Evaluation of genomic regions of hepatitis A virus for phylogenetic analysis: Suitability of the 2C region for genotyping

The use of different genomic fragments of hepatitis A virus (HAV) has been described for classification of strains available globally. However, the limitations of these fragments have been reported in several studies. The present study was conducted to evaluate the genomic fragments of HAV, spanning from the 5'NCR to 3'NCR to employ them in molecular diagnosis and genotyping. The different phylogenetic methods confirmed the use of the 5'NCR and the VP4 region in diagnosis due to their conserved nature. The entire genome, 2A, 2C and 3D were identified as the suitable genomic regions comparable to the VP1 region recommended earlier for genotyping. Likelihood mapping analysis indicated the full-length genome sequence as the region of choice for genotyping of HAV. This was followed by a short 2C region (1005nt), which needs to be explored.     

Genetic heterogeneity of hepatitis E virus

Hepatitis E virus (HEV) infection has been considered a disease associated with developing regions and attributed to oral-fecal transmission due to inadequate sanitation. Several recent findings, however, have led to a new understanding of this virus. A number of novel isolates have been identified in patients with acute hepatitis from regions not considered endemic for HEV, and these individuals reported no recent travel to HEV endemic areas. In addition, a number of HEV-like sequences have also been isolated from swine worldwide, suggesting the potential of an animal reservoir. Although full-length sequence is available for some strains, the majority of HEV isolates have only been sequenced partially. Sequence comparisons and phylogenetic analyses were performed to determine the genotypic distribution of HEV isolates, based on the partial sequence data available. It has been suggested that HEV isolates segregate into four major genotypes based on full-length comparisons. These analyses, however, indicate that HEV may be distributed into at least nine different groups.     

PCR结合单酶切对戊型肝炎病毒进行基因分型的研究

目的　建立PCR结合单酶切对戊型肝炎病毒(HEV)进行基因分型的方法,并将其应用于HEV基因型分布的研究。方法　采用简并引物扩增1～4型HEVORF1片段,1、2型HEVPCR产物为2 75、2 6 9bp ,3、4型PCR产物为317、314bp ,分别应用NaeⅠ、NotⅠ消化两种长度的PCR产物,根据酶切结果区分4种基因型。结果　采用此方法对4种基因型的HEV标准株分型,结果与预期一致;4 3份HEVIgM阳性的临床标本中,19份PCR阳性,分型结果均为4型HEV。结论　此方法可以快速简便地区分HEV 4种基因型。南京地区散发戊型肝炎大多由4型HEV所致。     

Determination of the nucleotide sequences at the extreme 5′ and 3′ ends of swine hepatitis E virus genome

Summary.  The nucleotide sequences at the extreme 5′ and 3′ ends of swine hepatitis E virus (swine HEV) genome were determined, and genomic sequence of swine HEV is now complete. Sequence analysis revealed that the 3′ and 5′ non-coding regions (NCRs) of swine HEV are closely related to that of the US-1 and US-2 strains of human HEV. Like the two U.S. strains of human HEV, an extra G residue immediately proceeding the poly(A) tail was identified in swine HEV. The 5′ NCR of swine HEV also differed from many HEV strains: it lacks an A residue at its 5′ very end, and the extra 9 nucleotides in the US-2 strain. In the 3′ NCR, swine HEV shared 90–91% nucleotide sequence identities with the US-1 and US-2 strains but only about 58–65% identities with other HEV strains. This study further suggests that the US-1 and US-2 strains of human HEV may be of swine origin. The availability of the complete sequence of swine HEV should facilitate the construction of an infectious cDNA clone of swine HEV. Received April 20, 2001 Accepted July 10, 2001     

Development and validation of an improved RT-PCR assay with nested universal primers for detection of hepatitis E virus strains with significant sequence divergence

Recent studies revealed that hepatitis E virus (HEV) genomes are more variable than previously thought and well-conserved regions suitable for designing universal primers are limited. In this study, based on alignment of 70 full-length HEV sequences of genotypes 1-4, a part of the ORF2/ORF3 overlapping region was found to be the best target region for PCR amplification of various HEV strains. Using the newly designed primers, an RT-PCR method (ORF2/3-137 PCR) that amplifies a 137-nucleotide (nt) sequence within the ORF2/ORF3 overlapping region and is capable of amplifying all known HEV sequences was developed. When compared with the previous RT-PCR method (ORF2-457 PCR) that amplifies a 457 nt ORF2 sequence, ORF2/3-137 PCR was two to three times more sensitive than ORF2-457 PCR upon testing serial dilutions of three HEV RNA-positive serum samples. The ORF2/3-137 PCR assay could detect viraemia in five patients with acute or fulminant hepatitis E 3-14 days longer than ORF2-457 PCR after disease onset. All 41 ORF2-457 PCR-positive serum samples of various genotypes tested positive for HEV RNA by the ORF2/3-137 PCR assay. Since the amplicons of ORF2/3-137 PCR contain variable sequences, a phylogenetic tree of the ORF2/3-137 products could clearly distinguish the different HEV genotypes.     

