover, all the 11 genes of three of the 2014 strains, NP-130, PCB-656, and SSL-55, were very closely related to those of Vietnamese DS-1-like G8P[8] strains that emerged in 2014–2015, indicating the derivation of these DS-1-like G8P[8] strains from a common ancestor. To our knowledge, this is the first report on full genome-based characterization of DS-1-like G8P[8] strains that have emerged in Thailand. Our observations will add to our growing understanding of the evolutionary patterns of emerging DS-1-like intergenogroup reassortant strains.     

Full genomic analysis of human rotavirus strain B4106 and lapine rotavirus strain 30/96 provides evidence for interspecies transmission

The Belgian rotavirus strain B4106, isolated from a child with gastroenteritis, was previously found to have VP7 (G3), VP4 (P[14]), and NSP4 (A genotype) genes closely related to those of lapine rotaviruses, suggesting a possible lapine origin or natural reassortment of strain B4106. To investigate the origin of this unusual strain, the gene sequences encoding VP1, VP2, VP3, VP6, NSP1, NSP2, NSP3, and NSP5/6 were also determined. To allow comparison to a lapine strain, the 11 double-stranded RNA segments of a European G3P[14] rabbit rotavirus strain 30/96 were also determined. The complete genome similarity between strains B4106 and 30/96 was 93.4% at the nucleotide level and 96.9% at the amino acid level. All 11 genome segments of strain B4106 were closely related to those of lapine rotaviruses and clustered with the lapine strains in phylogenetic analyses. In addition, sequence analyses of the NSP5 gene of strain B4106 revealed that the altered electrophoretic mobility of NSP5, resulting in a super-short pattern, was due to a gene rearrangement (head-to-tail partial duplication, combined with two short insertions and a deletion). Altogether, these findings confirm that a rotavirus strain with an entirely lapine genome complement was able to infect and cause severe disease in a human child.     

Whole Genomic Analysis of an Unusual Human G6P[14] Rotavirus Strain Isolated from a Child with Diarrhea in Thailand: Evidence for Bovine-To-Human Interspecies Transmission and Reassortment Events

An unusual rotavirus strain, SKT-27, with the G6P[14] genotypes (RVA/Human-wt/THA/SKT-27/2012/G6P[14]), was identified in a stool specimen from a hospitalized child aged eight months with severe diarrhea. In this study, we sequenced and characterized the complete genome of strain SKT-27. On whole genomic analysis, strain SKT-27 was found to have a unique genotype constellation: G6-P[14]-I2-R2-C2-M2-A3-N2-T6-E2-H3. The non-G/P genotype constellation of this strain (I2-R2-C2-M2-A3-N2-T6-E2-H3) is commonly shared with rotavirus strains from artiodactyls such as cattle. Phylogenetic analysis indicated that nine of the 11 genes of strain SKT-27 (VP7, VP4, VP6, VP2-3, NSP1, NSP3-5) appeared to be of artiodactyl (likely bovine) origin, while the remaining VP1 and NSP2 genes were assumed to be of human origin. Thus, strain SKT-27 was found to have a bovine rotavirus genetic backbone, and thus is likely to be of bovine origin. Furthermore, strain SKT-27 appeared to be derived through interspecies transmission and reassortment events involving bovine and human rotavirus strains. Of note is that the VP7 gene of strain SKT-27 was located in G6 lineage-5 together with those of bovine rotavirus strains, away from the clusters comprising other G6P[14] strains in G6 lineages-2/6, suggesting the occurrence of independent bovine-to-human interspecies transmission events. To our knowledge, this is the first report on full genome-based characterization of human G6P[14] strains that have emerged in Southeast Asia. Our observations will provide important insights into the origin of G6P[14] strains, and into dynamic interactions between human and bovine rotavirus strains.     

2009～2010年北京儿童腹泻中轮状病毒新VP4基因亚型的研究

P[8]b基因亚型是国内外新近发现的A组人轮状病毒(HRV)VP4基因的一种新亚型,本研究旨在建立有效鉴别HRV P[8]a和P[8]b基因亚型及P[4]和P[6]基因型的VP4基因打点杂交分型方法,并运用此方法对2009～2010年首都儿科研究所附属儿童医院门诊及住院腹泻患儿中P[8]b基因亚型HRV的流行情况及其G/P基因组合情况进行研究。通过对GenBank序列数据库可检索到的国内外HRV各种P基因型及亚型的VP4基因序列应用相关软件进行基因分析,在不同基因型别间核苷酸变异密集而相同P基因型内核苷酸高度保守的的位置设计各型别探针,并分别以本实验室上传GenBank的北京HRV地方株P[4]和P[6]基因型及P[8]a和P[8]b亚型的VP4基因作为相应型别探针的合成引物的设计模板及探针经PCR合成的合成模板,合成地高辛素标记的DNA探针。经测序验证所建立的VP4基因杂交分型方法结果可靠。对门诊88例(55%,88/160)及住院79例(70.5%,79/112)HRV腹泻患儿的P分型结果显示P[8]a亚型仍为主要型别,前者为96.6%(85/88),而后者为62.0%(49/79);P[8]b亚型在住院HRV感染腹泻患儿中占较高比例(27.9%,22/79),虽然其在门诊HRV感染患儿中也存在,但仅占2.3%(2/88);另外单纯P[4]基因型HRV感染仅在住院腹泻患儿中检测到1例(1.3%,1/79),而P[6]基因型在门诊及住院HRV感染腹泻患儿中均未检测到;本组标本中HRV P[8]b亚型主要与G9基因型组合。本研究表明G9P[8]b型HRV在北京腹泻儿童中有流行。     

