Species-specific RT-PCR amplification of human enteroviruses: a tool for rapid species identification of uncharacterized enteroviruses

Diversity of picornaviruses in rural Bolivia

The family Picornaviridae is a large and diverse group of viruses that infect humans and animals. Picornaviruses are among the most common infections of humans and cause a wide spectrum of acute human disease. This study began as an investigation of acute flaccid paralysis (AFP) in a small area of eastern Bolivia, where surveillance had identified a persistently high AFP rate in children. Stools were collected and diagnostic studies ruled out poliovirus. We tested stool specimens from 51 AFP cases and 34 healthy household or community contacts collected during 2002-2003 using real-time and semi-nested reverse transcription polymerase chain reaction assays for enterovirus, parechovirus, cardiovirus, kobuvirus, salivirus and cosavirus. Anecdotal reports suggested a temporal association with neurological disease in domestic pigs, so six porcine stools were also collected and tested with the same set of assays, with the addition of an assay for porcine teschovirus. A total of 126 picornaviruses were detected in 73 of 85 human individuals, consisting of 53 different picornavirus types encompassing five genera (all except Kobuvirus). All six porcine stools contained porcine and/or human picornaviruses. No single virus, or combination of viruses, specifically correlated with AFP; however, the study revealed a surprising complexity of enteric picornaviruses in a single community.

Specific primer amplification of the VP1 region directed by 5' UTR sequence analysis: enterovirus testing and identification in clinical samples from hand-foot-and-mouth disease patients

Many genotypes of the enterovirus (EV) pathogens can cause clinical hand-foot-and-mouth disease (HFMD). Therefore, rapid identification and monitoring of HFMD pathogens can be difficult, especially from the original clinical specimens. In this study, both universal pan-enterovirus and EV71/CA16 VP1-specific primer sets were designed and used to examine clinical specimens from HFMD patients. Based on the initial sequence analysis of the 5'-untanslated region (5'-UTR) and VP1 amplification products, additional primers for the VP1 region were redesigned for further genotyping of the remaining small portion non-EV71/non-CA16 specimens. With a known panel, it was possible to identify 15 out of 16 members using 5'-UTR sequence typing and VP1 typing, suggesting good detectability and genotyping of this method. One strain that was not typed by 5'-UTR was shown to be a recombinant virus. When this method was applied to examine clinical specimens from 44 suspected HFMD patients, 41 were detected as EV positive. In only one case, the VP1 sequence could not be identified. Four types of EVs, including CA16 (26/41, 63.4%), EV71-C4 (6/41, 14.6%), CA6 (5/41, 12.2%) and CA10 (3/41, 7.3%), were detected. In conclusion, 5' UTR amplification sequencing and subsequent VP1 specific primer amplification ensures a high detection rate and good genotyping accuracy in the examination of clinical samples. This detection strategy can be used for routine evaluation and monitoring of HFMD to follow local trends of EV infection.

High frequency and diversity of species C enteroviruses in Cameroon and neighboring countries

Human enteroviruses (HEVs) are endemic worldwide and among the most common viruses infecting humans. Nevertheless, there are very limited data on the circulation and genetic diversity of HEVs in developing countries and sub-Saharan Africa in particular. We investigated the circulation and genetic diversity of HEVs among 436 healthy children in a limited area of the far north region of Cameroon in 2008 and 2009. We also characterized the genetic biodiversity of 146 nonpolio enterovirus (NPEV) isolates obtained throughout the year 2008 from stool specimens of patients with acute flaccid paralysis (AFP) in Cameroon, Chad, and Gabon. We found a high rate of NPEV infections (36.9%) among healthy children in the far north region of Cameroon. Overall, 45 different HEV types were found among healthy children and AFP patients. Interestingly, this study uncovered a high rate of HEVs of species C (HEV-C) among all typed NPEVs: 63.1% (94/149) and 39.5% (49/124) in healthy children and AFP cases, respectively. Besides extensive circulation, the most prevalent HEV-C type, coxsackievirus A-13, featured a tremendous intratypic diversity. Africa-specific HEV lineages were discovered, including HEV-C lineages and the recently reported EV-A71 "genogroup E." Virtually all pathogenic circulating vaccine-derived polioviruses (cVDPVs) that have been fully characterized were recombinants between oral poliovaccine (OPV) strains and cocirculating HEV-C strains. The extensive circulation of diverse HEV-C types and lineages in countries where OPV is massively used constitutes a major viral factor that could promote the emergence of recombinant cVDPVs in the Central African subregion.

Characterizing the picornavirus landscape among synanthropic nonhuman primates in Bangladesh, 2007 to 2008

The term synanthropic describes organisms that thrive in human-altered habitats. Where synanthropic nonhuman primates (NHP) share an ecological niche with humans, cross-species transmission of infectious agents can occur. In Bangladesh, synanthropic NHP are found in villages, densely populated cities, religious sites, and protected forest areas. NHP are also kept as performing monkeys and pets. To investigate possible transmission of enteric picornaviruses between humans and NHP, we collected fecal specimens from five NHP taxa at16 locations in Bangladesh during five field sessions, from January 2007 to June 2008. Specimens were screened using real-time PCR assays for the genera Enterovirus, Parechovirus, and Sapelovirus; PCR-positive samples were typed by VP1 sequencing. To compare picornavirus diversity between humans and NHP, the same assays were applied to 211 human stool specimens collected in Bangladesh in 2007 to 2008 for acute flaccid paralysis surveillance. Picornaviruses were detected in 78 of 677 (11.5%) NHP fecal samples. Twenty distinct human enterovirus (EV) serotypes, two bovine EV types, six human parechovirus serotypes, and one virus related to Ljungan virus were identified. Twenty-five additional enteroviruses and eight parechoviruses could not be typed. Comparison of the picornavirus serotypes detected in NHP specimens with those detected in human specimens revealed considerable overlap. Strikingly, no known simian enteroviruses were detected among these NHP populations. In conclusion, enteroviruses and parechoviruses may be transmitted between humans and synanthropic NHP in Bangladesh, but the directionality of transmission is unknown. These findings may have important implications for the health of both human and NHP populations.

Isolation and genomic characterization of three enterovirus 90 strains in Shandong, China

Enterovirus 90 (EV90) is a newly identified serotype of the species Human enterovirus A, and few nucleotide sequences of EV90 are available. In this study, three EV90 strains were isolated from acute flaccid paralysis (AFP) cases in Shandong Province, China, in 2001 and 2003. Sequence analysis revealed 96.7-98.0 % VP1 nucleotide identity among themselves and 77.7-92.3 % to other EV90 strains. Complete genome analysis provided evidence of recombination in the non-capsid coding region of strain 01421. This is the first report of EV90 in China, and the low isolation rate suggests that it has not been a prevalent serotype in China.

