Genome characteristics and molecular evolution of the human sapovirus variant GII.8

Human sapovirus is regarded as an important viral agent for acute diarrhea worldwide. GII.8, a recently reported genotype, has been detected in a few countries and regions. In this study, we obtained the first genome sequence of a sapovirus GII.8 strain isolated in mainland China, and comprehensively analyzed the genetic diversity and evolutionary process of this genotype. The viral genome of the new GII.8 Guangzhou strain GZ2014-L231 comprised 7433 nucleotides, including two ORFs. Pairwise alignments of the new genome with representative sequences of different genotypes showed inconsistent homology between different protein-encoding regions, of which NS1 and VP2 were found as the variable proteins, and NS3, NS5, and NS6/7 were found as the conserved ones. Compared with other reported GII.8 genomes, the Guangzhou strain introduced 34 new nucleotide changes and one new amino acid change. Phylogenetic analysis based on full-length VP1 sequences demonstrated that 11 GII.8 strains could be divided into 4 clusters A-D, with 88 SNP and 10 SAP spots occurred during their evolutionary process. The Guangzhou strain has higher homology with seven GII.8 strain detected after 2014, especially the US and Peruvian strains of 2015/2016, which have the identical VP1 amino acid sequences. Using a Bayesian coalescent method based on VP1 sequences, GII.8 was predicted to emerge in 2001 with the evolution rate of 1.45 × 10⁻³ nucleotide substitutions/site/year (strict clock). In summary, the data in this study not only provided reference data from mainland China for sapovirus researches in future, but also firstly described the evolutionary process of the GII.8 genotype.     

Genome characterization of a GII.6 norovirus strain identified in China

Noroviruses (NoVs) are the primary cause of non-bacterial acute gastroenteritis worldwide. Most NoV infections are caused by GII.4, but GII.6 is also an important genotype with a long-term persistence in human populations. In this study, the complete genome sequence of a NoV strain GZ2010-L96 isolated in China was identified and analyzed phylogenetically. The viral genome comprised 7550 nucleotides, and its phylogenetic analysis revealed that the strain belonged to GII.6 genotype. All reported GII.6 NoV capsid protein sequences were also collected for comparative analysis, and GZ2010-L96 was clustered into GII.6-b with other 8 strains. Meanwhile, it was found that 53 spots on viral capsid showed subcluster specificity according to multiple alignments. Moreover, homologous modeling of GZ2010-L96 based on comparison with GII.4 VA387 strain showed a different antigen distribution pattern. In summary, the genome of the GII.6 strain GZ2010-L96 detected in China was extensively characterized, and phylogenetic analyses of GII.6 NoVs based on the capsid proteins may reveal a different evolution process from the predominant genotype GII.4.     

2012-2014年广东省哨点医院诺如病毒GII.4 Sydney变异株流行状况及暴发疫情特征分析

目的：分析2012年1月至2014年6月广东省哨点医院诺如病毒GII.4 Sydney变异株流行状况,以及由诺如病毒GII.4 Sydney变异株感染引起的暴发疫情特征。方法2012年1月至2014年6月在广东省选取22家医院的门诊科室为监测哨点,将采集的腹泻病例粪便样本（共10750份）送至市级CDC,进行病毒核酸提取及诺如病毒核酸检测,所有阳性样本递送至广东省CDC,并按照随机数字法抽取了855份进行诺如病毒基因分型,共成功测序样本690份。采用χ2检验比较不同年龄组、不同时期内腹泻病例诺如病毒感染情况。通过广东省突发公共卫生事件管理信息系统,收集2012年1月至2014年6月广东省13起由诺如病毒GII.4 Sydney变异株感染引起的社区暴发疫情数据,进行社区流行病学分析。结果2012年8月首次检出诺如病毒GII.4 Sydney变异株,2012年11月检出比例为13/15。2012年11月至2013年1月（T1时期）,各月份中腹泻病例诺如病毒感染阳性率分别为23.8%（100/421）、15.9%（61/383）、19.2%（95/495）,2013年11月至2014年1月（T2时期）,各月份中腹泻病例诺如病毒感染阳性率分别为17.0%（90/529）、8.7%（37/426）、11.2%（46/409）,均低于T1时期（χ2值分别为6.65、9.93、10.74,P值分别为0.010、0.002、0.001）。T1时期内≥15、<15岁组腹泻病例诺如病毒感染阳性率分别为26.3%（143/543）、14.9%（113/756）（χ2=25.90,P<0.001）;T2时期≥15、<15岁组阳性率分别为10.1%（52/516）、14.3%（121/848）（χ2=5.09,P=0.024）。13起暴发疫情中,食源性传播占10/13。结论广东省2012年8月首次检出诺如病毒GII.4 Sydney变异株,2012年11月起呈现社区流行,流行1年后,强度降低;由诺如病毒GII.4 Sydney变异株引起的暴发疫情主要以食源性传播为主。     

