The molecular epidemiology of CVA16 in China between 1999 and 2008 reflects a pattern of endemic cocirculation of clusters B1a and B1b within subgenotype B1 viruses. The annual evolution rate of CVA16 was estimated as approximately 0.91 ؋ 10 ؊2 substitutions per synonymous nucleotide/year and is slightly lower than that of HEV71.Coxsackievirus A16 (CVA16) and human enterovirus 71 (HEV71) are the two major causative agents of hand, foot, and mouth disease (HFMD) (12,17). In recent years, numerous large outbreaks of HEV71-associated HFMD, which were often accompanied by severe complications, including death, increased research interest in HEV71 strains (1,14,16). In contrast, little interest was paid to CVA16 strains because CVA16-associated HFMD was usually mild and benign (2, 12). Although CVA16 is genetically most closely related to HEV71, the genetic diversity and molecular evolution of CVA16, unlike those of HEV71, have not been fully described (5,7,12,13). Cocirculation of CVA16 and HEV71 has been proven to have contributed to the serious outbreaks of HFMD that have occurred in China since 2007 (17); therefore, the genetic variability and the evolution of CVA16 were determined in this study.The 42 CVA16 strains evaluated in this study were isolated from HFMD patients from different geographical locations in the Shandong, Gansu, Inner Mongolia, and Qinghai provinces of China between 2007 and 2008 (see supplemental data). To investigate the molecular epidemiology of CVA16 in mainland China, 24 additional Chinese CVA16 sequences found in Beijing and Guangdong provinces between 1999 and 2005 and 35 international CVA16 sequences (obtained from the GenBank database) were also analyzed.The complete VP1/capsid sequences of the CVA16 strains were obtained as previously described, using in-house primers that flanked the VP1 region (13, 17): CVA16-VP1-S, 5Ј-ATTGGTG CTCCCACTACAGC-3Ј (nucleotides 2335 to 2354, relative to strain CVA16/G-10), and CVA16-VP1-A, 5Ј-GCTGTCCTCCC ACACAAGAT-3Ј (nucleotides 3426 to 3445, relative to strain CVA16/G-10).A total of 66 Chinese CVA16 sequences were divided into three lineages on the basis of phylogenetic analysis (Fig. 1). A 6.5 to 8.1% nucleotide divergence was found among these three lineages, suggesting that the CVA16-associated HFMD outbreaks in China were a result of the coincident circulation of three genetically distinct viruses.To determine the molecular epidemiology of Chinese CVA16 strains associated with HFMD epidemics, a phylogenetic dendrogram was constructed with 21 Chinese CVA16 sequences (randomly selected on the basis of their genetic relationships) that circulated during the period 1999-2008 in addition to the 35 international CVA16 sequences that represented two known genotypes (A and B) (13) (Fig. 2).As in a previous study (13), all CVA16 strains could be grouped into genotypes A and B. The prototype G-10 strain differed from the other strains by 27.5 to 30.2% and clustered separately from all other CVA16 strains, including Chinese CVA16 strains, which clearly belo...
The relevance of human parainfluenza viruses (HPIVs) to the epidemiology of acute respiratory infections (ARI) in China is unclear. From May 2008 to September 2010, 443 nasopharyngeal aspirates (NPAs) from hospitalized pediatric patients (age from 1 to 93 months) in Beijing were collected and screened for HPIVs and other common respiratory viruses by real-time RT-PCR. Sixty-two of 443 samples were positive for HPIVs with 4 positive for HPIV-2 and 58 positive for HPIV-3, indicating that HPIV-3 was the predominant virus present during the study period. A phylogenetic tree based on all the available HN (hemagglutinin-neuraminidase) sequences of HPIV-3 indicated that three distinct clusters (A,B, and C) were circulating with some temporal and regional clustering. Cluster C was further divided into sub-clusters, C1, C2, C3 and C4. HPIV-3 from Beijing isolates belonged to sub-cluster C3, and were grouped with the isolates from two Provinces of China and the neighboring country of Japan. Genetic analysis based on entire HN gene revealed that the HPIV-3 isolates from Beijing were highly similar with 97.2%–100% identity at the nucleotide level and these could be divided into two closely related lineages, C3a and C3b. These findings suggested that there was co-circulation of multiple lineages of HPIV-3 in the Beijing region during the study period. This is the first study to describe the epidemiology and molecular characterization of HPIVs in China.