Discrepancy of hepatitis C virus genotypes as determined by phylogenetic analysis of partial NS5 and core sequences

The use of phylogenetic analyses of partial NS5 and core regions for hepatitis C virus (HCV) genotyping was evaluated by analysing seven Honduran and 24 European HCV strains. Core primers were designed with which HCV genotypes 1, 2, and 3 were readily amplified. The reliability of phylogenetic analysis of a 111-bp core sequence was verified by comparing the typing results with those obtained using the whole core gene of 52 reference strains. Accordant genotypes (1a, 1b, 2b, and 3a) were obtained when phylogenetic analyses were undertaken on both the partial core and a 222-bp NS5 sequence in all of the European HCV strains. Genotypes 1a, 1b, and 3a were identified among the Honduran strains by phylogenetic analysis of the partial NS 5 sequence. Interestingly, two of three Honduran type 3a strains, as determined by the NS5 sequence analysis, turned out to be type 1a by core sequence analysis. These two strains were also classified as type 1a, but not 3a, by a core type-specific PCR. Furthermore, the R2/NS1 regions were similar to HCV-PT, a representative strain of genotype 1a. The results indicate that chimeral HCV strains exist, although in most cases a good concordance is found when phylogenetic analysis of partial core and NS5 sequences are used for genotyping. This finding should be taken into account when HCV is genotyped by a phylogenetic analysis of a partial HCV sequence from a single genomic region. © 1996 Wiley-Liss, Inc.     

Full-length sequence analysis of hepatitis E virus isolates: showing potential determinants of virus genotype and identity

The complete genome sequence of a genotype 4 strain of hepatitis E virus (CH-YT-HEV02) from a patient (in Yantai, China) has been determined. Phylogenetic analysis showed that CH-YT-HEV02 belongs to genotype 4, subtype 4a. However, the phylogenetic analysis indicated that it was most closely related to JKO-CHiSai98C (AB197673) strain, sharing only 91.6 % sequence identity with it. Judging from the phylogenetic tree based on the full-length nucleotide sequences of all 70 genotype 4 HEV isolates retrieved from GenBank up to May, 2013, the CH-YT-HEV02 isolates could serve as a Yantai-indigenous strain. A broader comparison with other genotype isolates revealed that there are a few conserved amino acids in the HVR region of different HEV genotypes, and two amino acid motifs in ORF2 and ORF3 might serve as signatures of genotype diversity of HEV.     

Partial sequence comparison of eight new Chinese strains of hepatitis E virus suggests the genome sequence is relatively stable

Partial genomic sequences representing 420 nucleotides of a nonstructional region, 480 nucleotides of the putative RNA polymerase region, and 540 nucleotides of the structural region of epidemic-associated Chinese strains of hepatitis E virus (HEV) were obtained by direct sequencing of PCR-amplified DNA. Comparison with previously published HEV sequences showed a clear relatedness of all Chinese strains to each other and to a Pakistani strain (Sar-55). All eight Chinese strains examined had very similar sequences (98.5-99.8% homology) in the regions examined and were much closer to the Pakistani strain (Sar-55) (97.9-98.4% homology) than to the Burmese strain (92.5-93.3% homology). Sequence comparisons of the three genomic regions in the Chinese strains indicated that the RNA polymerase region was much more conserved than the other nonstructural region or the structural region. HEV isolates from three remote geographic regions of China had sequences closely related to each other.     

Diversity of hepatitis E virus genotype 3

Hepatitis E virus genotype 3 (HEV‐3) can lead to chronic infection in immunocompromised patients, and ribavirin is the treatment of choice. Recently, mutations in the polymerase gene have been associated with ribavirin failure but their frequency before treatment according to HEV‐3 subtypes has not been studied on a large data set. We used single‐molecule real‐time sequencing technology to sequence 115 new complete genomes of HEV‐3 infecting French patients. We analyzed phylogenetic relationships, the length of the polyproline region, and mutations in the HEV polymerase gene. Eighty‐five (74%) were in the clade HEV‐3efg, 28 (24%) in HEV‐3chi clade, and 2 (2%) in HEV‐3ra clade. Using automated partitioning of maximum likelihood phylogenetic trees, complete genomes were classified into subtypes. Polyproline region length differs within HEV‐3 clades (from 189 to 315 nt). Investigating mutations in the polymerase gene, distinct polymorphisms between HEV‐3 subtypes were found (G1634R in 95% of HEV‐3e, G1634K in 56% of HEV‐3ra, and V1479I in all HEV‐3efg, clade HEV‐3ra, and HEV‐3k strains). Subtype‐specific polymorphisms in the HEV‐3 polymerase have been identified. Our study provides new complete genome sequences of HEV‐3 that could be useful for comparing strains circulating in humans and the animal reservoir.     