Emergence of GII.e as a major ORF 1 norovirus genotype and its associated ORF 2 GII.4 variant forms

The noroviruses are a major cause of outbreaks of gastroenteritis. The norovirus genotype “GII.e”, identified by ORF (Open Reading Frame) 1 nucleotide sequencing, appears to be an obligatory recombinant, in that no unique GII.e ORF 2 genotype has been identified. In 2012 GII.e norovirus became the predominant ORF 1 genotype in norovirus outbreaks in Victoria, Australia, and the current study documents changes in the ORF 1 region of GII.e norovirus since it first emerged in 2008, as well as in the ORF 2 genotypes associated with GII.e norovirus. GII.e norovirus underwent significant genetic change in ORF 1 between 2010 and 2012 and this genetic change corresponded to a significant increase in the prevalence of the virus. Nucleotide sequencing of the ORF 2 region of GII.e specimens showed that in 2008–2009, all the ORF 2 sequences corresponded to the GII.4 (2007) variant, in 2010 all the ORF 2 sequences corresponded to the GII.4 (2012-like) variant and in 2012 all the ORF 2 sequences corresponded to the GII.4 (2012) variant, the GII.4 (2012-like) variant, or the GII.4 (2009-like) variant. The evidence indicated that the development of the 2012 GII.e epidemic strains was due to evolutionary change rather than a novel recombination event. The results also support the notion that ORF 1 is critical in determining the virulence of a norovirus strain.     

诺如病毒GII.17型流行特征和基因变异进化研究进展

诺如病毒是导致人类非细菌性急性胃肠炎的主要病原体之一,给全球的社会医疗和公众健康带来了严重负担。2014年,亚洲开始集中出现诺如病毒GII.17型导致的聚集性腹泻暴发疫情,随后逐渐向世界各地蔓延,给公众健康带来了新的威胁。本文综述了诺如病毒GII.17型流行特征和基因特征以及变异进化规律的研究进展。     

Molecular epidemiology of norovirus associated with gastroenteritis and emergence of norovirus GII.4 variant 2012 in Japanese pediatric patients

In late 2012, an outbreak of acute gastroenteritis due to norovirus variant Sydney_2012 occurred and have been reported from many counties. In this study, we described surveillance study of the incidence of norovirus infections among Japanese pediatric patients in association with gastroenteritis and investigated the antigenic change of the new variant Sydney_2012 circulated in Japanese populations. A total of 2381 fecal specimens collected from children with acute gastroenteritis in Hokkaido, Tokyo, Shizuoka, Kyoto, Osaka, and Saga from 2009 to 2013 were examined for norovirus and further analyzed molecularly. A high proportion (39.3%) of norovirus positive samples and several genotypes were detected. Norovirus GII.4 dominated over other genotypes (71.4%). The Den_Haag_2006b (43.2%) was detected as the predominant variant and co-circulated with New_Orleans_2009 (17.8%) until March 2012. Subsequently, they were displaced by Sydney_2012. The Sydney_2012 variant has been responsible for the majority of norovirus infections in 2012–2013 (85.7%). Although Sydney_2012 variant has a common ancestor with New_Orleans_2009 variant, analysis of P2 sub-domain showed a high level of diversity in comparison with other variants in four amino acid changes at the antigenic sites. The change in particular residue 393 of new variant may affect HBGA recognition. Analysis of noroviruses circulating in the past 4 years revealed a change of predominant variant of norovirus GII.4 in each epidemic season. The change of amino acid in putative epitopes may have led the virus escape from the existing herd immunity and explain the increase of new variant outbreaks.     

