Your search keyword '"Okuya, Kosuke"' showing total 6 results

1. Surveillance, Isolation, and Genetic Characterization of Bat Herpesviruses in Zambia.

Author

Harima, Hayato, Qiu, Yongjin, Yamagishi, Junya, Kajihara, Masahiro, Changula, Katendi, Okuya, Kosuke, Isono, Mao, Yamaguchi, Tomoyuki, Ogawa, Hirohito, Nao, Naganori, Sasaki, Michihito, Simulundu, Edgar, Mweene, Aaron S., Sawa, Hirofumi, Ishihara, Kanako, Hang'ombe, Bernard M., and Takada, Ayato

Subjects

HERPESVIRUSES, HERPESVIRUS diseases, DNA polymerases, BATS, DNA analysis, VIRUS diversity

Abstract

Bats are of significant interest as reservoirs for various zoonotic viruses with high diversity. During the past two decades, many herpesviruses have been identified in various bats worldwide by genetic approaches, whereas there have been few reports on the isolation of infectious herpesviruses. Herein, we report the prevalence of herpesvirus infection of bats captured in Zambia and genetic characterization of novel gammaherpesviruses isolated from striped leaf-nosed bats (Macronycteris vittatus). By our PCR screening, herpesvirus DNA polymerase (DPOL) genes were detected in 29.2% (7/24) of Egyptian fruit bats (Rousettus aegyptiacus), 78.1% (82/105) of Macronycteris vittatus, and one Sundevall's roundleaf bat (Hipposideros caffer) in Zambia. Phylogenetic analyses of the detected partial DPOL genes revealed that the Zambian bat herpesviruses were divided into seven betaherpesvirus groups and five gammaherpesvirus groups. Two infectious strains of a novel gammaherpesvirus, tentatively named Macronycteris gammaherpesvirus 1 (MaGHV1), were successfully isolated from Macronycteris vittatus bats, and their complete genomes were sequenced. The genome of MaGHV1 encoded 79 open reading frames, and phylogenic analyses of the DNA polymerase and glycoprotein B demonstrated that MaGHV1 formed an independent lineage sharing a common origin with other bat-derived gammaherpesviruses. Our findings provide new information regarding the genetic diversity of herpesviruses maintained in African bats. [ABSTRACT FROM AUTHOR]

Published

2023

2. Serological and molecular epidemiological study on swine influenza in Zambia.

Author

Harima, Hayato, Okuya, Kosuke, Kajihara, Masahiro, Ogawa, Hirohito, Simulundu, Edgar, Bwalya, Eugene, Qiu, Yongjin, Mori‐Kajihara, Akina, Munyeme, Musso, Sakoda, Yoshihiro, Saito, Takehiko, Hang'ombe, Bernard M., Sawa, Hirofumi, Mweene, Aaron S., and Takada, Ayato

Subjects

*SWINE influenza, *H1N1 influenza, *PANDEMICS, *COMMUNICABLE diseases, *NEUTRALIZATION tests, *SERODIAGNOSIS, *ANIMAL diseases

Abstract

Influenza A viruses (IAVs) cause highly contagious respiratory diseases in humans and animals. In 2009, a swine‐origin pandemic H1N1 IAV, designated A(H1N1)pdm09 virus, spread worldwide, and has since frequently been introduced into pig populations. Since novel reassortant IAVs with pandemic potential may emerge in pigs, surveillance for IAV in pigs is therefore necessary not only for the pig industry but also for public health. However, epidemiological information on IAV infection of pigs in Africa remains sparse. In this study, we collected 246 serum and 605 nasal swab samples from pigs in Zambia during the years 2011–2018. Serological analyses revealed that 49% and 32% of the sera collected in 2011 were positive for hemagglutination‐inhibition (HI) and neutralizing antibodies against A(H1N1)pdm09 virus, respectively, whereas less than 5.3% of sera collected during the following period (2012–2018) were positive in both serological tests. The positive rate and the neutralization titres to A(H1N1)pdm09 virus were higher than those to classical swine H1N1 and H1N2 IAVs. On the other hand, the positive rate for swine H3N2 IAV was very low in the pig population in Zambia in 2011–2018 (5.3% and 0% in HI and neutralization tests, respectively). From nasal swab samples, we isolated one H3N2 and eight H1N1 IAV strains with an isolation rate of 1.5%. Phylogenetic analyses of all eight gene segments revealed that the isolated IAVs were closely related to human IAV strains belonging to A(H1N1)pdm09 and seasonal H3N2 lineages. Our findings indicate that reverse zoonotic transmission from humans to pigs occurred during the study period in Zambia and highlight the need for continued surveillance to monitor the status of IAVs circulating in swine populations in Africa. [ABSTRACT FROM AUTHOR]