A broadly reactive one-step real-time RT-PCR assay for rapid and sensitive detection of hepatitis E virus

Hepatitis E virus (HEV) is transmitted by the fecal-oral route and causes sporadic and epidemic forms of acute hepatitis. Large waterborne HEV epidemics have been documented exclusively in developing countries. At least four major genotypes of HEV have been reported worldwide: genotype 1 (found primarily in Asian countries), genotype 2 (isolated from a single outbreak in Mexico), genotype 3 (identified in swine and humans in the United States and many other countries), and genotype 4 (identified in humans, swine and other animals in Asia). To better detect and quantitate different HEV strains that may be present in clinical and environmental samples, we developed a rapid and sensitive real-time RT-PCR assay for the detection of HEV RNA. Primers and probes for the real-time RT-PCR were selected based on the multiple sequence alignments of 27 sequences of the ORF3 region. Thirteen HEV isolates representing genotypes 1-4 were used to standardize the real-time RT-PCR assay. The TaqMan assay detected as few as four genome equivalent (GE) copies of HEV plasmid DNA and detected as low as 0.12 50% pig infectious dose (PID50) of swine HEV. Different concentrations of swine HEV (120-1.2PID50) spiked into a surface water concentrate were detected in the real-time RT-PCR assay. This is the first reporting of a broadly reactive TaqMan RT-PCR assay for the detection of HEV in clinical and environmental samples.     

Genetic variability and evolution of hepatitis E virus

Hepatitis E virus (HEV) is the sole member of the genus Hepevirus in the family Hepeviridae. HEV is transmitted primarily by the fecal-oral route, and water-borne epidemics are characteristic of hepatitis E in many developing countries in Asia, Africa and Latin America where sanitation conditions are suboptimal. Accumulating lines of evidence indicate that HEV-associated hepatitis also occurs domestically among individuals in industrialized countries, that there are animal reservoirs of HEV such as domestic pigs and wild boars, and that hepatitis E is a zoonosis. Based on the extensive genomic variability among HEV isolates, HEV sequences have been classified into four genotypes: genotype 1 consists of epidemic strains in developing countries in Asia and Africa; genotype 2 has been described in Mexico and several African countries; genotype 3 HEV is widely distributed and has been isolated from sporadic cases of acute hepatitis E and/or domestic pigs in many countries in the world, except for countries in Africa; and genotype 4 contains strains isolated from humans and/or domestic pigs exclusively in Asian countries. This paper reviews current knowledge on the genomic variability, geographic distribution and zoonotic aspects of HEV as well as the clinical significance of genotype and evolution of HEV.     

Reclassification of the Caliciviridae into distinct genera and exclusion of hepatitis E virus from the family on the basis of comparative phylogenetic analysis

Summary.  Caliciviridae and Picornaviridae belong to the same subphylum and genera within Picornaviridae are well characterized. Until 1998, Caliciviridae included one genus Calicivirus, containing strains with distinct structural and genomic features. Phylogenetic analyses of capsid genes revealed five clusters within Caliciviridae corresponding to differences in genome organization. In order to determine to what taxonomic level these clusters correspond, genomic sequences of caliciviruses, picornavirus prototypes, and two togavirus strains were analyzed. Distance and maximum likelihood methods were used to estimate the phylogenetic relationships among strains. Analysis of the capsid gene revealed separation of five main clusters (Norwalk-like, and Sapporo-like human caliciviruses, hepatitis E virus, vesicular exanthem of swine-like, and lapine caliciviruses) and distances corresponding to those observed among picornavirus genera. Utilizing more conserved (presumed helicase and polymerase) regions for the analyses, only major groups of caliciviruses were separated with confidence, with distances also comparable to those separating picornavirus genera. Anal- ysis in these regions that included togavirus sequences moved HEV strains out of the calicivirus cluster. Our findings support the reclassification of caliciviruses into four genera. The phylogenetic position of hepatitis E virus, by analysis of non-structural genes, is outside of the caliciviruses, in an uncertain taxonomic position. Received October 22, 1999 Accepted January 13, 2000     