Molecular characterization of new emerging GII.17 norovirus strains from South China

Noroviruses are still the primary cause of non-bacterial acute gastroenteritis worldwide. Recently, a novel GII.17 norovirus variant emerged and caused an infection peak in the cold season of 2014/2015 in some Asian countries, including China. In this study, in order to understand the evolutionary advantage of the novel variant, complete genomic sequences of GII.17 NoV strains from South China were comprehensively analyzed. Pairwise alignments of new GII.17 genomes with representative sequences of each GII genotype were performed. Inconsistent homology was observed between different protein-encoding regions, of which VPg (NS5) and P2 were found to be the most conserved and variable ones, respectively. The differences between new sequences and other reported GII.17 genomes were also compared, and 84 mismatched nucleotides were found, resulting in 15 amino acid changes. Then, all capsid sequences of different GII.17 NoV variants were collected for multiple alignments, and a total of 87 spots were identified during their evolution process. Homology modeling of capsid proteins of four GII.17 variants was carried out based on comparison with GII.4 VA387 strain, and structural differences were mainly embodied in five extended loops. Furthermore, positions of potential conformational epitope regions of new GII.17 variants were found more similar or adjacent to those of GII.4 rather than those of the former GII.17 variants. In summary, nine GII.17 strains from South China were extensively characterized based on their complete genomes, and a different distribution pattern of epitope residues was predicted on the new GII.17 variant capsid from that of the former ones.     

重组GII型诺如病毒长沙株全基因组序列的测定与分析

目的 对2016年长沙地区一起由GII型诺如病毒引起的急性胃肠炎暴发疫情致病原进行全基因组序列测定,掌握其基因类型、分子进化特征和抗原重组情况。方法 提取疫情中患者粪便标本的总RNA,反转录成cDNA,PCR扩增病毒全基因组并采用Sanger法测序,比对拼接后获得病毒全基因组序列;通过BLAST比对和诺如病毒在线分型工具(typing online tool)确定其基因型别;从GenBank中下载GII型诺如病毒参考序列,采用DNA Star软件进行序列多序列比对和同源性分析,绘制系统遗传进化树,基因重组特征分析采用SimPlot软件。结果 通过一代测序获得病毒基因组序列长7491bp,有3个开放阅读框(ORF),长度分别为5100bp,1647bp,765bp。多序列比对和同源分析发现ORF1区与GII.P12型代表株同源性最高,VP1区则与GII.3型同源性最高;因此,将该毒株命名为Hu/GII.P12-GII.3/CS02/2016 /CHN。分子遗传进化分析显示其与中国其他地区如北京、上海、广东等地流行的GII.P12-GII.3重组型诺如病毒亲缘关系最为接近。抗原重组分析发现Hu/GII.P12-GII.3/CS02/2016 /CHN长沙株重组位点在5080bp,为ORF1与 ORF2重叠区的起点。结论 除了GII.P16-GII.2重组诺如病毒的广泛流行外,长沙地区仍存在GII.P12/GII.3重组诺如病毒的散发流行,需加其强监测。     

Identification of a novel codon in the norovirus GII.4 polymerase region which acts as a marker of major GII.4 norovirus epidemics

Noroviruses are considered the most common cause of outbreaks of non-bacterial gastroenteritis in humans and the GII.4 genotype the most common norovirus genotype. Previous studies have shown that two adjacent codons acted as markers of the severity of GII.4 norovirus outbreak epidemics. In this study, a further such codon was identified at nucleotide position 4670–4672 relative to the norovirus strain Lordsdale virus (GenBank accession no. X86557). Taken together, the data indicate these epidemic marker sites occur, on average, about once in 30 amino acids (aa) in the polymerase region. None of the variant forms associated with the three codons resulted in an aa change. The three codons were not associated with the active sites of the polymerase gene. It is possible changes in these marker sites may influence norovirus virulence by altering the timing of co-translational folding in the norovirus genome.     