Published

2022

3. Attenuated infection by a Pteropine orthoreovirus isolated from an Egyptian fruit bat in Zambia.

Author

Harima, Hayato, Sasaki, Michihito, Orba, Yasuko, Okuya, Kosuke, Qiu, Yongjin, Wastika, Christida E., Changula, Katendi, Kajihara, Masahiro, Simulundu, Edgar, Yamaguchi, Tomoyuki, Eto, Yoshiki, Mori-Kajihara, Akina, Sato, Akihiko, Taniguchi, Satoshi, Takada, Ayato, Saijo, Masayuki, Hang'ombe, Bernard M., and Sawa, Hirofumi

Subjects

REOVIRUSES, FRUIT, BATS, EMERGING infectious diseases, NEUTRALIZATION tests, REVERSE transcriptase polymerase chain reaction

Abstract

Background: Pteropine orthoreovirus (PRV) is an emerging bat-borne zoonotic virus that causes severe respiratory illness in humans. Although PRVs have been identified in fruit bats and humans in Australia and Asia, little is known about the prevalence of PRV infection in Africa. Therefore, this study performed an PRV surveillance in fruit bats in Zambia. Methods: Egyptian fruit bats (Rousettus aegyptiacus, n = 47) and straw-colored fruit bats (Eidolon helvum, n = 33) captured in Zambia in 2017–2018 were screened for PRV infection using RT-PCR and serum neutralization tests. The complete genome sequence of an isolated PRV strain was determined by next generation sequencing and subjected to BLAST and phylogenetic analyses. Replication capacity and pathogenicity of the strain were investigated using Vero E6 cell cultures and BALB/c mice, respectively. Results: An PRV strain, tentatively named Nachunsulwe-57, was isolated from one Egyptian fruit bat. Serological assays demonstrated that 98% of sera (69/70) collected from Egyptian fruit bats (n = 37) and straw-colored fruit bats (n = 33) had neutralizing antibodies against PRV. Genetic analyses revealed that all 10 genome segments of Nachunsulwe-57 were closely related to a bat-derived Kasama strain found in Uganda. Nachunsulwe-57 showed less efficiency in viral growth and lower pathogenicity in mice than another PRV strain, Miyazaki-Bali/2007, isolated from a patient. Conclusions: A high proportion of Egyptian fruit bats and straw-colored fruit bats were found to be seropositive to PRV in Zambia. Importantly, a new PRV strain (Nachunsulwe-57) was isolated from an Egyptian fruit bat in Zambia, which had relatively weak pathogenicity in mice. Taken together, our findings provide new epidemiological insights about PRV infection in bats and indicate the first isolation of an PRV strain that may have low pathogenicity to humans. Author summary: Pteropine orthoreovirus (PRV) is a causative agent of acute respiratory illness in humans in tropical and sub-tropical regions in Southeast Asia. PRVs have been originally isolated from fruit bats, and it is assumed that PRVs spread to humans by both bat-to-human and human-to-human transmission. Recently, an PRV was also detected from a fruit bat in the Afrotropical region and might potentially cause an emerging infection of the bat-borne zoonotic virus in Africa. However, little is known about the prevalence of PRV infection in Africa. In this study, we demonstrated the high prevalence of PRV infection in bat populations in Zambia and isolated a new strain of PRV from Egyptian fruit bats. In addition, we found that the bat-derived PRV strain had lower pathogenicity in mice than a human-derived PRV strain isolated from a patient in Southeast Asia. Our findings provide new epidemiological information about PRV in fruit bats in the Afrotropical region and indicate the first isolation of an PRV strain that may cause attenuated infection in humans. [ABSTRACT FROM AUTHOR]

Published

2021

4. Genetic and Biological Diversity of Porcine Sapeloviruses Prevailing in Zambia.

Author

Harima, Hayato, Kajihara, Masahiro, Simulundu, Edgar, Bwalya, Eugene, Qiu, Yongjin, Isono, Mao, Okuya, Kosuke, Gonzalez, Gabriel, Yamagishi, Junya, Hang'ombe, Bernard M., Sawa, Hirofumi, Mweene, Aaron S., and Takada, Ayato

