Your search keyword '"Komoto, Satoshi"' showing total 21 results

1. Unusual G3P[10] bat-like rotavirus strains detected in children with acute gastroenteritis in Thailand.

Author

Jampanil N, Kumthip K, Yodmeeklin A, Tacharoenmuang R, Akari Y, Komoto S, Okitsu S, Ushijima H, Maneekarn N, and Khamrin P

Subjects

Humans, Thailand epidemiology, Child, Preschool, Infant, Animals, Chiroptera virology, Whole Genome Sequencing, RNA, Viral genetics, Male, Female, Sequence Analysis, DNA, Gastroenteritis virology, Gastroenteritis epidemiology, Rotavirus genetics, Rotavirus classification, Rotavirus isolation & purification, Rotavirus Infections virology, Rotavirus Infections epidemiology, Phylogeny, Genome, Viral genetics, Genotype

Abstract

Rotavirus A (RVA) is the main cause of acute gastroenteritis among children under the age of five globally. The unusual bat-like human RVA strains G3P[10] (RVA/Human-wt/THA/CMH079/05/2005/G3P[10] and RVA/Human-wt/THA/CMH-S015-19/2019/G3P[10]) were detected in children with acute gastroenteritis in 2005 and 2019, respectively, in the same geographical area of Northern Thailand. To elucidate the genetic backgrounds of these unusual or bat-like human RVA strains, the complete genome of these RVA strains was sequenced and phylogenetically analyzed. All eleven genome segments of these G3P[10] strains were genotyped as G3-P[10]-I8-R3-C3-M3-A9-N3-T3-E3-H6, which is closely related to bat G3P[10] RVA strain (RVA/Bat-tc/CHN/MYAS33/2013/G3P[10]) and bat-like human RVA strain (RVA/Human-wt/THA/MS2015-1-0001/2015/G3P[10]). The findings indicate that human G3P[10] RVA strains detected in this study (RVA/Human-wt/THA/CMH079/05/2005/G3P[10] and RVA/Human-wt/THA/CMH-S015-19/2019/G3P[10]) contained all eleven genome segments similar to those of bat RVA strains and appeared to be human RVA strains of bat origin. Phylogenetic analysis revealed that several genome segments of these two RVA strains were also closely related with those of other species in addition to bats and had a zoonotic transmission history. The results of this study supported the roles of interspecies transmission of RVA strains among bats and humans in the natural environment and provided convincing evidence that the evolution of human RVAs was closely interrelated with those of animal RVAs. Continuing surveillance of RVAs in humans and animals is imperative to gain a better understanding of the origin and the evolution of these viruses., (© 2024 Wiley Periodicals LLC.)

Published

2024

2. Long-term impact of rotavirus vaccination on all-cause and rotavirus-specific gastroenteritis and strain distribution in Central Kenya: An 11-year interrupted time-series analysis.

Author

Wandera EA, Kurokawa N, Mutua MM, Muriithi B, Nyangao J, Khamadi SA, Kathiiko C, Wachira M, Njuguna E, Mwaura B, Golicha RO, Njau J, Morita K, Kaneko S, Komoto S, Tsutsui N, and Ichinose Y

Subjects

Humans, Kenya epidemiology, Child, Preschool, Infant, Hospitalization statistics & numerical data, Female, Feces virology, Male, Genotype, Vaccines, Attenuated immunology, Vaccines, Attenuated administration & dosage, Rotavirus Vaccines administration & dosage, Rotavirus Vaccines immunology, Rotavirus Infections prevention & control, Rotavirus Infections epidemiology, Gastroenteritis epidemiology, Gastroenteritis virology, Gastroenteritis prevention & control, Rotavirus immunology, Rotavirus genetics, Immunization Programs, Interrupted Time Series Analysis, Vaccination statistics & numerical data

Abstract

Background: Kenya introduced a monovalent rotavirus vaccine administered orally at 6 and 10 weeks of age into her National Immunization Program in July 2014. The study evaluated the long-term impact of the vaccine on hospitalization for all-cause and rotavirus-specific acute gastroenteritis (AGE) and strain epidemiology in Kenya., Methods: Data on all-cause and rotavirus-specific AGE and strain distribution were derived from an eleven-year hospital-based surveillance of AGE among children aged <5 years at Kiambu County Teaching and Referral Hospital (KCTRH) in Central Kenya between 2009 and 2020. Fecal samples were screened for group A rotavirus using ELISA and genotyped using multiplex semi-nested RT-PCR. Trends in all-cause and rotavirus-related AGE and strain distribution were compared between the pre-vaccine (July 2009-June 2014), early post-vaccine (July 2014-June 2016) and late post-vaccine (February 2019-October 2020) periods., Results: Rotavirus-specific AGE was detected at 27.5% (429/1546, 95% CI: 25.5-30.1%) in the pre-vaccine period; 13.8% (91/658, 95% CI: 11.3-16.6%) in the early post-vaccine period (July 2014-June 2016); and 12.0% (229/1916, 95% CI: 10.6-13.5%) in the late post-vaccine period (February 2019-October 2020). This amounted to a decline of 49.8% (95% CI: 34.6%-63.7%) in rotavirus-specific AGE in the early post-vaccine period and 53.4% (95% CI: 41.5-70.3%) in the late post-vaccine period when compared to the pre-vaccine period. All-cause AGE hospitalizations declined by 40.2% (95% CI: 30.8%-50.2%) and 75.3% (95% CI: 65.9-83.1%) in the early post-vaccine and late post-vaccine periods, respectively, when compared to the pre-vaccine period. G3P [8] was the predominant strain in the late post-vaccine period, replacing G1P[8] which had predominated in the pre-vaccine and early post-vaccine periods. Additionally, we detected considerable proportions of uncommon strains G3P[6] (4.8%) and G12P[6] (3.5%) in the post-vaccine era., Conclusion: Rotavirus vaccination has resulted in a significant decline in all-cause and rotavirus-specific AGE, and thus, provides strong evidence for public health policy makers in Kenya to support the sustained use of the rotavirus vaccine in routine immunization. However, the shift in strain dominance and age distribution of rotavirus AGE in the post-vaccine era underscores the need for continued surveillance to assess any possible vaccine-induced selective pressure that could diminish the vaccine effectiveness over time., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier Ltd.)