Enteroviruses isolated from herpangina and hand-foot-and-mouth disease in Korean children

Hand-foot-and-mouth disease (HFMD) and herpangina are commonly prevalent illness in young children. They are similarly characterized by lesions on the skin and oral mucosa. Both diseases are associated with various enterovirus serotypes. In this study, enteroviruses from patients with these diseases in Korea in 2009 were isolated and analyzed. Demographic data for patients with HFMD and herpangina were compared and all enterovirus isolates were amplified in the VP1 region by reverse transcription-polymerase chain reaction and sequenced. Among the enterovirus isolates, prevalent agents were coxsackievirus A16 in HFMD and coxsackievirus A5 in herpangina. More prevalent months for HFMD were June (69.2%) and May (11.5%), and June (40.0%) and July (24.0%) for herpangina. Age prevalence of HFMD patients with enterovirus infection was 1 year (23.1%), 4 years (19.2%), and over 5 years (19.2%). However, the dominant age group of herpangina patients with enterovirus infection was 1 year (48.0%) followed by 2 years (28.0%). Comparison of pairwise VP1 nucleotide sequence alignment of all isolates within the same serotypes revealed high intra-type variation of CVA2 isolates (84.6–99.3% nucleotide identity). HFMD and herpangina showed differences in demographic data and serotypes of isolated enteroviruses, but there was no notable difference in amino acid sequences by clinical syndromes in multiple comparison of the partial VP1 gene sequence.

Genetic diversity and molecular characterization of enteroviruses from sewage-polluted urban and rural rivers in the Philippines

Despite the vast distribution and expansive diversity of enteroviruses reported globally, indicators defining a complete view of the epidemiology of enteroviruses in tropical countries such as the Philippines are yet to be established. Detection of enteroviruses in the environment has been one of the markers of circulating viruses in a community. This study aimed to bridge the gap in the epidemiology of enteroviruses in the Philippines by providing an overview of the occurrence of enteroviruses in both urban and rural rivers. Molecular detection directed at the VP1 region of the enterovirus genome was performed on 44 grab river water samples collected from April to December 2009. The majority of the enterovirus serotypes detected were clustered with human enterovirus C species (HEV-C; 21/42), followed by HEV-B (12/42) and HEV-A (9/42). Porcine enterovirus 9 was also found in 12 out of 44 water samples. Phylogenetic analysis indicated that the viruses detected were closely related, if not all forming a monophyletic clade, with those enteroviruses detected previously from acute flaccid paralysis cases in the country. The clustering of environmental and human enterovirus strains implies that the circulation of these strains were associated with river contamination. This study gives further evidence of the environmental persistence of enteroviruses once they are shed in feces and likewise, provides additional data which may help in understanding the epidemiology of enteroviruses in humans, highlighting the need for more studies on the potential public health risks linked with enteroviruses found in the environment and their eventual clinical consequences in the country.

Enterovirus co-infections and onychomadesis after hand, foot, and mouth disease, Spain, 2008

Mixed infection of enteroviruses may explain the rare complication of nail shedding.

Onychomadesis after HFMD

Hand, foot, and mouth disease (HFMD), a common disease caused by enteroviruses (EVs), usually affects children. Clustered and sporadic HFMD cases, followed by onychomadesis (nail shedding), occurred during summer and fall 2008 in Valencia, Spain. Fecal samples from onychomadesis patients, who did or did not have previous HFMD, and from healthy children exposed to onychomadesis patients tested positive for EV. The complete viral protein 1 capsid gene sequence was obtained for typing and phylogenetic analysis. Two EV serotypes, coxsackievirus A10 and coxsackievirus B1 (CVB1), were mainly detected as a monoinfection or co-infection in a childcare center where an onychomadesis outbreak occurred. On the basis of our results, and detection of CVB1 in 2 other contemporary onychomadesis outbreaks in childcare centers in Spain, we propose that mixed infection of an EV serotype that causes HFMD, plus the serotype CVB1, could explain the emergence after HFMD of onychomadesis, a rare and late complication.

Molecular detection and identification of enteroviruses in children admitted to a university hospital in Greece

Although enteroviral infections occur frequently during childhood, the circulation of particular serotypes has never been studied in Greece. The objectives of the present report were molecular detection and identification of human enteroviruses in children admitted with nonspecific febrile illness or meningitis to a university hospital during a 22-month period. A one-step Real-Time RT-PCR protocol was used for rapid enterovirus detection in genetic material extracted directly from clinical samples, and a sensitive reverse transcription-semi-nested PCR targeting part of the VP1-coding region was used for genotypic identification of the different serotypes. Twenty-one enterovirus strains were detected and identified in 20 stool samples, one cerebrospinal fluid (CSF) sample, one whole blood sample and one throat swab from 21 out of 134 febrile patients (15.7%). Ten strains belonged to Human Enterovirus Species B (HEV-B) (six serotypes) and eleven to HEV-A (four serotypes). Most of the strains were closely associated with virulent strains circulating in Europe and elsewhere. Detection of the emerging pathogen enterovirus 71 for a first time in Greece was particularly important.

The complete genome sequence of an enterovirus 76 isolate in China reveals a recombination event

Enterovirus 76 (EV76) is a new member of species Human Enterovirus A (HEV-A). So far, the only complete genome sequence of the prototype strain from France has been available. In this study, we determined the complete nucleotide sequence of strain 04360, isolated from an acute flaccid paralysis patient in Shandong province, China in 2004. Sequence analysis revealed 80.7-94.7% VP1 nucleotide identity to other EV76 strains and provided evidence of recombination with other types of HEV-A in the P2 and P3 coding regions.

Epidemics of enterovirus infection in Chungnam Korea, 2008 and 2009

Previously, we explored the epidemic pattern and molecular characterization of enteroviruses isolated in Chungnam, Korea from 2005 to 2006. The present study extended these observations to 2008 and 2009. In this study, enteroviruses showed similar seasonal prevalent pattern from summer to fall and age distribution to previous investigation. The most prevalent month was July: 42.9% in 2008 and 31.9% in 2009. The highest rate of enterovirus-positive samples occurred in children < 1-year-old-age. Enterovirus-positive samples were subjected to sequence determination of the VP1 region, which resolved the isolated enteroviruses into 10 types in 2008 (coxsackievirus A4, A16, B1, B3, echovirus 6, 7, 9, 11, 16, and 30) and 8 types in 2009 (coxsackievirus A2, A4, A5, A16, B1, B5, echovirus 11, and enterovirus 71). The most prevalent enterovirus serotype in 2008 and 2009 was echovirus 30 and coxsackievirus B1, respectively, whereas echovirus 18 and echovirus 5 were the most prevalent types in 2005 and 2006, respectively. Comparison of coxsackievirus B1 and B5 of prevalent enterovirus type in Korea in 2009 with reference strains of each same serotype were conducted to genetic analysis by a phylogenetic tree. The sequences of coxsackievirus B1 strains segregated into four distinct clusters (A, B, C, and D) with some temporal and regional sub-clustering. Most of Korean coxsackievirus B1 strains in 2008 and 2009 were in cluster D, while only "Kor08-CVB1-001CN" was cluster C. The coxsackievirus B5 strains segregated in five distinct genetic groups (clusters A-E) were supported by high bootstrap values. The Korean strains isolated in 2001 belonged to cluster D, whereas Korean strains isolated in 2005 and 2009 belonged to cluster E. Comparison of the VP1 amino acid sequences of the Korean coxsackievirus B5 isolates with reference strains revealed amino acid sequence substitutions at nine amino acid sequences (532, 562, 570, 571, 576-578, 582, 583, and 585).

