Non-structural Enterotoxin (NSP4) Gene based Molecular Characterization of Caprine and Ovine Rotavirus A, India

Rotavirus A (RVA) causes viral gastroenteritis in humans and animals, including calves, piglets, and foals. The current study reports the genetic characterization of the full-length enterotoxin gene, NSP4, from caprine and ovine species. Upon characterizing eight full-length NSP4 genes by sequencing, it was found that the four caprine and three ovine RVAs NSP4 genes are of E2 genotype and the sole ovine RVA isolate was found to be of E1 genotype. In the sequence and phyloanalysis of the NSP4 gene the seven E2 genotypes clustered with bovine, human, and caprine isolates from India and Bangladesh, respectively. The E1 genotype of ovine RVA was closer to human RVA isolate from India. The nucleotide per cent identity analysis revealed that all E2 genotype strains of caprine and ovine species ranged from 88.4% to 90.4% and it was found common to both the reference human RVA isolates DS-1 and AU-1. Whereas, the E1 genotype ovine strain clustered with human RVA isolates with 93.1% nucleotide per cent identity. The RVA strains circulating in caprine and ovine populations may share a common origin which is usually found in artiodactyl species because humans share a common dwelling with animals. Future studies are needed to confirm these findings of their relationship with humans and large animals.

IDENTIFICATION OF ROTAVIRUS I- AND E-GENOTYPES BY MULTIPLEX PCR METHOD

Introduction. In recent years the presence of reassortant rotavirus strains is increasingly mentioned in the world due to the application of the full-genome based classification system. Information on the circulation of such strains in the territory of Russia is limited. The aim of this work was the development of the approach for determination of genotypes of segments encoding VP6 (I) and NSP4 (E) to reveal reassortant strains. Material and Methods. Rotavirus-positive samples were studied by means of nucleotide sequencing and multiplex PCR. Phylogenetic analysis was conducted using the Bayesian approach. Results. Three alleles of the VP6 gene (I1-1, I2-IV, I2-VII) and seven alleles of the NSP4 gene (E1-I, E1-III, E2-VI, E2-VII, E2-X, E2-XII, E3) were detected on the base of nucleotide sequences of Nizhny Novgorod rotaviruses. Taking into account these results, the oligonucleotide primers specific to genotypes I1, I2, I3 and E1, E2, E3 were designed. Optimal conditions for multiplex PCR were chosen. The method was tested using the strains collected in Nizhny Novgorod in 2018. The diversity of I and E genotypes was determined and various combinations with G and P genotypes were identified. Discussion. G9-P[8]-I1-E1 rotaviruses were predominant (32.7 %) and G2-P[4]-I2-E2 rotaviruses were in second place (29.1 %). Strains with genotypes G4-P[8]-I1-E2, G3-P[8]-I2-E2 and G2-P[4]-I2-E1 were detected sporadically. They had genes of two rotavirus genogroups, so can be considered to be reassortant. Conclusion. The proposed approach is a useful tool for the characterization of rotaviruses in the conditions of the beginning of vaccination against rotavirus infection in Russia.

Species A Rotavirus (RVA) Isolated from Sewage in Nigeria, 2014: Close Genetic Relatedness of Partial G, P, and NSP4 Gene Sequences Encoding G1 with Cogent Genes of Other Asian and African Rotaviruses

Rotavirus has been identified as a major cause of gastroenteritis in Nigeria. There is limited information on the intragenotype diversity of Nigerian rotavirus isolates. We therefore investigated the molecular characteristics of some rotavirus gene sequences detected in sewage from Nigeria. Seven sewage samples, out of a total of 68, tested positive for rotavirus RNA (10.3%). Genotype G1P[4]was the most common genotype (5 isolates) and one isolate for genotypes G1P[8] and G3P[6]. Phylogenetic analysis of the partial VP7 gene of 3 G1P[4]isolates analyzed identified them as genotype G1 Lineage 2 along with Chinese strains with 99.1% to 100% amino acid similarity. Amino acid substitutions D-97→E and S-147→D/N were observed within the 7-1a and 7-2 domains of VP7 gene among the study G1P4 isolates in reference to vaccine strain RotaTeq®. Phylogenetic analysis of the G3P[6]study isolate identified it as genotype G3 Lineage 3, forming a monophyletic cluster with 100% bootstrap value with other West African strains G3 isolates. Phylogenetic analysis of GIP[4]VP4 genes identified them as P4 Lineage 5, while 3 NSP4 gene sequences belonged to genotype E1, while 1 belonged to E2. The results from this study represent phylogenetic analysis of partial gene sequences of environmental group A rotavirus (RVA) isolates from Nigeria.

Emergence of human G2P[4] rotaviruses containing animal derived gene segments in the post-vaccine era

The introduction of Rotarix into the Belgian immunization program in June 2006 coincided with an increase of the relative prevalence of G2P[4] strains. However, the genetic composition of these persistent G2P[4] strains has not been investigated. Therefore, we have investigated the NSP4 gene of 89 Belgian G2P[4] strains detected between 1999 and 2013, covering both pre- and post-vaccination periods. The NSP4 genes were divided over seven separate clusters of which six were more closely related to animal than to human strains. The NSP4 genes that clustered more closely to animal DS-1-like strains were isolated after 2004–2005 and were found throughout multiple seasons. Complete genome sequencing of 28 strains identified several other gene segments that clustered more closely to animal than to human DS-1-like strains. These findings suggest that frequent interspecies reassortments may have played a role in the spread of G2P[4] rotaviruses in the post-vaccination period in Belgium.

Comparitive performance of in-house RT-PCR for NSP4 gene with a commercial enzyme immunoassay for the detection of rotavirus in stool samples of children with diarrhoea

Rotaviruses are the most significant pathogen in the etiology of watery diarrhoea in infants and young children all over the world. Laboratory diagnosis is important both for clinical management and estimation of the disease bur-den. We collected faecal samples from 260 children under the age of five years hospitalized with acute diarrhoea and tested them for rotavirus anti-gen by Enzyme immuno assay (EIA) kit [RIDASCREEN]. RNA was also extract-ed from supernatant of 10% stool suspensions in Phosphate Buffered Saline (PBS) and amplified by Reverse transcriptase polymerase chain reaction (RT-PCR) for Non Structural Protein 4 (NSP4) gene. EIA was positive in 58(22.3%) samples while RT-PCR was positive in 45(17.3%) samples. Compared to EIA, RT-PCR was 77.5% sensitive and 100% specific. The Positive Predictive Value (PPV) and Negative Predictive Value (NPV) were 100% and 93.9% respective-ly. We infer that RT-PCR is a moderately sensitive but highly specific diagnos-tic test for rotavirus infection in this study.