Published

2024

3. Whole genome sequencing and genomic characterization of a DS-1-like G2P[4] group A rotavirus in Japan.

Author

Phan T, Hikita T, Okitsu S, Akari Y, Komoto S, Hayakawa S, and Ushijima H

Subjects

Child, Humans, Japan, Genome, Viral, Genotype, Phylogeny, Genomics, Whole Genome Sequencing, Rotavirus genetics, Rotavirus Infections, Gastroenteritis

Abstract

After rotavirus was discovered in 1973, it became the leading pathogen in causing acute gastroenteritis in humans worldwide. In this study, we performed whole genome sequencing and genomic characterization of a DS-1-like G2P[4] group A rotavirus in feces of a Japanese child with acute gastroenteritis who was fully Rotarix® vaccinated. The genomic investigation determined a genomic constellation G2-P[4]-I2-R2-C2-M2-A2-N2-T2-E2-H2 of this rotavirus strain. Its antigenic epitopes of the VP7 and VP4 proteins had significant mismatches compared with the vaccine strains. Our study is the latest attempt to investigate the evolution of the VP7 and VP4 genes of emerging G2P[4] rotavirus in Japan., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

4. Rotavirus genotypes and clinical outcome of natural infection based on vaccination status in the post-vaccine era.

Author

Kozawa K, Higashimoto Y, Kawamura Y, Miura H, Negishi T, Hattori F, Ihira M, Komoto S, Taniguchi K, and Yoshikawa T

Subjects

Animals, Cattle, Child, Genotype, Humans, Infant, Vaccination, Vaccines, Attenuated, Vaccines, Combined, Gastroenteritis epidemiology, Gastroenteritis prevention & control, Rotavirus genetics, Rotavirus Infections epidemiology, Rotavirus Infections prevention & control, Rotavirus Vaccines

Abstract

Rotavirus (RV) is a leading cause of gastroenteritis in children. In Japan, Rotarix (RV1; GlaxoSmithKline), which is a monovalent vaccine derived from human RV (G1P[8]), has been introduced since November 2011, and RotaTeq (RV5; MSD) which is an pentavalent, human-bovine mono-reassortant vaccine (G1, G2, G3, G4, and P1A[8]), has been introduced since July 2012. Long-term follow-up on vaccine efficacy and RV genotypical change should be carried out in order to control RV infection. The RV gastroenteritis (RVGE) outbreak occurred during the 2018/2019 season in Aichi prefecture, Japan. Therefore, the molecular epidemiology of RV among three different groups of RVGE, which were outpatients who received RV1, those who received RV5, and those without vaccination, was explored. Clinical features of RVGE patients were compared among the three patient groups. Children less than 15 years of age with gastroenteritis who visited any of seven pediatric practices between January and June 2019 were enrolled in the study. G, P, and E genotypes were determined by direct sequencing of reverse transcription-polymerase chain reaction products amplified from stool samples. Among 110 patients, there were 27, 28, and 55 in the RV1-vaccinated, RV5-vaccinated, and unvaccinated groups, respectively. The most frequent genotype was G8P[8] (92/110 patients, 83.6%). Genotype distributions did not significantly differ among the three patient groups ( P  = .125). Mean Vesikari score was significantly lower among RV1-vaccinated (7.1) and RV5-vaccinated patients (6.4) than among unvaccinated patients (10.2) ( P  < .001). Even in RVGE patients treated in an outpatient clinic, RV vaccine reduced the severity of the disease in this cohort.

Published

2022

5. Correlation Between Rotavirus Antigenemia and Humoral Immune Response in Patients with Acute Rotavirus Gastroenteritis.

Author

Enya Y, Kawamura Y, Ihira M, Hattori F, Nakai H, Nishimura N, Ozaki T, Higashimoto Y, Kozawa K, Miura H, Komoto S, Taniguchi K, and Yoshikawa T

Subjects

Humans, Infant, Immunity, Humoral, Feces, Acute Disease, Rotavirus, Rotavirus Infections, Gastroenteritis

Abstract

Competing Interests: The authors have no conflicts of interest.