An automated genotyping tool for enteroviruses and noroviruses

BACKGROUND

Molecular techniques are established as routine in virological laboratories and virus typing through (partial) sequence analysis is increasingly common. Quality assurance for the use of typing data requires harmonization of genotype nomenclature, and agreement on target genes, depending on the level of resolution required, and robustness of methods.

OBJECTIVE

To develop and validate web-based open-access typing-tools for enteroviruses and noroviruses.

STUDY DESIGN

An automated web-based typing algorithm was developed, starting with BLAST analysis of the query sequence against a reference set of sequences from viruses in the family Picornaviridae or Caliciviridae. The second step is phylogenetic analysis of the query sequence and a sub-set of the reference sequences, to assign the enterovirus type or norovirus genotype and/or variant, with profile alignment, construction of phylogenetic trees and bootstrap validation. Typing is performed on VP1 sequences of Human enterovirus A to D, and ORF1 and ORF2 sequences of genogroup I and II noroviruses. For validation, we used the tools to automatically type sequences in the RIVM and CDC enterovirus databases and the FBVE norovirus database.

RESULTS

Using the typing-tools, 785(99%) of 795 Enterovirus VP1 sequences, and 8154(98.5%) of 8342 norovirus sequences were typed in accordance with previously used methods. Subtyping into variants was achieved for 4439(78.4%) of 5838 NoV GII.4 sequences.

DISCUSSION AND CONCLUSIONS

The online typing-tools reliably assign genotypes for enteroviruses and noroviruses. The use of phylogenetic methods makes these tools robust to ongoing evolution. This should facilitate standardized genotyping and nomenclature in clinical and public health laboratories, thus supporting inter-laboratory comparisons.

Cocirculation of two transmission lineages of echovirus 6 in jinan, china, as revealed by environmental surveillance and sequence analysis

Enterovirus environmental surveillance on sewage from the city of Jinan, Shandong Province, China, was initiated in 2008. Thirty echovirus 6 (E6) strains-1 in 2008 and 29 in 2010-were isolated and identified. Most E6 isolates (n = 21) came from the sewage collected on August 2010, revealing high local E6 activity at that time. Interestingly, the VP1 sequences of most isolates, even from the same sewage, were not identical. Phylogenetic analysis of VP1 sequences revealed two lineages for these isolates, with 78.0 to 80.0% nucleotide identities with one another, 94.8 to 100.0% identity within the major lineage, and 92.7 to 98.5% identity within the minor one. The VP1 sequences of environmental isolates, clinical isolates from 1998 to 2010, and global E6 were subjected to evolutionary analysis using Bayesian phylodynamic methods. The inferred E6 VP1 ancestral sequence dated back to 1901 (range, 1873 to 1928) and evolved with 7.047 × 10(-3) substitutions per site per year. Shandong E6 segregated into three clusters, and the two environmental lineages belonged to clusters A and C, which originated in 2003 and 1992, respectively. The antigenicity analysis via neutralization assay confirmed great antigenic differences between Shandong isolates and a prototype strain. These findings underscore the value of continuous environmental surveillance and genetic analysis to monitor circulating enteroviruses in the population and give further insight into E6 evolution.

Molecular characterization of enterovirus 71 and coxsackievirus A16 using the 5′ untranslated region and VP1 region

Enterovirus 71 (EV71) and coxsackievirus A16 (CVA16) are members of the species Human enterovirus A, and are both major and independent aetiological agents of hand-foot-and-mouth disease. The human enterovirus (HEV) 5′ untranslated region (UTR) is fundamentally important for efficient virus replication and for virulence, whilst the VP1 region correlates well with antigenic typing by neutralization, and can be used for virus identification and evolutionary studies. A comparison was undertaken of the 5′UTR and VP1 nucleotide sequences of five EV71 clinical isolates and 10 CVA16 clinical isolates from one laboratory with the 5′UTR and VP1 sequences of 104 EV71 strains and 45 CVA16 strains available in GenBank. The genetic relationships were analysed using standard phylogenetic methods. The EV71 phylogenetic analysis showed that the VP1 sequences were clustered into three genogroups, A, B and C, with genogroups B and C further divided into five subgenogroups, B1–B5 and C1–C5, respectively. All EV71 strains were clustered similarly in the 5′UTR and VP1 trees, except for one Taiwanese strain, which demonstrated different clustering in the two trees, suggesting a recombination event in the phylogeny. The CVA16 phylogenetic analysis showed that the VP1 sequences were clustered into two genogroups, A and B, with genogroup B further divided into B1 (B1a and B1b), B2 and a possible B3; and that a similar pattern and grouping of all strains were displayed in the 5′UTR tree. This study demonstrated that comparing the two regions provides evidence of epidemiological linkage of HEV-A strains, and that mutation in the two regions plays a vital role in the evolution of these viruses. The combination of molecular typing and phylogenetic sequence analysis will be beneficial in both individual patient diagnosis and public health measures.

The complete genome analysis of two enterovirus 96 strains isolated in China in 2005 and 2009

Enterovirus 96 (EV96) is a new member of species Human Enterovirus C (HEV-C). In this report, genomic characterization of two EV96 strains isolated from acute flaccid paralysis surveillance in Shandong province of China in 2005 and 2009 is described. The two strains, designated 05517 and 09228C1, had 82.7% genomic similarity with each other and 75.1-84.2% with other three strains available from GenBank in complete genome sequences. In VP1 coding region, they had 77.6-86.6% nucleotide similarity with other EV96 strains. Interestingly, deletions of 3 nucleotides in the VP3 coding region of strain 09228C1, and of 3 nucleotides in the 3A region of both Shandong strains were observed. Simplot and bootscanning analysis on HEV-C genome sequences were performed, and evidence of recombination in P3 region for Shandong EV96 strains was found. In conclusion, these strains had distant genetic relationship with each other and with other EV96 strains.