Distribution of human rotaviruses, especially G9 strains, in Japan from 1996 to 2000

A 4-year (1996-2000) survey of rotavirus infection involving 2,218 diarrheal fecal specimens of children collected from five regions of Japan was conducted. A total of 642 (28.9%) specimens were found to be rotavirus positive. A changed prevalence pattern of rotavirus G serotype was found with an increase of G9 and G2 and a decrease of G1, although G1 remained the prevailing serotype. Serotype G9 was unexpectedly determined to be the prevailing serotype in Sapporo (62.5%) and Tokyo (52.9%) in 1998-1999, and in Saga (78.4%) in 1999-2000. G9 strains isolated from 1998-1999 belonged to the P[8]-NSP4-Wa-group with long RNA pattern, while, G9 strains isolated from 1999-2000 belonged to three groups, the P[8]-NSP4-Wa-group with long RNA pattern, the P[4]-NSP4-KUN-group with short RNA pattern and a mixed-type group (P[4]/P[8]-NSP4-KUN/Wa-group with long RNA pattern). Both sequence and immunological analysis of VP7 revealed that the G9 strains from 1999-2000 were much more closely related to the G9 strains isolated worldwide in the 1990s, including G9 strains found in Thailand in 1997. However, the G9 strains from 1998-1999 were distinct from these and more closely related to the G9 prototype strains F45, AU32 and WI61 discovered in Japan and the US in the 1980s. Thus the G9 strains isolated in 1998-1999 had progenitors common to the G9 prototype strains, while the strains isolated in 1999-2000 did not directly evolve from them but were related to global G9 strains that have emerged in recent years. These data supported our previous report that G9 rotavirus might exist as two or more subtypes with diverse RNA patterns, P-genotype and NSP4 genogroup combinations (Y.M. Zhou et al., J. Med. Virol. 65: 619-628, 2001) and suggested that G9 rotavirus prevalent in Japan during two successive years belonged to different subtypes. The nucleotide sequences presented in this paper were submitted to DDBJ, EMBL and GenBank nucleotide sequence databases. The accession numbers are: 00-Ad2863VP7 (AB091746), 00-OS2986VP7 (AB091747), 00-SG2509VP7 (AB091748), 00-SG2518VP7 (AB091749), 00-SG2541 (AB091750), 00-SG2864 (AB091751), 00-SP2737VP7 (AB091752), 99-SP1542VP7 (AB091753), 99-SP1904VP7 (AB091754), 99-TK2082VP7 (AB091755) and 99-TK2091VP7 (AB091756).     

Two Distinct Clusterings of the VP8* Gene of Rotaviruses Possessing the AU-1 Gene 4 Allele

A phylogenetic tree constructed by the unweighted pair group method with arithmetic means (UPGMA) for the VP8* gene from 13 human and two feline rotavirus strains possessing the AU-1 gene 4 allele revealed that these strains could be classified into two clusters which did not correspond with the year of isolation or the host species from which they originated. Nine of 10 human strains and one feline strain isolated in Japan formed one cluster, whereas three human strains from Italy and one feline strain from Australia formed the other. Human strain K8 from Japan was distantly related to the Australo-European clustering.     

Frequent reassortments may explain the genetic heterogeneity of rotaviruses: analysis of Finnish rotavirus strains

The predominant rotavirus electropherotypes (e-types) during 17 epidemic seasons (1980 through 1997) in Finland were established, and representative virus isolates were studied by nucleotide sequencing and phylogenetic analysis. The virus isolates were either P[8]G1 or P[8]G4 types. The G1 and G4 strains formed one G1 lineage (VP7-G1-1) and one G4 lineage, respectively. Otherwise, they belonged to two P[8] lineages (VP4-P[8]-1 and -2) unrelated to their G types. Phylogenetic analysis of partial sequences of all 11 RNA segments obtained from the strains also revealed genetic diversity among gene segments other than those defining P and G types. With the exception of segments 1, 3, and 10, the sequences of the other segments could be assigned to 2 to 4 different genetic clusters. The results of this study suggest that, in addition to the RNA segments encoding VP4 and VP7, the other RNA segments may segregate independently as well. In total, the 9 predominant e-types represented 7 different RNA segment combinations when the phylogenetic clusters of their 11 genes were determined. The extensive genetic diversity and number of e-types among rotaviruses are best explained by frequent genetic reassortment.     