Published

2022

6. The Detection of Rotavirus Antigenemia by Immunochromatographic Kits: a Case Series.

Author

Ushijima H, Hikita T, Kobayashi M, Pham NTK, Onda-Shimizu Y, Kawagishi T, Okitsu S, Kanai Y, Kobayashi T, Phan T, Hoque SA, Takanashi S, Komoto S, Kumthip K, Taniguchi K, Maneekarn N, Hayakawa S, and Khamrin P

Subjects

Animals, Antibodies, Viral, Antigens, Viral, Child, Child, Preschool, Feces, Humans, Infant, Mice, Gastroenteritis diagnosis, Rotavirus, Rotavirus Infections diagnosis

Abstract

Background: Acute gastroenteritis is the most common cause of illness and death in infants and young children worldwide. Rotaviruses (RVs) are the major viruses that cause acute gastroenteritis in young children, especially in developing countries in Asia and Africa., Methods: The presence of rotavirus antigens in sera of four unvaccinated pediatric patients, aged between 4 and 6 years with severe diarrhea and dehydration, were detected by using three immunochromatographic (IC) kits. In addition, the presence of anti-rotavirus IgG, IgA, and IgM antibodies and their concentrations in patient sera were also determined by enzyme immunoassay (EIA)., Results: All three kits could detect rotavirus antigen in patient sera with different intensity of the test lines. When patient sera were pretreated with anti-VP6 rotavirus mouse monoclonal antibody prior to testing, the rotavirus positive test lines disappeared, suggesting that all patient sera contained VP6 protein antigen of rotavirus. Assessment of antibody concentration in these patient sera revealed that all patient sera contained IgG, IgA, and IgM antibodies against rotavirus antigen at different concentrations., Conclusions: The sensitivity of rotavirus protein detection in the patient sera of one IC kit brand was comparable to those of the EIA, suggesting this IC kit could be an alternative screening method for rapid diagnosis of rotavirus infection.

Published

2021

7. Genomic characterization of a novel G3P[10] rotavirus strain from a diarrheic child in Thailand: Evidence for bat-to-human zoonotic transmission.

Author

Komoto S, Tacharoenmuang R, Guntapong R, Upachai S, Singchai P, Ide T, Fukuda S, Hatazawa R, Sutthiwarakom K, Kongjorn S, Onvimala N, Luechakham T, Sriwanthana B, Murata T, Uppapong B, and Taniguchi K

Subjects

Animals, Genome, Viral, Humans, Infant, Male, Thailand, Chiroptera virology, Feces virology, Gastroenteritis virology, Rotavirus genetics, Rotavirus isolation & purification, Rotavirus Infections genetics, Rotavirus Infections transmission, Viral Zoonoses

Abstract

An unusual rotavirus strain with the G3P[10] genotype (RVA/Human-wt/THA/MS2015-1-0001/2015/G3P[10]) was identified in a stool sample from a hospitalized child aged 11 months with severe gastroenteritis in Thailand. In the current study, we sequenced and characterized the full genome of strain MS2015-1-0001. On full-genomic analysis, strain MS2015-1-0001 exhibited the following genotype configuration: G3-P[10]-I8-R3-C3-M3-A9-N3-T3-E3-H6, which is identical or closely related to those of bat and bat-like rotavirus strains (MYAS33-like). Furthermore, phylogenetic analysis revealed that all 11 genes of strain MS2015-1-0001 appeared to be of bat origin. Our findings provide evidence for bat-to-human interspecies transmission of rotaviruses and important insights into dynamic interactions between human and bat rotavirus strains., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

8. Genomic analysis of group A rotavirus G12P[8] including a new Japanese strain revealed evidence for intergenotypic recombination in VP7 and VP4 genes.

Author

Phan T, Ide T, Komoto S, Khamrin P, Pham NTK, Okitsu S, Taniguchi K, Nishimura S, Maneekarn N, Hayakawa S, and Ushijima H

Subjects

Genotype, Humans, Japan epidemiology, Rotavirus Infections epidemiology, Gastroenteritis virology, Genetic Variation, Genomics, Recombination, Genetic, Rotavirus genetics, Sequence Analysis, DNA

Abstract

Group A rotavirus is a leading cause of severe acute gastroenteritis worldwide. In this study, the first complete coding sequences of 11 RNA segments of human group A rotavirus G12P[8] in Japan were determined by an unbiased viral metagenomics. Its genomic constellation (VP7-VP4-VP6-VP1-VP2-VP3-NSP1-NSP2-NSP3-NSP4-NSP5 genes) was identified as G12-P[8]-I1-R1-C1-M1-A1-N1-T1-E1-H1. When performing the genetic analysis, we discovered an intergenotypic recombination event in the pig group A rotavirus G12P[8] strain BUW-14-A008. The novel recombination was found between two different genotypes G12 and G3 in the VP7 gene, and P[8] and P[13] in the VP4 gene., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