Complete nucleotide sequence analysis of the norovirus GII.17: A newly emerging and dominant variant in China, 2015

Norovirus is an important pathogen which accounts for majority of the viral related acute gastroenteritis. Recently, a variant of genotype GII.17 was reported to be predominant over GII.4 and accounted for several acute gastroenteritis outbreaks in Asia. In the current study, the full genome of a norovirus strain ZHITHC-12 isolated during this outbreak period in China was identified and characterized. The viral genome was 7557 nucleotides in length and a phylogenetic analysis based on full length genome sequences indicated that ZHITHC-12 belonged to GII.17 genotype. A further phylogenetic analysis based on all available polymerase and capsid sequences showed that ZHITHC-12 was in Cluster III on both phylogenetic trees and grouped with other strains also isolated during 2013 to 2015. Moreover, homology modeling analysis based on GII norovirus capsid 5BSX template revealed that substitutions, mutations, and more importantly, deletions and insertions, occurred at or near the putative epitopes and histo-blood group antigen (HBGA) binding sites in its protruding P2 domain, which might confer new antigenic or biological properties for this novel variant. In summary, the first full genome and capsid protein structure of a novel norovirus GII.17 variant isolated in China was extensively characterized. The data would be helpful not only for the epidemiology study, but also for the diagnostic tool development and effective vaccine design in the future.     

Analysis of uncommon norovirus recombinants from Manaus,Amazon region,Brazil: GII.P22/GII.5, GII.P7/GII.6 and GII.Pg/GII.1

Norovirus (NoV) is responsible for outbreaks and sporadic cases of nonbacterial acute gastroenteritis in humans worldwide. The virus consists of small round particles containing a single-stranded RNA genome that is divided into three Open Reading Frames. NoV evolves via mechanisms of antigenic drift and recombination, which lead to the emergence of new strains that are capable of causing global epidemics. Recombination usually occurs in the ORF1/ORF2 overlapping region and generates strains with different genotypes in the polymerase and capsid region. The primary objective of this study was to analyze recombination in positive-NoV samples. Specimens were collected during 2011, 2012 and 2014, from children under two years of age presenting gastrointestinal symptoms such as vomiting and diarrhea. The partial polymerase (B region), capsid (D region) genes and the ORF1-ORF2 overlap regions were sequenced in each sample. The recombinant analyses were performed in the Simplot software v.3.5.1 and RDP4 Beta v. 4.6 program. These analyses showed that GII.Pg/GII.1, GII.P7/GII.6, and GII.P22/GII.5 were recombinant strains. To our knowledge, this is the first time that the GII.P22/GII.5 and GII.Pg/GII.1 strains were described in South America and the GII.P7/GII.6 was detected in Northern of Brazil.     

Comparative analysis of South African norovirus GII.4 strains identifies minor recombinant variants

Recombination within the norovirus (NoV) GII.4 genotype is well documented as a mechanism by which novel variants evolve. Norovirus GII.4 has been the predominant NoV genotype detected in South Africa (SA) in recent years and putative NoV recombinants were previously identified in SA based on partial regions of the viral genome. The objective of this study was to determine the complete genome sequence of representative NoV GII.4 variants that have circulated in SA between 2009 and 2013 and to compare major and minor GII.4 variants based on nucleotide sequence. The complete genomes of 11/27 GII.4 strains could be amplified in three or five overlapping segments, these included major variants New_Orleans_2009 and Sydney_2012 as well as three types of minor GII.4 variants. Phylogenetic and recombination analysis identified GII.4 recombinants with breakpoints located at or near the ORF1/2 junction. Apart from recombinants already recognised as major variants (GII.P4 New_Orleans_2009/GII.4 Sydney_2012 (n = 2) and GII.Pe/GII.4 Sydney_2012 (n = 2)) four further recombinant strains were detected (GII.P4 New_Orleans_2009/GII.4 Hunter_2004 (n = 1) and GII.P4 Yerseke_2006a/GII.4 Apeldoorn_2007 (n = 3)) that were attributed to three distinct minor variants. The encoded proteins with the highest diversity were p48 (Nterm), p22, VP1 and VP2. Analysis of antigenic sites in VP1 revealed mutations at epitopes A, B, C, D and E, with epitopes A and D being most variable. The high variation at epitope D was reflected in structural differences in models of GII.4 variants in the epitope D loop region (aa 393–395). Major and minor variants could not be distinguished based on specific sequence differences. HBGA-binding studies will be necessary to assess the effect of the observed amino acid differences in the P2 domain of these GII.4 strains.     