Evolution of newly described enteroviruses

Several new enterovirus serotypes and a new human rhinovirus species have been characterized in the Enterovirus genus recently, raising a question about the origin of the new viruses. In this article we attempt to outline the general patterns of enterovirus evolution, ultimately leading to the emergence of new serotypes or species. Different evolutionary and epidemiological patterns can be deduced between different enterovirus species, between entero- and rhino-viruses and between different serotypes within a species. This article presents a hypothesis that the divergent evolution leading to a new serotype is likely to involve adaptation to a new ecological niche either within a single host species or due to interspecies transmission. By contrast, evolution within a serotype appears to occur primarily by genetic drift.

Molecular identification of human enteroviruses in children with neurological infections from the central region of Argentina

In the central area of Argentina, epidemiological and molecular characteristics of human enterovirus infections are still unknown. RT-nested PCR of the highly conserved 5'NCR was used to detect enteroviruses in 168 samples of cerebrospinal fluid from hospitalized patients with suspected infection of the central nervous system (2007-2008), and 13 (7.7%) were positive. Molecular typing was performed by sequencing of the 3'-half VP1 region. Echovirus 30 was the predominant type detected, followed by coxsackie viruses A9 and B4. All echovirus 30 strains of 2007 clustered in lineage H, whereas the echovirus 30 isolate obtained in 2008 was more distantly related, possibly representing a new lineage.

Genomic characterization of an enterovirus 97 strain isolated in Shandong, China

The genomic characterization of human enterovirus 97 (EV97) strain isolated from an acute flaccid paralysis case in Shandong province, China in 1999, is described. The strain, designated as 99188/SD/CHN/1999/EV97 (abbreviated as 99188), had a genome of 7394 nucleotides. Compared with other EV97 strains, it had 81.3-83.3% nucleotide similarity and 94.0-95.4% amino acid similarity in VP1 coding region, and it had 81.4% complete genomic similarity with prototype strain BAN99-10355. The most striking feature was the deletion of 18 nucleotides in the 3' end of VP1 coding region, combined with two deletions and one insertion in 5' and 3' untranslated regions. All these findings demonstrated the strain 99188 had a distant genetic relationship with other EV97 strains. In the phylogenetic trees generated from VP1 and 3D sequences of human enterovirus species B (HEV-B), the lineages of strain 99188 were not congruent, suggesting the event of recombination. Similarity plot analysis further provided the evidence of recombination with other strains of HEV-B in P2 and P3 coding region. This is the first finding of EV97 in China and the third genomic sequence of EV97 reported.

Inadequately treated wastewater as a source of human enteric viruses in the environment

Human enteric viruses are causative agents in both developed and developing countries of many non-bacterial gastrointestinal tract infections, respiratory tract infections, conjunctivitis, hepatitis and other more serious infections with high morbidity and mortality in immunocompromised individuals such as meningitis, encephalitis and paralysis. Human enteric viruses infect and replicate in the gastrointestinal tract of their hosts and are released in large quantities in the stools of infected individuals. The discharge of inadequately treated sewage effluents is the most common source of enteric viral pathogens in aquatic environments. Due to the lack of correlation between the inactivation rates of bacterial indicators and viral pathogens, human adenoviruses have been proposed as a suitable index for the effective indication of viral contaminants in aquatic environments. This paper reviews the major genera of pathogenic human enteric viruses, their pathogenicity and epidemiology, as well as the role of wastewater effluents in their transmission.

Molecular identification and analysis of nonserotypeable human enteroviruses

Conventional approaches to characterizing human enteroviruses (HEVs) are based on viral isolation and neutralization. Molecular typing methods depend largely on reverse transcription-PCR (RT-PCR) and nucleotide sequencing of the entire or partial VP1 gene. A modified RT-PCR-based reverse line blot (RLB) hybridization assay was developed as a rapid and efficient way to characterize common and nonserotypeable (by neutralization) HEVs. Twenty HEV serotypes accounted for 87.1% of all HEVs isolated at a reference laboratory from 1979 to 2007; these common serotypes were identified using one sense and three antisense primers and a set of 80 serotype-specific probes in VP1 (F. Zhou et al., J. Clin. Microbiol. 47:2737-2743, 2009). In this study, one HEV-specific primer pair, two probes in the 5' untranslated region (UTR), and a new set of 80 serotype-specific probes in VP1 were designed. First, we successfully applied the modified RT-PCR-RLB (using two HEV-specific probes and two sets of serotype-specific probes) to synchronously detect the 5' UTR and VP1 regions of 131/132 isolates previously studied (F. Zhou et al., J. Clin. Microbiol. 47:2737-2743, 2009). Then, this method was used to identify 73/92 nonserotypeable HEV isolates; 19 nonserotypeable isolates were hybridized only with HEV-specific probes. The VP1 region of 92 nonserotypeable HEV isolates was sequenced; 73 sequences corresponded with one or both RLB results and 19 (not belonging to the 20 most common genotypes) were identified only by sequencing. Two sets of serotype-specific probes can capture the majority of strains belonging to the 20 most common serotypes/genotypes simultaneously or complementarily. Synchronous detection of the 5' UTR and VP1 region by RT-PCR-RLB will facilitate the identification of HEVs, especially nonserotypeable isolates.

Enteroviruses in Spain over the decade 1998-2007: virological and epidemiological studies

BACKGROUND

Human enteroviruses (HEV) are the commonest cause of viral meningitis as well as other pathologies, therefore HEV characterization is important both in patient management and epidemiological investigation.

OBJECTIVES

A 10-year study of patients with enteroviral infection was carried out in Spain to determine the underlying etiology.

STUDY DESIGN

HEV were fully typed by microneutralisation tests and/or molecular methods.

RESULTS

A collection of 86404 clinical samples were studied in several Spanish laboratories. These were collected from patients with different syndromes, mainly aseptic meningitis (AM), fever, respiratory diseases and acute flaccid paralysis. Of these, 6867 HEV were obtained. At the National Poliovirus Laboratory 2814 were serotypically characterised. Among non-polio enteroviruses, the eight main serotypes were Echovirus 30 (25%), Echovirus 6 (12.4%), Echovirus 13 (8.3%), Echovirus 11 (7.4%) and Echovirus 9 (4.7%), followed by Coxsackievirus B5 (4.2%) and Echovirus 7 and Coxsackievirus A9 (3.7%) each. In AM cases, Echovirus 30 was identified in 39% of them, followed by Echovirus 6 (14%). However, Echovirus 6 was mainly associated with respiratory disease (17%), followed by Echovirus 11 (10%). On the other hand, Echovirus 30, Echovirus 11 and Echovirus 6 contributed equally with 12% of each serotype in the cases of fever.