9. Unusual mono-reassortant of a Wa-like G1P[8] species A rotavirus containing a DS-1-like (genotype 2) NSP4 gene.

Author

Phan T, Ide T, Komoto S, Khamrin P, Okitsu S, Taniguchi K, Kikuta H, Maneekarn N, Hayakawa S, and Ushijima H

Subjects

Acute Disease, Child, Preschool, Evolution, Molecular, Feces virology, Genetic Variation, Genome, Viral genetics, Humans, Japan, Phylogeny, RNA, Viral genetics, Reassortant Viruses classification, Reassortant Viruses genetics, Reassortant Viruses isolation & purification, Gastroenteritis virology, Rotavirus classification, Rotavirus genetics, Rotavirus isolation & purification, Rotavirus Infections virology, Toxins, Biological genetics, Viral Nonstructural Proteins genetics

Abstract

Species A rotaviruses are a major cause of acute gastroenteritis in infants and young children worldwide. Reassortment is a common phenomenon due to the segmented nature of the rotavirus genome. The complete coding sequences of a species A rotavirus strain isolated from the feces of a child with acute gastroenteritis in Japan in 2018 were determined using an unbiased viral metagenomics approach. The genetic analysis revealed that the rotavirus strain had an unusual genomic constellation (G1-P[8]-I1-R1-C1-M1-A1-N1-T1-E2-H1), suggesting reassortment of a genotype 1 with a genotype 2 rotavirus, from which the NSP4-encoding gene was acquired.

Published

2020

10. Molecular characterization of rotaviruses obtained from patients with rotavirus-associated encephalitis/encephalopathy.

Author

Ihira M, Kawamura Y, Miura H, Hattori F, Higashimoto Y, Sugata K, Ide T, Komoto S, Taniguchi K, and Yoshikawa T

Subjects

Child, Child, Preschool, Feces virology, Female, Genome, Viral, Genotype, High-Throughput Nucleotide Sequencing, Humans, Infant, Male, Molecular Typing, Phylogeny, RNA, Viral genetics, Rotavirus isolation & purification, Encephalitis virology, Gastroenteritis virology, Rotavirus classification, Rotavirus Infections virology

Abstract

Group A rotavirus (RVA) rarely causes severe complications such as encephalitis/encephalopathy. However, the pathophysiology of this specific complication remains unclear. Next-generation sequence analysis was used to compare the entire genome sequences of RVAs detected in patients with encephalitis/encephalopathy and gastroenteritis. This study enrolled eight patients with RVA encephalitis/encephalopathy and 10 with RVA gastroenteritis who were treated between February 2013 and July 2014. Viral RNAs were extracted from patients' stool, and whole-genome sequencing analysis was carried out to identify the specific gene mutations in RVA obtained from patients with severe neurological complications. Among the eight encephalitis/encephalopathy cases, six strains were DS-1-like G1P[8] and the remaining two were Wa-like G1P[8] (G1-P[8]-I1-R1-C1-M1-A1-N1-T1-E1-H1). Meanwhile, eight of the 10 viruses detected in rotavirus gastroenteritis patients were DS-1-like G1P[8], and the remaining two were Wa-like G1P[8]. These strains were further characterized by conducting phylogenetic analysis. No specific clustering was demonstrated in RVAs detected from encephalitis/encephalopathy patients. Although the DS-1-like G1P[8] strain was predominant in both groups, no specific molecular characteristics were detected in RVAs from patients with severe central nervous system complications., (© 2020 The Societies and John Wiley & Sons Australia, Ltd.)

Published

2020

11. High prevalence of equine-like G3P[8] rotavirus in children and adults with acute gastroenteritis in Thailand.

Author

Tacharoenmuang R, Komoto S, Guntapong R, Upachai S, Singchai P, Ide T, Fukuda S, Ruchusatsawast K, Sriwantana B, Tatsumi M, Motomura K, Takeda N, Murata T, Sangkitporn S, Taniguchi K, and Yoshikawa T

Subjects

Adolescent, Adult, Animals, Child, Child, Preschool, Equidae, Feces virology, Gastroenteritis epidemiology, Genome, Viral, Genotype, Humans, Infant, Infant, Newborn, Middle Aged, Molecular Typing, Phylogeny, Prevalence, RNA, Viral genetics, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Thailand epidemiology, Young Adult, Gastroenteritis virology, Rotavirus classification, Rotavirus genetics, Rotavirus Infections epidemiology, Rotavirus Infections virology

