Mawar Subangkit scite author profile

Bats are known to harbor emerging RNA viruses. Recent studies have used high-throughput sequencing technology to identify various virus species, including DNA viruses that are harbored by bats; however, little is known about the nature of these potentially novel viruses. Here, we report the characterization of a novel herpesvirus isolated from an Indonesian pteropodid bat. The virus, tentatively named fruit bat alphaherpesvirus 1 (FBAHV1), has a double-stranded DNA genome of 149,459 bp. The phylogenetic analyses suggested that FBAHV1 is phylogenetically grouped with simplexviruses within the subfamily Alphaherpesvirinae. Inoculation of FBAHV1 into laboratory mice caused a lethal infection. Virus infection was observed in lung, liver, and brain tissue. Serological and PCR screening revealed that fruit bats infected with FBAHV1 or its related virus are widely distributed in Indonesia. The identification of FBAHV1 makes a considerable contribution to our understanding of simplexviruses associated with bats. IMPORTANCEBats are known to harbor emerging viruses, such as lyssaviruses, henipaviruses, severe acute respiratory syndrome-like coronaviruses, and filoviruses. Although alphaherpesviruses are disseminated in humans and other animals, there is little information about their distribution in bats. Here, we isolated a previously unknown alphaherpesvirus from an Indonesian fruit bat. Genome sequence analysis suggested that the virus is a member of the genus Simplexvirus within the subfamily Alphaherpesvirinae, which also includes common human viruses, such as herpes simplex virus 1 and herpes simplex virus 2. FBAHV1 is the first batderived alphaherpesvirus whose complete genome has been sequenced.

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Molecular detection of a novel paramyxovirus in fruit bats from Indonesia

Sasaki

Setiyono

Handharyani

et al. 2012

Virol J

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BackgroundFruit bats are known to harbor zoonotic paramyxoviruses including Nipah, Hendra, and Menangle viruses. The aim of this study was to detect the presence of paramyxovirus RNA in fruit bats from Indonesia.MethodsRNA samples were obtained from the spleens of 110 fruit bats collected from four locations in Indonesia. All samples were screened by semi-nested broad spectrum reverse transcription PCR targeting the paramyxovirus polymerase (L) genes.ResultsSemi-nested reverse transcription PCR detected five previously unidentified paramyxoviruses from six fruit bats. Phylogenetic analysis showed that these virus sequences were related to henipavirus or rubulavirus.ConclusionsThis study indicates the presence of novel paramyxoviruses among fruit bat populations in Indonesia.

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Co-infection of epithelial cells established from the upper and lower bovine respiratory tract with bovine respiratory syncytial virus and bacteria

Sudaryatma

Mekata

Kubo³

et al. 2019

Veterinary Microbiology

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Detection of coronavirus genomes in Moluccan naked-backed fruit bats in Indonesia

et al. 2015

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1Bats have been shown to serve as natural reservoirs for numerous emerging viruses including the severe acute 2 respiratory syndrome coronavirus (SARS-CoV). In the present study, we report the discovery of bat CoV genes 3 in Indonesian Moluccan naked-back fruit bats (Dobsonia moluccensis). The partial RNA-dependent RNA 4 polymerase gene was detected in feces and tissues samples of the fruit bats and the helicase and a region 5 between the partial RdRp and partial helicase genes could also be amplified from fecal samples. Phylogenetic 6 analysis suggested the existence of these bat CoVs is related to the genus Betacoronavirus. 7 8

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Bovine respiratory syncytial virus infection enhances Pasteurella multocida adherence on respiratory epithelial cells

Sudaryatma

Nakamura

Mekata

et al. 2018

Veterinary Microbiology

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Primary infection with bovine respiratory syncytial virus (BRSV) predisposes cattle to secondary infection with bacteria that cause bovine respiratory disease complex (BRDC). However, the interaction between BRSV and bacteria is unclear. This in vitro study examined the adherence of Pasteurella multocida (PM) to BRSV-infected cells was assessed in colony forming unit assays, by flow cytometry analysis, and by indirect immunofluorescence analysis (IFA) of epithelial cells (A549, HEp-2, and MDBK). An in vitro model based on infection of BRSV-infected epithelial cells revealed that PM adherence to BRSV-infected cells was 2- to 8-fold higher than uninfected cells. This was confirmed by flow cytometry analysis and IFA. Epithelial cell expression of mRNA encoding cytokines and chemokines increased after exposure to PM, but increased further after co-infection with BRSV and PM. BRSV-mediated adherence of PM to epithelial cells may underlie the serious symptoms of BRDC.

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Mawar Subangkit

Isolation and Characterization of a Novel Alphaherpesvirus in Fruit Bats

Molecular detection of a novel paramyxovirus in fruit bats from Indonesia

Co-infection of epithelial cells established from the upper and lower bovine respiratory tract with bovine respiratory syncytial virus and bacteria

Detection of coronavirus genomes in Moluccan naked-backed fruit bats in Indonesia

Bovine respiratory syncytial virus infection enhances Pasteurella multocida adherence on respiratory epithelial cells

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