CONCLUSIONS

The present report complements previous data (Trallero et al.(13)), with the results of HEV incidence in Spain from 1998 to 2007. The surveillance described in this study provided valuable information as to which serotypes are in circulation, the emergence of new HEV and association with clinical manifestations.

A Sabin 2-related poliovirus recombinant contains a homologous sequence of human enterovirus species C in the viral polymerase coding region

A type 2 vaccine-related poliovirus (strain CHN3024), differing from the Sabin 2 strain by 0.44% in the VP1 coding region was isolated from a patient with vaccine-associated paralytic poliomyelitis. Sequences downstream of nucleotide position 6735 (3D(pol) coding region) were derived from an unidentified sequence; no close match for a potential parent was found, but it could be classified into a non-polio human enteroviruses species C (HEV-C) phylogeny. The virus differed antigenically from the parental Sabin strain, having an amino acid substitution in the neutralizing antigenic site 1. The similarity between CHN3024 and Sabin 2 sequences suggests that the recombination was recent; this is supported by the estimation that the initiating OPV dose was given only 36-75 days before sampling. The patient's clinical manifestations, intratypic differentiation examination, and whole-genome sequencing showed that this recombinant exhibited characteristics of neurovirulent vaccine-derived polioviruses (VDPV), which may, thus, pose a potential threat to a polio-free world.

Quantitative real-time PCR analysis of total and propidium monoazide-resistant fecal indicator bacteria in wastewater

A real-time quantitative PCR (qPCR) method and a modification of this method incorporating pretreatment of samples with propidium monoazide (PMA) were evaluated for respective analyses of total and presumptively viable Enterococcus and Bacteroidales fecal indicator bacteria. These methods were used in the analyses of wastewater samples to investigate their feasibility as alternatives to current fecal indicator bacteria culture methods for predicting the efficiency of viral pathogen removal by standard treatment processes. PMA treatment was effective in preventing qPCR detection of target sequences from non-viable cells. Concentrates of small volume, secondary-treated wastewater samples, collected from a publicly owned treatment works (POTW) under normal operating conditions, had little influence on this effectiveness. Higher levels of total suspended solids, such as those associated with normal primary treatment and all treatment stages during storm flow events, appeared to interfere with PMA effectiveness under the sample preparation conditions employed. During normal operating conditions at three different POTWs, greater reductions were observed in PMA-qPCR detectable target sequences of both Enterococcus and Bacteroidales than in total qPCR detectable sequences. These reductions were not as great as those observed for cultivable fecal indicator bacteria in response to wastewater disinfection. Reductions of PMA-qPCR as well as total qPCR detectable target sequences from enterococci and, to a lesser extent, Bacteroidales correlated well with reductions in infectious viruses during both normal and storm flow operating conditions and therefore may have predictive value in determining the efficiency at which these pathogens are removed.

Identification of 20 common human enterovirus serotypes by use of a reverse transcription-PCR-based reverse line blot hybridization assay

The more than 100 human enterovirus (HEV) serotypes can also be classified into four species, HEV-A to -D, based on phylogenetic analysis of multiple gene regions. Current molecular typing methods depend largely on reverse transcription-PCR (RT-PCR) amplification and nucleotide sequencing of the entire or 3' half of the VP1 gene. An RT-PCR-based reverse line blot (RLB) hybridization assay was developed as a rapid and efficient approach to characterize common HEVs. Twenty HEV serotypes accounted for 87.1% of all HEVs isolated at an Australian reference virology laboratory from 1979 to 2007. VP1 sequences of all known HEV prototype strains were aligned to design one sense primer and three antisense primers for RT-PCR. After sequencing of the complete VP1 genes of 37 previously serotyped examples of the commonest 20 serotypes and alignment of these VP1 sequences with GenBank sequences, four serotype-specific probes for each serotype were designed for RLB. The RT-PCR-RLB assay was then applied to 132 HEV isolates, made up of the previously sequenced 37 isolates and another 95 serotyped clinical isolates. The RT-PCR-RLB genotypes corresponded with the serotypes for 131/132 isolates; the one exception was confirmed by VP1 sequencing, and the genotype was confirmed by repeat conventional serotyping. Genotyping by RT-PCR-RLB complements traditional serotyping methods and VP1 sequencing and has the advantages of convenience, speed, and accuracy. RT-PCR-RLB allows detection of specific enteroviral serotypes or genotypes associated with HEV outbreaks and significant disease.

An algorithm for the typing of enteroviruses and correlation to serotyping by viral neutralization

BACKGROUND

Human enteroviruses (HEVs) are common pathogens which cause a broad spectrum of illnesses ranging from asymptomatic infection to acute myocarditis and aseptic meningitis. The neutralization assay for serotype determination is labor-intensive and time-consuming. There is a need for a methodology that is more rapid and widely accessible.

OBJECTIVES

Our goals were to develop an algorithm to type enteroviruses which combines both serologic typing, based on indirect immunofluorescence assay (IFA) using type-specific monoclonal antibodies (mAbs) and genotyping, by DNA sequence analysis and to assess the correlation of both IFA and genotyping to traditional viral neutralization by type-specific antisera.

STUDY DESIGN

Clinical specimens initially determined to be enterovirus positive by nucleic acid detection were grown in cell culture and typed using mAbs. Specimens that could not be typed by mAbs were subject to molecular analysis. Genotyping was performed by a combination of either a primary or semi-nested RT-PCR for a region within VP3/VP1 and followed by direct DNA sequencing of PCR products. Database homology comparisons and phylogenetic analysis were performed based on a defined region (303 nt) within the VP1 gene.

RESULTS

We inoculated 134 enterovirus nucleic acid amplification-positive specimens into culture and 115 (86%) of these isolates were successfully typed by this algorithm. We have demonstrated a strong correlation between serotyping by viral neutralization to both IFA by type-specific mAbs and genotyping.

CONCLUSIONS

Typing of human enteroviruses can be effectively performed using an integration of antibody-based and molecular methods.

The complete genome sequences for a novel enterovirus type, enterovirus 96, reflect multiple recombinations

Enterovirus 96 (EV-96) is a recently described genotype in the species Human enterovirus C. So far, only partial genome sequences of this enterovirus type have been available. In this study, we report complete genome sequences for two EV-96 strains isolated from healthy children during enterovirus surveillance in Finland. Sequence analysis revealed substantial nucleotide divergence between EV-96 strains and suggested several recombination events between EV-96 and other HEV-C types.