Abstract

Group A rotavirus (RVA) is a major cause of acute gastroenteritis in infants and young children worldwide. This study aims to clarify the distribution of G/P types and genetic characteristics of RVAs circulating in Thailand. Between January 2014 and September 2016, 1867 stool specimens were collected from children and adults with acute gastroenteritis in six provinces in Thailand. RVAs were detected in 514/1867 (27.5%) stool specimens. G1P[8] (44.7%) was the most predominant genotype, followed by G3P[8] (33.7%), G2P[4] (11.5%), G8P[8] (7.0%), and G9P[8] (1.3%). Unusual G3P[9] (0.8%), G3P[10] (0.4%), G4P[6] (0.4%), and G10P[14] (0.2%) were also detected at low frequencies. The predominant genotype, G1P[8] (64.4%), in 2014 decreased to 6.1% in 2016. In contrast, the frequency of G3P[8] markedly increased from 5.5% in 2014 to 65.3% in 2015 and 89.8% in 2016. On polyacrylamide gel electrophoresis, most (135/140; 96.4%) of the G3P[8] strains exhibited a short RNA profile. Successful determination of the nucleotide sequences of the VP7 genes of 98 G3P[8] strains with a short RNA profile showed that they are all equine-like G3P[8] strains. On phylogenetic analysis of genome segments of two representative Thai equine-like G3P[8] strains, it was noteworthy that they possessed distinct NSP4 genes, one bovine-like and the other human-like. Thus, we found that characteristic equine-like G3P[8] strains with a short RNA electropherotype are becoming highly prevalent in children and adults in Thailand., (© 2019 Wiley Periodicals, Inc.)

Published

2020

12. Impact of rotavirus vaccination on rotavirus and all-cause gastroenteritis in peri-urban Kenyan children.

Author

Wandera EA, Mohammad S, Bundi M, Komoto S, Nyangao J, Kathiiko C, Odoyo E, Miring'u G, Taniguchi K, and Ichinose Y

Subjects

Gastroenteritis immunology, Genotype, Hospitalization, Humans, Immunization Programs, Kenya, Rotavirus immunology, Gastroenteritis prevention & control, Rotavirus pathogenicity, Rotavirus Vaccines therapeutic use

Abstract

A monovalent rotavirus vaccine (RV1) was introduced into the National Immunization Program in Kenya in July 2014. We examined the impact of the vaccine on hospitalization for all-cause acute gastroenteritis (AGE) and rotavirus-specific AGE and strain distribution at a large referral hospital which serves a predominantly peri-urban population in Central Kenya. Data on rotavirus AGE and strain distribution were derived from ongoing hospital-based AGE surveillance. Hospital administrative data were used to compare trends in all-cause AGE. Pre-vaccine (July 2009-June 2014) and post-vaccine (July 2014-June 2016) periods were compared for changes in hospitalization for all-cause AGE and rotavirus AGE and strain distribution. Following the vaccine introduction, the proportion of children aged <5years hospitalized for rotavirus declined by 30% (95% CI: 19-45%) in the first year and 64% (95% CI: 49-77%) in the second year. Reductions in rotavirus positivity were most pronounced among the vaccine-eligible group (<12months) in the first year post-vaccination at 42% (95% CI: 28-56%). Greater reductions of 67% (95% CI: 51-79%) were seen in the second year in the 12-23months age group. Similarly, hospitalizations for all-cause AGE among children <5years of age decreased by 31% (95% CI: 24-40%) in the first year and 58% (95% CI: 49-67%) in the second year of vaccine introduction. Seasonal peaks of rotavirus and all-cause AGE were reduced substantially. There was an increased detection of G2P[4], G3P[6] and G3P[8], which coincided temporally with the timing of the vaccine introduction. Thus, introducing the rotavirus vaccine into the routine immunization program in Kenya has resulted in a notable decline in rotavirus and all-cause AGE hospitalizations in Central Kenya. This provides early evidence for public health policy makers in Kenya to support the sustained use of the rotavirus vaccine in routine immunizations., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

13. Molecular epidemiology of rotavirus gastroenteritis in Central Kenya before vaccine introduction, 2009-2014.

Author

Wandera EA, Mohammad S, Komoto S, Maeno Y, Nyangao J, Ide T, Kathiiko C, Odoyo E, Tsuji T, Taniguchi K, and Ichinose Y

Subjects

Child, Preschool, Enzyme-Linked Immunosorbent Assay, Feces virology, Female, Hospitals, County, Humans, Infant, Infant, Newborn, Kenya epidemiology, Male, Molecular Epidemiology, Polymerase Chain Reaction, Prevalence, Reverse Transcriptase Polymerase Chain Reaction, Rotavirus isolation & purification, Seasons, Gastroenteritis epidemiology, Gastroenteritis virology, Genotype, Rotavirus classification, Rotavirus genetics, Rotavirus Infections epidemiology, Rotavirus Infections virology

Abstract

Between July 2009 and June 2014, a total of 1,546 fecal specimens were collected from children <5 years of age with acute gastroenteritis admitted to Kiambu County Hospital, Central Kenya. The specimens were screened for group A rotavirus (RVA) using ELISA, and RVA-positive specimens were subjected to semi-nested RT-PCR to determine the G and P genotypes. RVA was detected in 429/1,546 (27.5%) fecal specimens. RVA infections occurred in all age groups <59 months, with an early peak at 6-17 months. The infections persisted year-round with distinct seasonal peaks depending on the year. G1P[8] (28%) was the most predominant genotype, followed by G9P[8] (12%), G8P[4] (7%), G1P[4] (5%), G9P[4] (4%), and G12P[6] (3%). In the yearly change of G and P genotypes, a major shift from G9P[8] to G1P[8] was found in 2012. Phylogenetic analysis of the nucleotide sequences of the VP7 and VP4 genes of seven strains with unusual G8 or P[6] showed that the VP7 nucleotide sequences of G8 were clustered in lineage 6 in which African strains are included, and that there are at least two distinct VP4 nucleotide sequences of P[6] strains. These results represent basic data on RVA strains circulating in this region before vaccine introduction. J. Med. Virol. 89:809-817, 2017. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2017

14. Oral administration of Bifidobacterium bifidum G9-1 alleviates rotavirus gastroenteritis through regulation of intestinal homeostasis by inducing mucosal protective factors.