烟台沿海地区人源和猪源戊型肝炎病毒基因型别的研究

目的调查烟台市沿海地区人源与猪源戊型肝炎病毒（HEV）基因型别的相关性。方法应用逆转录一巢式聚合酶联反应（RT—nPcR）方法对当地急性散发戊型肝炎患者、正常人群中抗HEV-IgM阳性者和当地养猪场的猪进行HEVRNA检测,并对HEVRNA阳性标本进行克隆测序和序列分析。结果16例急性散发戊型肝炎患者中有7例粪便标本HEVRNA阳性;51份IgM阳性正常人群血清标本中有1份HEVRNA阳性;34份猪胆汁标本中有1份HEVRNA阳性。序列分析发现该地区HEV人株与猪株在ORF2部分区域的核苷酸序列同源性为87％～98．1％。7株患者的戊肝病毒基因型和1株猪的戊肝病毒基因型均为Ⅳ型,基因序列同源性在87％～98．1％之间;其中有6例患者和猪的基因序列同源性在93．9％～98．1％之间,为Ⅳ型a亚型;1例患者和猪的基因序列同源性为87％,为Ⅳ型d亚型。正常人群的1例戊肝病毒基因型为Ⅰ型d亚型。该地区人与猪HEV的ORF2的部分基因片段与HEVⅠ～Ⅳ型的代表株进行比较,核苷酸序列同源性分别是82．5％～100％,81．7％～92．9％,81．4％～93．9％,84．9％～100％。结论该地区人群中流行的HEV存在2个基因型3个亚型,主要以基因Ⅳa型为主,与猪群中流行的HEV基因Ⅳa型同源性较高;HEVI型在人群中散在存在。     

Analysis of complete genome sequences of swine hepatitis E virus and possible risk factors for transmission of HEV to humans in Korea

The hepatitis E virus (HEV) is an emerging zoonotic agent, for which pigs are the most important reservoir. Complete genome sequences of two swine HEV strains, designated swKOR‐1 and swKOR‐2, were determined via RT‐PCR and RACE‐PCR. The strains contained genomes composed of 7,222‐ and 7,221‐bp excluding the poly(A) tails, respectively. The swKOR‐1 and swKOR‐2 strains were classified into subtype 3a of genotype 3 via phylogenetic analysis. These strains formed a distinctive cluster in the phylogenetic tree with human and swine HEVs isolated in the USA and human HEVs isolated in Japan. Anti‐HEV antibodies were identified via ELISA in 8 of 99 (8.1%) cats, whereas, among 115 cattle and 213 dogs, no HEV‐specific antibodies were detected. The conserved RNA‐dependent RNA polymerase (RdRp) gene of HEV could be detected via RT‐PCR in 8.7% of raw oysters collected from coastal regions in Korea. The HEV RNAs detected in oysters were identified as belonging to subtype 3a. The HEV RNAs in oysters most closely resembled that of the swKOR‐2 strain. They also showed a close genetic relationship with the swKOR‐1 strain and the swine and human HEVs isolated in the USA. This is the first report describing the detection in oysters of HEV that may have originated from genotype 3 swine HEV in Korea. Pigs and cats infected with HEV, as well as oysters contaminated with HEV, are potential risk factors for HEV transmission to humans. J. Med. Virol. 82:583–591, 2010. © 2010 Wiley‐Liss, Inc.     

Complete sequence of a Kyrgyzstan swine hepatitis E virus (HEV) isolated from a piglet thought to be experimentally infected with human HEV

Hepatitis E virus (HEV) was identified by RT-PCR amplification with degenerate ORF2 primers in the stool of a piglet experimentally inoculated with a stool suspension from a patient with acute hepatitis during an outbreak of non-A, non-B hepatitis in Kyrgyzstan. Further characterization by sequencing of the complete genome and phylogenetic analysis showed that the piglet isolate was most closely related to HEV genotype 3. Because the original human stool specimen used to inoculate the piglet was no longer available, stool samples from three patients obtained during the same outbreak were sequenced and found to be HEV genotype 1. These findings suggest that the HEV isolated from the swine stool was probably an HEV enzootic in Kyrgyzstan and not the virus inoculated from the human stool.     

Genetic characterization of the complete coding regions of genotype 3 hepatitis E virus isolated from Spanish swine herds

The complete coding regions of five hepatitis E virus isolates of swine origin from two different pig farms and the complete genome sequence of two of these strains were obtained and compared to other full length or partial HEV sequences. Based on the nucleotide sequence, the examined Spanish isolates were 87.1-99.7% similar among them being the closest known strain a Mongolian porcine strain (swMN06-C1056) which shares 84.5-86.1% of the nucleotide sequence, and are also close to other HEV porcine strains from Japan. Two isolates from the same farm presented an 87 nucleotide insertion in the poly-proline hinge unique among all HEV isolates known so far. Comparison with partial HEV sequenced strains indicates that the isolates described in this study form a cluster containing human and porcine HEV strains from Europe, being the only representatives of the subtype 3f that were completely sequenced. Evolutive pressure analysis indicates that microevolution of HEV seems to be driven by negative selection. Further studies should be carried out in order to clarify the HEV origin and evolution.