Human rhinoviruses: coming in from the cold

Rhinovirus infections cause at least 70% of virus-related wheezing exacerbations and cold and flu-like illnesses. Infections are also associated with otitis media, sinusitis and pneumonia. The annual impact of human rhinovirus (HRV) infections costs billions of healthcare dollars. To date, 100 serotyped HRV or 'classical' strains have been divided between two genetically distinct species based on subgenomic sequences, but many more, apparently novel strains remain un-characterized, circulating in unknown patterns and causing undefined illnesses. Until recently, the genomes of less than half the classical strains had been sequenced. In April 2009, the remaining classical HRV genome sequences were reported. These data will inform therapeutic development and phylogenetic analysis for this subset of HRV strains but should be viewed as one step in a long road leading to comprehensive HRV characterization.

Resolving ambiguities in genetic typing of human enterovirus species C clinical isolates and identification of enterovirus 96, 99 and 102

Molecular methods, based on sequencing the region encoding the VP1 major capsid protein, have recently become the gold standard for enterovirus typing. In the most commonly used scheme, sequences more than 75% identical (>85% amino acid identity) in complete or partial VP1 sequence are considered to represent the same type. However, as sequence data have accumulated, it has become clear that the '75%/85% rule' may not be universally applicable. To address this issue, we have determined nucleotide sequences for the complete P1 capsid region of a collection of 53 isolates from the species Human enterovirus C (HEV-C), comparing them with each other and with those of 20 reference strains. Pairwise identities, similarity plots and phylogenetic reconstructions identified three potential new enterovirus types, EV96, EV99 and EV102. When pairwise sequence comparisons were considered in aggregate, there was overlap in percentage identity between comparisons of homotypic strains and heterotypic strains. In particular, the differences between coxsackievirus (CV) A13 and CVA17, CVA24 and EV99, and CVA20 and EV102 were difficult to discern, largely because of intratypic sequence diversity. Closer inspection revealed the minimum intratypic values and maximum intratypic values varied by type, suggesting that the rules were at least consistent within a type. By plotting VP1 amino acid identity vs nucleotide identity for each sequence pair and considering each type separately, members of each type were fully resolved from those of other types. This study suggests that a more stringent value of 88% VP1 amino acid identity is more appropriate for routine typing and that other criteria may need to be applied, on a case by case basis, where lower values are seen.

[Application of molecular methods in the diagnosis and epidemiological study of viral respiratory infections]

Hasta la fecha se han identificado más de 200 virus pertenecientes a 6 familias taxonómicas diferentes asociados con la infección del tracto respiratorio humano. La utilización generalizada de métodos moleculares en los laboratorios de microbiología clínica no sólo ha aportado grandes ventajas al diagnóstico de estas infecciones, sino también está permitiendo profundizar en el conocimiento de la enfermedad y el comportamiento epidemiológico de los virus causantes. Esta tecnología incrementa de manera notable el rendimiento de detección de virus en las muestras respiratorias, debido a su elevada sensibilidad en comparación con las técnicas clásicas y a la posibilidad de identificar virus no cultivables o de crecimiento fastidioso en las líneas celulares habituales, lo que permite realizar el diagnóstico etiológico con mayor rapidez. Sin embargo, también comporta algunos inconvenientes, como son detectar virus que se encuentran colonizando la mucosa respiratoria de personas asintomáticas, o en secreciones de pacientes que ya se han recuperado de una infección pasada, a consecuencia de excreción prolongada de éstos. La secuenciación de los productos obtenidos en la reacción de amplificación genómica permite caracterizar de forma adicional los virus detectados mediante su genotipado, realizar estudios de epidemiología molecular e identificar resistencias a determinados antivirales, por citar sólo algunos ejemplos.

Echovírus 6 associado à doença exantemática

Exantema viral é considerado problema comum em regiões tropicais, afetando principalmente crianças. Diversos exantemas cutâneos estão associados a infecções por Enterovirus. Amostras biológicas provenientes de uma criança apresentando exantema generalizado foram enviadas ao Laboratório de Vírus Entéricos do Instituto Adolfo Lutz para a realização do diagnóstico laboratorial. Amostra viral isolada em RD (human rhabdomyosarcoma cells) foi submetida à reação em cadeia pela polimerase apresentando um produto de 437 pares de base, característico de gênero Enterovirus. O sorotipo echovirus 6 (E-6) foi identificado por ensaio de imunofluorescência indireta. Em adição, as amostras pareadas de soro apresentaram soroconversão para E-6. Até o momento, não há relatos do envolvimento de E-6 associado a doenças exantemáticas no Brasil, enfatizando a importância da vigilância epidemiológica para essas doenças e suas complicações.

The complete genome sequences for three simian enteroviruses isolated from captive primates

In a recent study, we used RT-PCR and partial genome sequencing to detect simian enteroviruses SV6, SV19 and SV46, as well as two new enterovirus types (EV92 and EV103) in fecal specimens from rhesus macaques (Macaca mulatta), pigtail macaques (M. nemestrina), and sooty mangabeys (Cercocebus atys) with diarrheal disease at a US primate center. The complete genome sequences of representative SV46, EV92, and EV103 strains, presented here, show that SV46 and EV92 are typical of the simian enteroviruses classified within the species Human enterovirus A, while EV103 appears to belong to an unclassified species that also contains SV6 and N125/N203.

Molecular characterization of a coxsackievirus A24 variant that caused an outbreak of acute haemorrhagic conjunctivitis in Spain, 2004

BACKGROUND

Coxsackievirus A24 variant is one of the major etiological agents involved in acute haemorrhagic conjunctivitis.

STUDY DESIGN

An outbreak of acute hemorrhagic conjunctivitis occurred in the Southeast of Spain between September and November 2004. Cellular and molecular methods were used to identify and characterize the viral agent associated with the epidemic.

RESULTS

Enterovirus was detected in the conjunctival swabs of 35 patients. None of the viruses isolated could be typed by conventional neutralization assays; however, amplification and sequencing of the 3'-end VP1 region of 19 of the samples identified coxsackievirus A24 variant as the serotype causing the outbreak. Phylogenetic analysis of the 5'-half VP1 region of the genome revealed that Spanish sequences, like other strains isolated during outbreaks of hemorrhagic conjunctivitis in American and African countries in 2003 and 2004, were closely related to the isolates detected in Korea (2002), thus proving their worldwide spread.

CONCLUSIONS

This is the first report of an epidemic of acute hemorrhagic conjunctivitis due to a coxsackievirus A24 variant in Spain. Molecular typing in combination with phylogenetic analysis is useful to study the enterovirus epidemiology associated with epidemics.