Author

Kawahara T, Makizaki Y, Oikawa Y, Tanaka Y, Maeda A, Shimakawa M, Komoto S, Moriguchi K, Ohno H, and Taniguchi K

Subjects

Administration, Oral, Animals, Cell Line, Chlorocebus aethiops, Diarrhea complications, Diarrhea microbiology, Diarrhea pathology, Diarrhea therapy, Gastroenteritis complications, Gastroenteritis microbiology, Gastroenteritis pathology, Gene Expression Regulation, Macaca mulatta, Mice, Inbred BALB C, Probiotics administration & dosage, Rotavirus isolation & purification, Rotavirus physiology, Rotavirus Infections complications, Rotavirus Infections microbiology, Rotavirus Infections pathology, Bifidobacterium bifidum physiology, Gastroenteritis therapy, Intestines microbiology, Intestines pathology, Probiotics therapeutic use, Rotavirus Infections therapy

Abstract

Human rotavirus (RV) infection is a leading cause of dehydrating diarrhea in infants and young children worldwide. Since therapeutic approaches to RV gastroenteritis are limited to alleviation of dehydration with oral rehydration solutions, more direct approaches to palliate symptoms of RV gastroenteritis are required. Treatments with probiotics have been increasingly recognized as alternative safe and low cost treatments for moderate infectious diarrhea. In this study, Bifidobacterium bifidum G9-1 (BBG9-1), which has been used as an intestinal drug for several decades, was shown to have a remarkable protective effect against RV gastroenteritis in a suckling mice model. As well as prophylactic oral administration of BBG9-1 from 2 days before RV infection, therapeutic oral administration of BBG9-1 from 1 day after RV infection significantly alleviated RV-induced diarrhea. Therapeutic administration of BBG9-1 reduced various types of damage in the small intestine, such as epithelial vacuolization and villous shortening, and significantly diminished the infectious RV titer in mixtures of cecal contents and feces. It was also shown that therapeutic administration of BBG9-1 significantly increased the number of acidic mucin-positive goblet cells and the gene expression of mucosal protective factors including MUC2, MUC3, MUC4, TGFβ1 and TFF3 in the small intestine. This led to alleviation of low gut permeability shown as decreased gene expression levels of occludin, claudin-1 and villin-1 after RV infection. Furthermore, in the small intestine, therapeutic administration of BBG9-1 significantly palliated the decreased gene expression of SGLT-1, which plays an important role in water absorption. In the large intestine, administered BBG9-1 was shown to replicate to assimilate undigested nutrients, resulting in normalization of the abnormally high osmotic pressure. These results suggested that water malabsorption caused by RV infection was alleviated in mice administered BBG9-1. Thus, the present study showed that oral administration of BBG9-1 palliated diarrhea partly through protection against RV-induced lesions by inducing mucosal protective factors. Oral administration of BBG9-1 is thought to be an efficient method for management of an RV epidemic for both prophylactic and therapeutic purposes.

Published

2017

15. Monthly Distribution of Norovirus and Sapovirus Causing Viral Gastroenteritis in Thailand.

Author

Pongsuwanna Y, Tacharoenmuang R, Prapanpoj M, Sakon N, Komoto S, Guntapong R, and Taniguchi K

Subjects

Adolescent, Coinfection epidemiology, Coinfection virology, Disease Outbreaks, Feces virology, Female, Humans, Male, Norovirus classification, Norovirus genetics, Reverse Transcriptase Polymerase Chain Reaction, Seasons, Thailand epidemiology, Young Adult, Caliciviridae Infections epidemiology, Caliciviridae Infections virology, Gastroenteritis epidemiology, Gastroenteritis virology, Norovirus isolation & purification, Sapovirus isolation & purification

Abstract

A total of 1,141 rotavirus-negative stool specimens collected from diarrheic children in 4 distinct regions under sentinel surveillance in Thailand between 2006 and 2008 were examined by reverse-transcription (RT)-PCR for norovirus (NoV) and sapovirus (SaV). Three hundred 3 specimens (26.6%) were positive for NoV, with 34 and 269 belonging to genogroup I (GI) and genogroup II (GII), respectively. Twelve specimens (1.1%) were positive for SaV. Mixed infections were found in 5 specimens: 3 samples indicated the presence of both NoV GI and GII, and 2 samples indicated the presence of both NoV GII and SaV. Analysis of the monthly distribution of NoV and SaV revealed that NoV GII was clustered between September and February, while NoV GI was detected mainly in June and July; SaV was found in May, June, and July. In addition, 3 outbreaks of acute gastroenteritis at 2 junior high schools in Phichit and Bangkok, and at a university in Phitsanulok, Thailand in 2006 were found to have been caused by NoV infection. Sequence analysis of NoVs from sporadic cases and outbreaks showed them to be genotypes GII.4 and GII.6.