Whole genome analysis of Vietnamese G2P[4] rotavirus strains possessing the NSP2 gene sharing an ancestral sequence with Chinese sheep and goat rotavirus strains

Because imminent introduction into Vietnam of a vaccine against Rotavirus A is anticipated, baseline information on the whole genome of representative strains is needed to understand changes in circulating strains that may occur after vaccine introduction. In this study, the whole genomes of two G2P[4] strains detected in Nha Trang, Vietnam in 2008 were sequenced, this being the last period during which virtually no rotavirus vaccine was used in this country. The two strains were found to be > 99.9% identical in sequence and had a typical DS‐1 like G2‐P[4]‐I2‐R2‐C2‐M2‐A2‐N2‐T2‐E2‐H2 genotype constellation. Analysis of the Vietnamese strains with > 184 G2P[4] strains retrieved from GenBank/EMBL/DDBJ DNA databases placed the Vietnamese strains in one of the lineages commonly found among contemporary strains, with the exception of the NSP2 and NSP4 genes. The NSP2 genes were found to belong to a previously undescribed lineage that diverged from Chinese sheep and goat rotavirus strains, including a Chinese rotavirus vaccine strain LLR with 95% nucleotide identity; the time of their most recent common ancestor was 1975. The NSP4 genes were found to belong, together with Thai and USA strains, to an emergent lineage (VIII), adding further diversity to ever diversifying NSP4 lineages. Thus, there is a need to enhance surveillance of locally‐circulating strains from both children and animals at the whole genome level to address the effect of rotavirus vaccines on changing strain distribution.     

Reassortant DS‐1‐like G1P[4] Rotavirus A strains generated from co‐circulating strains in Vietnam, 2012/2013

One major mechanism by which Rotavirus A (RVA) evolves is genetic reassortment between strains with different genotype constellations. However, the parental strains of the reassortants generated have seldom been identified. Here, the whole genome of two suspected reassortants, RVA/Human‐wt/VNM/SP127/2013/G1P[4] and RVA/Human‐wt/VNM/SP193/2013/G1P[4], with short RNA electropherotypes were examined by Illumina MiSeq sequencing and their ancestral phylogenies reconstructed. Their genotype constellation, G1‐P[4]‐I2‐R2‐C2‐M2‐A2‐N2‐T2‐E2‐H2, indicated that they were G1 VP7 mono‐reassortants possessing DS‐1‐like genetic backbones. The two strains were ≧99.7% identical across the genome. While their VP7 genes were ≧99.7 identical to that of a Wa‐like strain RVA/Human‐wt/VNM/SP110/2012/G1P[8] which co‐circulated during the 2012/2013 season, 10 genes were ≧99.8% identical to that of the DS‐1‐like strains RVA/Human‐wt/VNM/SP015/2012/G2P[4] (and SP108) that co‐circulated during the season. The identities were consistent with the phylogenetic relationships observed between the genes of the reassortants and those of the afore‐mentioned strains. Consequently, the G1P[4] strains appear to have been generated by genetic reassortment between SP110‐like and SP015‐like strains. In conclusion, this study provides robust molecular evidence for the first time that G1P[4] strains detected in Hanoi Vietnam were generated by inter‐genogroup reassortment between co‐circulating G1P[8] and G2P[4] strains within the same place and season.

     

Whole-Genome Analysis of a Rare Human Korean G3P Rotavirus Strain Suggests a Complex Evolutionary Origin Potentially Involving Reassortment Events between Feline and Bovine Rotaviruses

A rare human rotavirus, G3P[9] strain RVA/Human-tc/KOR/CAU12-2-51/2013/G3P[9], was isolated from the stool of a 9-year-old female hospitalized with acute watery diarrhea in August 2012 in South Korea using a cell culture system, and its genome was analyzed. The complete genomic constellation of the CAU12-2-51 strain revealed a novel genotype constellation for human rotavirus, G3-P[9]-I2-R2-C2-M2-A3-N2-T3-E3-H3. Phylogenetic analysis revealed that the CAU12-2-51 strain originated from feline- and bovine-like reassortment strains. The genes encoding VP4, VP7, NSP1, NSP3, NSP4, and NSP5 were related to human/feline-like and feline rotavirus strains, whereas the remaining five genes encoding VP1, VP2, VP3, VP6, and NSP2 were related to the human/bovine-like and bovine rotavirus strains. This novel strain was identified for the first time, providing evidence of feline/bovine-to-human transmission of rotavirus. The data presented herein provide information regarding rotavirus diversity and evolution.     

Genetic relatedness of VP1 genes of Australian and Taiwanese rotavirus isolates

Gene 1 (which encodes the viral RNA-dependent RNA polymerase, VP1) of an atypical human reassortant rotavirus strain, E210 (serotype G2P1B), is unrelated to genes 1 of standard human rotaviruses. To ascertain the origin of this gene, we determined a partial sequence and found that it exhibited greatest identity to gene 1 of a Taiwanese isolate, TE83, which is representative of G2 strains that caused an epidemic of gastroenteritis in 1993. Limited sequence identity to genes 1 of standard human and animal viruses was observed. This was confirmed by phylogenetic analysis. However, hybridization analysis using an E210 gene 1-specific probe indicated that a related gene was found among other Australian G2 isolates and in a Japanese strain isolated in the 1970s.