Detection and analysis of recombination in GII.4 norovirus strains causing gastroenteritis outbreaks in Alberta

Recombination is an important mechanism generating genetic diversity in norovirus (NoV) that occurs commonly at the NoV polymerase-capsid (ORF1/2) junction. The genotyping method based on partial ORF2 sequences currently used to characterize circulating NoV strains in gastroenteritis outbreaks in Alberta cannot detect such recombination events and provides only limited information on NoV genetic evolution. The objective of this study was to determine whether any NoV GII.4 strains causing outbreaks in Alberta are recombinants. Twenty stool samples collected during outbreaks occurring between July 2004 and January 2012 were selected to include the GII.4 variants Farmington Hills 2002, Hunter 2004, Yerseke 2006a, Den Haag 2006b, Apeldoorn 2007, New Orleans 2009, and Sydney 2012 based on previous NoV ORF2-genotyping results. Near full-length NoV genome sequences were obtained, aligned with reference sequences from GenBank and analyzed with RDPv4.13. Two sequences corresponding to Apeldoorn 2007, and Sydney 2012 were identified as recombinants with breakpoints near the ORF1/2 junction and putative parental strains as previously reported. We also identified, for the first time, a non-recombinant sequence resembling the ORF2–3 parent of the recombinant cluster Sydney 2012 responsible for the most recent pandemic. Our results confirmed the presence of recombinant NoV GII.4 strains in Alberta, and highlight the importance of including additional genomic regions in surveillance studies to trace the evolution of pandemic NoV GII.4 strains.     

Detection of novel GII.17 norovirus in Argentina, 2015

During the winter of 2014–2015 a novel GII.17 norovirus strain emerged as a cause of large gastroenteritis outbreaks in Asia; displacing the long-term predominant strain, GII.4. Although sporadically detected, the emerging GII.17 virus was described in North America and Europe. In this study, we describe the presence of this novel strain in Argentina (South America), and provide new information on the genetic diversity of GII.17 noroviruses.Ten stool samples from individuals (1–88 years old; median: 5 years old) experiencing gastroenteritis symptoms from San Martín de los Andes, Argentina were tested for Norovirus using RT-PCR. Subsequently, Norovirus positive samples were analyzed by sequencing. Norovirus was found in four out of 10 samples received. Partial sequencing of the ORF2 was available for 3/4 samples: two samples belonged to genotype GII.4 and one to genotype GII.17 (Arg13099). Sequence analyses of the VP1 encoding region revealed that the GII.17 Argentinean strain presented characteristics from both, the new (cluster C), and older (cluster A and B) GII.17 strains. Phylogenetic and sequence analyses of the RdRp region showed that this strain was closely related to strains from genotypes GII.P3, GII.P13 and GII.P17; however, did not cluster within any of them.This study represents the first report of this emergent strain in South America, and presents further evidence of the genetic plasticity of the GII.17.     

Molecular characterization of norovirus GII.17 detected in healthy adult,intussusception patient,and acute gastroenteritis children in Thailand

Noroviruses (NoVs) have been recognized as a leading cause of sporadic cases and outbreaks of acute gastroenteritis in all age groups. During the surveillance of NoVs in Chiang Mai, Thailand, four cases of the novel GII.17 NoVs were sporadically detected by RT-PCR in 2014–2015. The first case of GII.17 was detected in a healthy adult who worked for a restaurant. The second case was found in a pediatric patient who admitted to the hospital with intussusception. The third and fourth cases were found in acute gastroenteritis children. Phylogenetic analysis clearly demonstrated that GII.17 NoVs detected in this study were genetically closely related with the novel GII.17 Kawasaki reference strains. These four GII.17 NoV positive specimens were also tested by two immunochromatographic test kits in order to evaluate the sensitivity for GII.17 NoV detection. The viral loads in those specimens were determined by real-time RT-PCR. The sensitivity of GII.17 NoV detection varies by individual test kits and also depending on the amount of the viruses contained in the fecal specimens. In summary, our study reported the detection of novel GII.17 NoVs in a wide range of subjects with and without diarrhea. Therefore, continued comprehensive screening and genetic molecular characterization of NoV strains circulating in this area need to be further investigated.     