Published

2017

16. High Prevalence of G12 Human Rotaviruses in Children with Gastroenteritis in Myanmar.

Author

Ide T, Higo-Moriguchi K, Komoto S, Htun KW, Myint YY, Myat TW, Thant KZ, Thu HM, Win MM, Oo HN, Htut T, Rahman S, Nguyen SV, Umeda K, Oguma K, Tsuji T, and Taniguchi K

Subjects

Antigens, Viral immunology, Capsid Proteins genetics, Child, Preschool, Feces virology, Female, Gastroenteritis diagnosis, Gastroenteritis virology, Humans, Infant, Male, Myanmar epidemiology, Phylogeny, Prevalence, Reverse Transcriptase Polymerase Chain Reaction, Rotavirus classification, Rotavirus immunology, Rotavirus isolation & purification, Rotavirus Infections diagnosis, Rotavirus Infections virology, Gastroenteritis epidemiology, Genotype, RNA, Viral genetics, Rotavirus genetics, Rotavirus Infections epidemiology

Abstract

Human rotavirus samples from 54 children with acute gastroenteritis in Myanmar in 2011 were subjected to reverse transcription-PCR to determine their G and P types. On G typing, G2 (24/54; 44.4%) was found to be the most prevalent, followed by G12 (17/54; 31.5%) and G1 (1/54; 1.9%). Mixed cases with G2 and G12 were found in 12 of the 54 (22.2%) samples. On P typing, P[4] was found to be the most predominant (29/54; 53.7%), followed by P[8] (17/54; 31.5%) and P[6] (4/54; 7.4%). Mixed cases with P[4] and P[8] were detected in 4 of 54 (7.4%) samples. Thus, occurrence of G2 and unusual G12 in high proportions was characteristic of human rotaviruses in Myanmar in this study setting.

Published

2016

17. Sudden death from systemic rotavirus infection and detection of nonstructural rotavirus proteins.

Author

Nakano I, Taniguchi K, Ishibashi-Ueda H, Maeno Y, Yamamoto N, Yui A, Komoto S, Wakata Y, Matsubara T, and Ozaki N

Subjects

Brain pathology, Brain virology, Child, Preschool, Encephalitis, Viral pathology, Encephalitis, Viral virology, Female, Gastroenteritis complications, Gastroenteritis virology, Heart virology, Histocytochemistry, Humans, Immunohistochemistry, Intestines pathology, Intestines virology, Liver pathology, Liver virology, Microscopy, Myocardium pathology, Rotavirus Infections pathology, Rotavirus Infections virology, Death, Sudden etiology, Encephalitis, Viral diagnosis, Gastroenteritis diagnosis, Rotavirus isolation & purification, Rotavirus Infections diagnosis, Viral Nonstructural Proteins analysis

Abstract

A 2.5-year-old girl died suddenly during the course of rotavirus gastroenteritis. The autopsy showed encephalopathy with rotavirus systemic infection. Here, we provide evidence of rotavirus replication in multiple organs. Our findings clarify that rotavirus infection in children can extend beyond the intestinal tract through viremia.

Published

2011

18. Impact of rotavirus vaccination on rotavirus hospitalisation rates among a resource-limited rural population in Mbita, Western Kenya.

Author

Wandera, Ernest Apondi, Mohammad, Shah, Bundi, Martin, Nyangao, James, Galata, Amina, Kathiiko, Cyrus, Odoyo, Erick, Guyo, Sora, Miring'u, Gabriel, Komoto, Satoshi, Ichinose, Yoshio, and Miring'u, Gabriel

Subjects

ROTAVIRUS vaccines, RURAL population, DRUG dosage, HOSPITAL care, MBITA Point (Kenya), HEALTH, GASTROENTERITIS treatment, COMPARATIVE studies, GASTROENTERITIS, IMMUNITY, IMMUNIZATION, RESEARCH methodology, MEDICAL care use, MEDICAL cooperation, MEDICAL protocols, RESEARCH, RETROVIRUS diseases, ROTAVIRUSES, EVALUATION research, ACUTE diseases, DISEASE complications, PREVENTION

Abstract

Copyright of Tropical Medicine & International Health is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

19. Predominant prevalence of human rotaviruses with the G1P[8] and G8P[8] genotypes with a short RNA profile in 2013 and 2014 in Sukhothai and Phetchaboon provinces, Thailand.