The circulation of subgenogroups B5 and C5 of enterovirus 71 in Taiwan from 2006 to 2007

Enteroviruses (EVs) are among the most common pathogens in humans. EV71 infections have caused devastating enterovirus-associated outcomes in children globally. In this study, eleven EV71 isolates in Taiwan during 2006-2007 were selected for N-terminal VP1 gene analysis. A fragment of 403 bp on VP1 gene was sequenced and a phylogenetic analysis was performed. In addition, the full-length genome sequencing was carried out on two selected isolates. The results showed that subgenogroups of B5 and C5 had circulated and become predominant in Taiwan over the specified 2 years. Moreover, glutamic acid and threonine are found conservative at positions 43 and 58 on VP1 for genogroup B; however they are replaced by lysine and alanine, respectively, for genogroup C. To our knowledge, this is the first report describing the circulation of these two EV71 subgenogroups in Taiwan.

Isolation of sabin-like polioviruses from wastewater in a country using inactivated polio vaccine

From 2001 to 2004, Switzerland switched from routine vaccination with oral polio vaccine (OPV) to inactivated polio vaccine (IPV), using both vaccines in the intervening period. Since IPV is less effective at inducing mucosal immunity than OPV, this change might allow imported poliovirus to circulate undetected more easily in an increasingly IPV-immunized population. Environmental monitoring is a recognized tool for identifying polioviruses in a community. To look for evidence of poliovirus circulation following cessation of OPV use, two sewage treatment plants located in the Zurich area were sampled from 2004 to 2006. Following virus isolation using either RD or L20B cells, enteroviruses and polioviruses were identified by reverse transcription-PCR. A total of 20 out of 174 wastewater samples were positive for 62 Sabin-like isolates. One isolate from each poliovirus-positive sample was analyzed in more detail. Sequencing the complete viral protein 1 (VP1) capsid coding region, as well as intratypic differentiation (ITD), identified 3 Sabin type 1, 13 Sabin type 2, and 4 Sabin type 3 strains. One serotype 1 strain showed a discordant result in the ITD. Three-quarters of the strains showed mutations within the 5' untranslated region and VP1, known to be associated with reversion to virulence. Moreover, three strains showed heterotypic recombination (S2/S1 and S3/S2/S3). The low number of synonymous mutations and the partial temperature sensitivity are not consistent with extended circulation of these Sabin virus strains. Nevertheless, the continuous introduction of polioviruses into the community emphasizes the necessity for uninterrupted child vaccination to maintain high herd immunity.

Molecular epidemiological study of HEV-B enteroviruses involved in the increase in meningitis cases occurred in Spain during 2006

Human enteroviruses are one of the main etiological agents of aseptic meningitis and other central nervous system infections, particularly the serotypes included in the enterovirus B species. Molecular methods have proved useful to identify serotypes in clinical samples, facilitating the epidemiological study of these viruses. In the spring of 2006, there was a significant increase in meningitis cases caused by enteroviruses in Spain. In the present study, 138 enteroviruses directly detected in clinical samples of patients with aseptic meningitis (n = 116) and other neurological pathologies (n = 22) received by the National Center for Microbiology during the year, were genotyped by amplification and sequencing part of the VP1 region and phylogenetic analysis. Echovirus 30 was the most frequent serotype, followed in decreasing order by echovirus 6, 9, 13, 18, enterovirus 75, coxsackievirus A9, echovirus 11, 14, 29, 4, and coxsackievirus B4 and B5. Phylogenetic analysis with all Spanish echovirus 30 strains detected in 2006 and other reported echovirus 30 sequences, demonstrated that Spanish strains formed a new lineage, different from others previously described. In conclusion, echovirus 30 is the most commonly reported enterovirus serotype associated with aseptic meningitis in Spain. Direct molecular typing of clinical samples also allows rapid identification of the serotypes involved in an epidemic alert and phylogenetic analysis in the 3'-VP1 region is useful to study viral epidemiology.

Molecular typing and epidemiology of non-polio enteroviruses isolated from Yunnan Province, the People's Republic of China

This report presents an overview of human enteroviruses in Yunnan Province, the People's Republic of China. A total of 210 non-polioviruses isolated under acute flaccid paralysis (AFP) surveillance during a total study period of 5 years--1997 to 2000 and 2004--were examined. Of the 210 non-poliovirus isolates, 12 adenoviruses were serologically identified, and the remaining 198 isolates were used for molecular typing. The viral genomes of 195 non-polio enteroviruses (NPEVs) on VP1 partial region of virus capsid were translated to the corresponding amino acid sequences; these were compared with those of prototype strains. Based on molecular typing, 5 isolates were classified into 5 serotypes of the human enterovirus A species, 158 isolates, into 35 serotypes of the human enterovirus B species; and 32 isolates, into 6 serotypes of the human enterovirus C species. Viruses belonging to the human enterovirus D species were not isolated. Thus, under AFP surveillance, the human enterovirus B species accounted for 75.2% of the 210 isolates, and it was considered the predominant species. This was followed by human enterovirus C (12.2%), adenovirus (5.7%), and human enterovirus A (2.4%). Further, molecular analysis suggested that several serotypes of human enteroviruses B and C that exhibited genetic polymorphism were indigenous. Molecular typing methods may aid in understanding the epidemiology of NPEVs in Yunnan Province.

Complete genome sequences for nine simian enteroviruses

Analysis of the VP1 capsid-coding sequences of the simian picornaviruses has suggested that baboon enterovirus (BaEV), SV19, SV43 and SV46 belong to the species Human enterovirus A (HEV-A) and SA5 belongs to HEV-B, whereas SV4/A2 plaque virus (two isolates of a single serotype), SV6 and N125/N203 (two isolates of a single serotype) appear to represent new species in the genus. We have further characterized by complete genomic sequencing the genetic relationships among the simian enteroviruses serotypes (BaEV, N125/N203, SA5, SV4/A2 plaque virus, SV6, SV19, SV43 and SV46) and to other enteroviruses. Phylogenetic and pairwise sequence relationships for the P1 region paralleled those of VP1 alone, and confirmed that SV4/A-2 plaque virus, SV6 and N125/N203 represent unique genetic clusters that probably correspond to three new species. However, sequence relationships in the P2 and P3 regions were quite different. In 2C, SV19, SV43 and SV46 remain clustered with the human viruses of HEV-A, but BaEV, SV6 and N125/N203 cluster together; in 3CD, SA5 (HEV-B) also joined this cluster. The 3'-non-translated region (NTR) sequences are highly conserved within each of the four human enterovirus species, but the 3'-NTRs of the simian enteroviruses are distinct from those of all human enteroviruses and generally distinct from one another. These results suggest that host species may have a significant influence on the evolution of enterovirus non-capsid sequences.