Detection and genetic characterization of the emergent GII.17_2014 norovirus genotype among children with gastroenteritis from Northern Brazil

Norovirus is the most important cause of viral gastroenteritis outbreaks worldwide. Recently, a novel GII.17 norovirus variant emerged and caused epidemics in Asian countries, replacing the GII.4 Sydney 2012 strain in hospitalized cases. In this study we describe the emergence of this novel NoV GII.17_2014 strain in Brazil.     

Characterization of novel intragenotype recombination events among norovirus pandemic GII.4 variants

Recently, there has been an increase in the number of children hospitalized due to norovirus infection in Brazil. This is due both to the occurrence of more severe norovirus-related gastroenteritis cases after the introduction of the rotavirus vaccine and an increase in the tools for the detection of the disease. This pathogen is transmitted by the fecal-oral route, and the illness is characterized by diarrhea, vomiting, nausea and abdominal cramps. The genome of the virus is organized into three open reading frames showing strong mutation rates. Additionally, homologous recombination events, which can increase the virulence of the virus and lead to genotyping mistakes in molecular epidemiological studies, frequently occur. The purpose of this study was to describe two recombination events among different GII.4 variants that infected children who were hospitalized for severe acute gastroenteritis during distinct periods of time in Belém, Brazil. The recombination among the variants US95_96/Kaiso_2003 and Den Haag_2006b/Yerseke_2006a were observed in May 2003 and February 2009, respectively. In both cases, the association between the dominant variant at that point in time and another that was circulating at a low frequency in the population of Belém was demonstrated. Interestingly, the position of the breakpoint of the recombination event in the genome was the polymerase gene and was located at the nucleotide positions 4.834 and 5.002, which is an unusual location for the occurrence of recombination as other studies have previously reported the junction region as a breakpoint. In this study, both recombinant variant strains were related to severe cases of diarrhea that lead to hospitalization, demonstrating the viral evolution of GII.4 in response to selective pressures, which ultimately lead to the emergence of novel viral types in the pediatric population. The cases discussed here reinforce the need for continuous norovirus surveillance. To our knowledge, these two GII.4 variant recombinations have not yet been previously described.     

Genome of Emerging Norovirus GII.17, United States, 2014

To determine whether the norovirus strain GII.17 recently detected in Maryland, USA, (Hu/GII.17/Gaithersburg/2014/US) is spreading globally, we characterized the genome. High similarity with the norovirus GII.17 that caused recent outbreaks in Asia indicates that the same strain was present in the United States during the 2014–15 norovirus season (winter).     

Immunogenicity and specificity of norovirus Consensus GII.4 virus-like particles in monovalent and bivalent vaccine formulations

Noroviruses, a major cause of acute gastroenteritis worldwide, present antigenic diversity that must be considered for the development of an effective vaccine. In this study, we explored approaches to increase the broad reactivity of virus-like particle (VLP) norovirus vaccine candidates. The immunogenicity of a GII.4 "Consensus" VLP that was engineered from sequences of three genetically distinct naturally occurring GII.4 strains was examined for its ability to induce cross-reactive immune responses against different clusters of GII.4 noroviruses. Rabbits immunized with GII.4 Consensus VLPs developed high serum antibody titers against VLPs derived from a number of distinct wild-type GII.4 viruses, including some that had been circulating over 30 years ago. Because the sera exhibited low cross-reactivity with antigenically distinct GI norovirus strains, we investigated the serum antibody response to a bivalent vaccine formulation containing GI.1 (Norwalk virus) and GII.4 Consensus VLPs that was administered to animals under varying conditions. In these studies, the highest homologous and heterologous antibody titers to the bivalent vaccine were elicited following immunization of animals by the intramuscular route using Alhydrogel (Al(OH)(3)) as adjuvant. Our data indicate that the use of both genetically engineered norovirus VLPs that incorporate relevant epitopes from multiple strains and multivalent vaccine formulations increase the breadth of the immune response to diverse variants within a genotype and, thus, prove helpful in the rational design of VLP-based vaccines against human noroviruses.