Author

Guntapong, Ratigorn, Tacharoenmuang, Ratana, Singchai, Phakapun, Upachai, Sompong, Sutthiwarakom, Karun, Komoto, Satoshi, Tsuji, Takao, Tharmaphornpilas, Piyanit, Yoshikawa, Tetsushi, Sangkitporn, Somchai, and Taniguchi, Koki

Abstract

Of 2,754 stool specimens collected from children with acute gastroenteritis during 2013-2014 in Sukhothai and Phetchaboon provinces, Thailand, 666 (24.2%) were positive for rotavirus A (RVA) in polyacrylamide gel electrophoresis (PAGE). The G and P types of all RVA-positive specimens were determined by semi-nested RT-PCR. G1P[8] (56.5%) was most prevalent, followed by G2P[4] (22.1%). Unusual G8P[8] human RVAs (HuRVAs) were detected at a high frequency (20.0%). Interestingly, 171 of the 376 G1P[8] HuRVAs and all of the 133 G8P[8] HuRVAs showed a short RNA pattern in PAGE. Thus, it was shown that the properties of HuRVAs have been markedly unusual in recent years in Thailand. J. Med. Virol. 89:615-620, 2017. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2017

20. Whole Genomic Analysis of Human G12P[6] and G12P[8] Rotavirus Strains that Have Emerged in Myanmar.

Author

Ide, Tomihiko, Komoto, Satoshi, Higo-Moriguchi, Kyoko, Htun, Khaing Win, Myint, Yi Yi, Myat, Theingi Win, Thant, Kyaw Zin, Thu, Hlaing Myat, Win, Mo Mo, Oo, Htun Naing, Htut, Than, Wakuda, Mitsutaka, Dennis, Francis Ekow, Haga, Kei, Fujii, Yoshiki, Katayama, Kazuhiko, Rahman, Shofiqur, Nguyen, Sa Van, Umeda, Kouji, and Oguma, Keiji

Subjects

*DIARRHEA in infants, *ROTAVIRUSES, *NUCLEOTIDE sequence, *GASTROENTERITIS

Abstract

G12 rotaviruses are emerging rotavirus strains causing severe diarrhea in infants and young children worldwide. However, the whole genomes of only a few G12 strains have been fully sequenced and analyzed. In this study, we sequenced and characterized the complete genomes of six G12 strains (RVA/Human-tc/MMR/A14/2011/G12P[8], RVA/Human-tc/MMR/A23/2011/G12P[6], RVA/Human-tc/MMR/A25/2011/G12P[8], RVA/Human-tc/MMR/P02/2011/G12P[8], RVA/Human-tc/MMR/P39/2011/G12P[8], and RVA/Human-tc/MMR/P43/2011/G12P[8]) detected in six stool samples from children with acute gastroenteritis in Myanmar. On whole genomic analysis, all six Myanmarese G12 strains were found to have a Wa-like genetic backbone: G12-P[8]-I1-R1-C1-M1-A1-N1-T1-E1-H1 for strains A14, A25, P02, P39, and P43, and G12-P[6]-I1-R1-C1-M1-A1-N1-T1-E1-H1 for strain A23. Phylogenetic analysis showed that most genes of the six strains examined in this study were genetically related to globally circulating human G1, G3, G9, and G12 strains. Of note is that the NSP4 gene of strain A23 exhibited the closest relationship with the cognate genes of human-like bovine strains as well as human strains, suggesting the occurrence of reassortment between human and bovine strains. Furthermore, strains A14, A25, P02, P39, and P43 were very closely related to one another in all the 11 gene segments, indicating derivation of the five strains from a common origin. On the other hand, strain A23 consistently formed distinct clusters as to all the 11 gene segments, indicating a distinct origin of strain A23 from that of strains A14, A25, P02, P39, and P43. To our knowledge, this is the first report on whole genome-based characterization of G12 strains that have emerged in Myanmar. Our observations will provide important insights into the evolutionary dynamics of spreading G12 rotaviruses in Asia. [ABSTRACT FROM AUTHOR]

Published

2015

21. Human Rotavirus Reverse Genetics Systems to Study Viral Replication and Pathogenesis.

Author

Komoto, Satoshi, Fukuda, Saori, Murata, Takayuki, and Taniguchi, Koki

Subjects

*ROTAVIRUSES, *REVERSE genetics, *VIRAL replication, *ROTAVIRUS diseases, *PATHOGENESIS, *NOROVIRUS diseases, *VACCINE development, *GASTROENTERITIS

Abstract

Human rotaviruses (HuRVAs) are highly important causes of acute gastroenteritis in infants and young children worldwide. A lack of reliable and reproducible reverse genetics systems for HuRVAs has limited a proper understanding of HuRVA biology and also the rational design of live-attenuated vaccines. Since the development of the first reverse genetics system for RVAs (partially plasmid-based reverse genetics system) in 2006, there have been many efforts with the goal of generating infectious recombinant HuRVAs entirely from cloned cDNAs. However, the establishment of a HuRVA reverse genetics system was very challenging until 2019. This review article provides an overview of the historical background of the recent development of long-awaited HuRVA reverse genetics systems, beginning with the generation of recombinant human-simian reassortant RVAs with the aid of a helper virus in 2006 and the generation of recombinant animal (simian) RVAs in a helper virus-free manner in 2017, and culminating in the generation of recombinant HuRVAs entirely from plasmid cDNAs in 2019. Notably, the original HuRVA reverse genetics system has already been optimized to increase the efficiency of virus generation. Although the application of HuRVA reverse genetics systems has only just been initiated, these technologies will help to answer HuRVA research questions regarding viral replication and pathogenicity that could not be addressed before, and to develop next-generation vaccines and intestine-specific rotaviral vectors. [ABSTRACT FROM AUTHOR]

Published

2021