The genome of HAdV-B14p1 strain BJ430, isolated from a six-month-old baby diagnosed with bronchial pneumonia at the Beijing Children’s Hospital in December 2010, was sequenced, analyzed, and compared with reference adenovirus genome sequences archived in GenBank. This genome is 34,762 bp in length, remarkably presenting 99.9% identity with the genome from HAdV14p1 strain 303600, which was isolated in the USA (2006). Even more remarkable, it is 99.7% identical with the HAdV-B14p (prototype “de Wit” strain) genome, isolated from The Netherlands in 1955. The patient and its parents presumably had no or limited contact with persons from the USA and Ireland, both of which reported outbreaks of the re-emergent virus HAdV-14p1 recently. These genome data, its analysis, and this report provide a reference for any additional HAdV-B14 outbreak in China and provide the basis for the development of adenovirus vaccines and molecular pathogen surveillance protocols in high-risk areas.
The Chinese human adenovirus 7 (HAdV7) 0901HZ/ShX/CHN/2009 was isolated from the hydrothorax fluid of an infant with fatal pneumonia in Shaanxi, China, in 2009. Comparison of the entire genome with the genomes of the other 10 strains of HAdV7 from GenBank revealed homologies of 89.9 to 99.9%, with geographic polymorphism among HAdV-7 field strains circulating in mainland China.
, type 1 circulating vaccine-derived poliovirus (cVDPV) was isolated from one case patient with acute flaccid paralysis (AFP) and six unimmunized healthy contacts in isolated mountain villages in Guangxi, China. We conducted epidemiological investigations in the affected communities and nucleotide sequence analyses of the cVDPV isolates. The results of the investigations showed that the AFP patient, an unimmunized 10-year-old boy, and five laboratory-confirmed contacts lived in the same village; one contact lived in a neighboring village. Only ϳ27% of children 5 to 10 years of age in the affected villages had received three or more doses of the trivalent oral poliovirus vaccine (OPV). Nucleotide sequence analyses revealed that the cVDPV isolates differed from the Sabin 1 (S1) isolate at 1.4 to 2.2% of VP1 nucleotide positions and shared 12 nucleotide substitutions within VP1. All isolates were S1/S2/S1/S3 recombinants sharing common recombination junctions. Key determinants of attenuation were replaced. Phylogenetic analysis suggested that the cVDPV circulated locally for ϳ12 months following the initiating OPV dose. No VDPVs were found after mass OPV immunizations, conducted from May to June 2006, that targeted all children <12 years of age. Our findings reinforce the point that VDPVs can emerge and spread in isolated communities with immunity gaps. Maintenance of sensitive AFP and poliovirus surveillance is essential to permit early detection and a rapid response to VDPV circulation. China in 1994 (23, 38, 44). High levels of population immunity have been maintained throughout most of the country, and vigorous immunization responses to the detection of poliovirus circulation have subsequently protected against widespread poliovirus transmission. The WPVs (WPV type 1 [WPV1] and WPV3), introduced into communities bordering Myanmar in 1995 and 1996, were associated with only four paralytic poliomyelitis (polio) cases (44), and WPV1 imported into Qinghai, China, from northern India was associated with only one case in 1999 (45) Keys to the success in China are (i) a strong routine immunization program with trivalent oral poliovirus vaccine (tOPV) supplemented by synchronized mass campaigns in the form of national immunization days (NIDs) and subnational immunization days (SNIDs) (38), (ii) sensitive surveillance for cases of acute flaccid paralysis (AFP) (47), and (iii) rapid, detailed characterization of poliovirus isolates (23,47). The eradication of polio in China (40), whose population constitutes 23% of the world population, provided strong impetus to the World Health Organization's (WHO's) Global Polio Eradication Initiative, whose efforts have reduced the polio incidence by Ͼ99% since 1988, such that only four countries have never stopped WPV circulation (43). Circulation of indigenous wild poliovirus (WPV) ceased inSuccessful eradication of WPV, however, does not entirely eliminate risks of paralytic poliomyelitis. The primary weapon in polio eradication, OPV, is genetically unstable and can revert to incr...
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