Subjects

BIODIVERSITY, GENETIC recombination, ECONOMIC impact, SWINE

Abstract

Porcine sapelovirus (PSV) has been detected worldwide in pig populations. Although PSV causes various symptoms such as encephalomyelitis, diarrhea, and pneumonia in pigs, the economic impact of PSV infection remains to be determined. However, information on the distribution and genetic diversity of PSV is quite limited, particularly in Africa. In this study, we investigated the prevalence of PSV infection in Zambia and characterized the isolated PSVs genetically and biologically. We screened 147 fecal samples collected in 2018 and found that the prevalences of PSV infection in suckling pigs and fattening pigs were high (36.2% and 94.0%, respectively). Phylogenetic analyses revealed that the Zambian PSVs were divided into three different lineages (Lineages 1–3) in the clade consisting of Chinese strains. The Zambian PSVs belonging to Lineages 2 and 3 replicated more efficiently than those belonging to Lineage 1 in Vero E6 and BHK cells. Bioinformatic analyses revealed that genetic recombination events had occurred and the recombination breakpoints were located in the L and 2A genes. Our results indicated that at least two biologically distinct PSVs could be circulating in the Zambian pig population and that genetic recombination played a role in the evolution of PSVs. [ABSTRACT FROM AUTHOR]

Published

2020

5. Characterization of mammalian orthoreoviruses isolated from faeces of pigs in Zambia.

Author

Harima H, Sasaki M, Kajihara M, Gonzalez G, Simulundu E, Bwalya EC, Qiu Y, Okuya K, Isono M, Orba Y, Takada A, Hang'ombe BM, Mweene AS, and Sawa H

Subjects

Animals, Animals, Wild classification, Animals, Wild virology, Chiroptera virology, Genome, Viral, Host Specificity, Phylogeny, Prevalence, Reassortant Viruses genetics, Recombination, Genetic, Reoviridae Infections epidemiology, Reoviridae Infections virology, Swine Diseases epidemiology, Viral Proteins genetics, Whole Genome Sequencing, Zambia epidemiology, Feces virology, Orthoreovirus, Mammalian genetics, Orthoreovirus, Mammalian isolation & purification, Reoviridae Infections veterinary, Swine virology, Swine Diseases virology

Abstract

Mammalian orthoreovirus (MRV) has been identified in humans, livestock and wild animals; this wide host range allows individual MRV to transmit into multiple species. Although several interspecies transmission and genetic reassortment events of MRVs among humans, livestock and wildlife have been reported, the genetic diversity and geographic distribution of MRVs in Africa are poorly understood. In this study, we report the first isolation and characterization of MRVs circulating in a pig population in Zambia. In our screening, MRV genomes were detected in 19.7 % (29/147) of faecal samples collected from pigs by reverse transcription PCR. Three infectious MRV strains (MRV-85, MRV-96 and MRV-117) were successfully isolated, and their complete genomes were sequenced. Recombination analyses based on the complete genome sequences of the isolated MRVs demonstrated that MRV-96 shared the S3 segment with a different MRV isolated from bats, and that the L1 and M3 segments of MRV-117 originated from bat and human MRVs, respectively. Our results suggest that the isolated MRVs emerged through genetic reassortment events with interspecies transmission. Given the lack of information regarding MRVs in Africa, further surveillance of MRVs circulating among humans, domestic animals and wildlife is required to assess potential risk for humans and animals.

Published

2020

6. Marburgvirus in Egyptian Fruit Bats, Zambia.

Author

Kajihara M, Hang'ombe BM, Changula K, Harima H, Isono M, Okuya K, Yoshida R, Mori-Kajihara A, Eto Y, Orba Y, Ogawa H, Qiu Y, Sawa H, Simulundu E, Mwizabi D, Munyeme M, Squarre D, Mukonka V, Mweene A, and Takada A

Subjects

Animals, Genes, Viral, Humans, Marburg Virus Disease diagnosis, Marburg Virus Disease epidemiology, Phylogeny, Prevalence, Public Health Surveillance, RNA, Viral, Zambia epidemiology, Chiroptera virology, Marburg Virus Disease virology, Marburgvirus classification, Marburgvirus genetics, Marburgvirus isolation & purification

Abstract

We detected Marburg virus genome in Egyptian fruit bats (Rousettus aegyptiacus) captured in Zambia in September 2018. The virus was closely related phylogenetically to the viruses that previously caused Marburg outbreaks in the Democratic Republic of the Congo. This finding demonstrates that Zambia is at risk for Marburg virus disease.

Published

2019