Echovirus 6 associated to aseptic meningitis outbreak, in São Joaquim da Barra, São Paulo, Brazil

An aseptic meningitis outbreak occurred during a period from February to May 2004 in São Joaquim da Barra, a town in the northern region of São Paulo State. A total of 40 cases were reported to the Epidemiological Surveillance Center of São Paulo State. Cerebrospinal fluid samples obtained from 23 patients were sent to the Adolfo Lutz Institute for isolation of the virus. These samples were inoculated into RD, HEp2 and Vero cell lineages and those presenting a cytopathogenic effect were selected for analysis by indirect immunofluorescence assay (IFA), neutralization testing (Nt) and reverse transcriptase-polymerase chain reaction (RT-PCR). Cytopathogenic effects were observed in 52.2% (12/23) of these samples. All isolated viruses were identified as human enterovirus by IFA and RT-PCR and echovirus 6 was typed by IFA and Nt. Our results confirmed the participation and importance of echovirus as the etiological agent responsible for this outbreak and the serotype diversity of human enteroviruses circulating in São Paulo State.

Identification of enterovirus serotypes by pyrosequencing using multiple sequencing primers

Human enteroviruses (HEV) are considered as one of the major causes of central nervous system infections in pediatrics. They are currently classified into five species involving more than 60 officially recognized serotypes. This study describes a rapid molecular method, based on pyrosequencing of a VP1 fragment, for the identification of enterovirus serotypes. In order to do so, 200 isolates and clinical specimens that were first grouped into 62 different HEV serotypes using neutralization test, were analyzed by pyrosequencing. All serotypes were identified using the proposed method. Most of the isolates previously untypeable by classical procedures, as well as mixed enterovirus infections containing viruses belonging to different species, could also be determined using pyrosequencing. The present results give support to pyrosequencing as an efficient method of HEV genotyping.

Development and implementation of real-time nucleic acid amplification for the detection of enterovirus infections in comparison to rapid culture of various clinical specimens

Several real-time PCR and nucleic acid sequence-based amplification (NASBA) primer pairs and a modified real-time PCR primer pair for the detection of enteroviruses were compared. The modified real-time PCR primer pair was evaluated on clinical samples in comparison with cell culture using the MagnaPure LC Isolation instrument for nucleic acid extraction. Six hundred forty samples could be examined both by cell culture and real-time PCR. Faecal specimens (n = 285), cerebrospinal fluid (n = 210), throat swabs (n = 113), biopsies (n = 1--, vesicular fluid (n = 11), and pleural fluid specimens (n = 9) were included. By culture, 26/640 (4%) samples were positive for enterovirus. By real-time PCR, the number of positive specimens was 50 (7.8%). Of the 210 cerebrospinal fluid samples, three were positive by culture and nine by real-time PCR. Seventeen and 33 of a total of 285 faecal specimens were positive by culture and real-time PCR, respectively. In case of discrepant results, the clinical symptoms were in accordance with an infection due to enteroviruses. Genotyping using the VP1 gene correlated with serotyping by neutralization. In contrast, six of the 19 specimens that could be typed both by neutralization and by sequencing using the VP4 domain yielded a different genotype, yet within the same species. Real-time PCR turned out to be suitable for the detection of enteroviruses in the daily routine setting. In comparison to rapid culture, it offers a rapid, more sensitive, and reliable assay; especially in cerebrospinal fluid, the yield of enteroviruses is much higher.

Epidemiological survey of enterovirus infections occurring in Taiwan between 2000 and 2005: analysis of sentinel physician surveillance data

Enterovirus (EV) infections are common. There are more than 60 known serotypes, and each has different epidemiologic or medical importance. Over 700 physicians from 75% of basic administrative units of Taiwan participated in the "Sentinel Physician Surveillance of Infectious Disease" and reported weekly to the Center for Disease Control-Taiwan with data on various infections. Data of laboratory-confirmed EV infections from this surveillance between 2000 and 2005 was analyzed. EV serotypes were determined by immunofluorescence staining and/or viral VP1 sequence analysis. A total of 12,236 EV cases, or approximately 1,300-2,500 per year, were identified, and 52% of the cases occurred between April and July. The median age was 3 years, and 57.6% of patients were male. Coxsackievirus A (CA) 16 and EV71, which primarily manifest as hand-foot-and-mouth disease, were the most prevalent serotypes every year except 2004. Other prevalent serotypes and associated symptoms varied from year to year. Echovirus (E) 30 and E6, which are associated with aseptic meningitis, were prevalent in 2001 and 2002, CA4 and CA10, which cause herpangina, were predominant in 2004, and coxsackievirus B (CB) 4 and CB3, which are associated with neonatal febrile disease, were most common in 2004 and 2005, respectively. Some of these epidemics overlapped with outbreaks of the same serotypes in other Asian Pacific countries. Of all serotypes, EV71 was associated with the highest number of severe complications in patients. Surveying the epidemic pattern, disease spectra, and severity associated with each EV serotype provided important information for public health and medical personnel.

Enterovirus surveillance reveals proposed new serotypes and provides new insight into enterovirus 5'-untranslated region evolution

Human enteroviruses are currently grouped into five species Human enterovirus A (HEV-A), HEV-B, HEV-C, HEV-D and Poliovirus. During surveillance for enteroviruses serologically non-typable enterovirus strains were found from acute flaccid paralysis patients and healthy individuals. In this study, we report isolates of recently described enterovirus types EV76 and EV90 of HEV-A species and characterize two new enterovirus type candidates, EV96 and EV97, to species HEV-C and HEV-B, respectively. Analysis of partial 3D regions of EV96 strains revealed sequence divergence consistent with several recombination events between EV96, other HEV-C viruses and polioviruses. Phylogenetic analysis of all available 5'-untranslated region sequences of human entero- and rhinovirus prototype strains and 10 simian enterovirus strains suggested interspecies recombination involving this region.

Echovirus 15 and autumn meningitis outbreak among children, Patras, Greece, 2005

BACKGROUND

Enteroviruses are the most common cause of aseptic meningitis, presenting in epidemic or endemic form.

OBJECTIVES

To determine the causative agent of an aseptic meningitis outbreak in autumn, 2005 in Patras, Greece.

STUDY DESIGN

Cerebrospinal fluid (CSF) samples taken during May 2005-February 2006 from children admitted to the Children Hospital of Patras with signs of aseptic meningitis were tested for the presence of enteroviral RNA. Typing was performed by nucleotide analysis.

RESULTS

Enteroviruses were detected in 11 (57.9%) of 19 tested CSF samples. In a 12-day period (27 October-7 November 2005) five aseptic meningitis cases were observed. Echovirus 15 was detected in all five cases, and differed from the prototype strain by 27.6%. Enteroviruses before and after this cluster of cases were of different serotypes (Echovirus 9, Echovirus 6). All patients with Echovirus 15 infection were male with a mean age of 7.7 years (2 months-13 years), all recovered successfully.

CONCLUSIONS

This is the first report of a cluster of aseptic meningitis cases caused by Echovirus 15. The causative agent was a new variant of Echovirus 15.