Your search keyword '"1000070805407"' showing total 8 results

1. Isolation and characterization of distinct Rotavirus A in bat and rodent hosts

Author

Kishimoto, Mai, 1000070711894, Kajihara, Masahiro, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Ozono, Seiya, Sato, Yuko, 1000030527180, Suzuki, Tadaki, 1000020334922, Ito, Naoto, Changula, Katendi, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Eto, Yoshiki, 1000070805407, Harima, Hayato, Mwizabi, Daniel, Hang'ombe, Bernard M., Hall, William W., 1000010292062, Takada, Ayato, 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Kishimoto, Mai, 1000070711894, Kajihara, Masahiro, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Ozono, Seiya, Sato, Yuko, 1000030527180, Suzuki, Tadaki, 1000020334922, Ito, Naoto, Changula, Katendi, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Eto, Yoshiki, 1000070805407, Harima, Hayato, Mwizabi, Daniel, Hang'ombe, Bernard M., Hall, William W., 1000010292062, Takada, Ayato, 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, and Sasaki, Michihito

Abstract

Rotavirus A (RVA) causes diarrheal disease in humans and various animals. Recent studies have identified bat and rodent RVAs with evidence of zoonotic transmission and genome reassortment. However, the virological properties of bat and rodent RVAs with currently identified genotypes still need to be better clarified. Here, we performed virus isolation-based screening for RVA in animal specimens and isolated RVAs (representative strains: 16-06 and MpR12) from Egyptian fruit bat and Natal multimammate mouse collected in Zambia. Whole-genome sequencing and phylogenetic analysis revealed that the genotypes of bat RVA 16-06 were identical to that of RVA BATp39 strain from the Kenyan fruit bat, which has not yet been characterized. Moreover, all segments of rodent RVA MpR12 were highly divergent and assigned to novel genotypes, but RVA MpR12 was phylogenetically closer to bat RVAs than to other rodent RVAs, indicating a unique evolutionary history. We further investigated the virological properties of the isolated RVAs. In brief, we found that 16-06 entered cells by binding to sialic acids on the cell surface, while MpR12 entered in a sialic acid-independent manner. Experimental inoculation of suckling mice with 16-06 and MpR12 revealed that these RVAs are causative agents of diarrhea. Moreover, 16-06 and MpR12 demonstrated an ability to infect and replicate in a 3D-reconstructed primary human intestinal epithelium with comparable efficiency to the human RVA. Taken together, our results detail the unique genetic and virological features of bat and rodent RVAs and demonstrate the need for further investigation of their zoonotic potential. IMPORTANCE Recent advances in nucleotide sequence detection methods have enabled the detection of RVA genomes from various animals. These studies have discovered multiple divergent RVAs and have resulted in proposals for the genetic classification of novel genotypes. However, most of these RVAs have been identified via dsRNA viral genomes

Published

2023

2. Isolation and characterization of distinct Rotavirus A in bat and rodent hosts

Author

Kishimoto, Mai, 1000070711894, Kajihara, Masahiro, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Ozono, Seiya, Sato, Yuko, 1000030527180, Suzuki, Tadaki, 1000020334922, Ito, Naoto, Changula, Katendi, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Eto, Yoshiki, 1000070805407, Harima, Hayato, Mwizabi, Daniel, Hang'ombe, Bernard M., Hall, William W., 1000010292062, Takada, Ayato, 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Kishimoto, Mai, 1000070711894, Kajihara, Masahiro, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Ozono, Seiya, Sato, Yuko, 1000030527180, Suzuki, Tadaki, 1000020334922, Ito, Naoto, Changula, Katendi, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Eto, Yoshiki, 1000070805407, Harima, Hayato, Mwizabi, Daniel, Hang'ombe, Bernard M., Hall, William W., 1000010292062, Takada, Ayato, 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, and Sasaki, Michihito

Abstract

Rotavirus A (RVA) causes diarrheal disease in humans and various animals. Recent studies have identified bat and rodent RVAs with evidence of zoonotic transmission and genome reassortment. However, the virological properties of bat and rodent RVAs with currently identified genotypes still need to be better clarified. Here, we performed virus isolation-based screening for RVA in animal specimens and isolated RVAs (representative strains: 16-06 and MpR12) from Egyptian fruit bat and Natal multimammate mouse collected in Zambia. Whole-genome sequencing and phylogenetic analysis revealed that the genotypes of bat RVA 16-06 were identical to that of RVA BATp39 strain from the Kenyan fruit bat, which has not yet been characterized. Moreover, all segments of rodent RVA MpR12 were highly divergent and assigned to novel genotypes, but RVA MpR12 was phylogenetically closer to bat RVAs than to other rodent RVAs, indicating a unique evolutionary history. We further investigated the virological properties of the isolated RVAs. In brief, we found that 16-06 entered cells by binding to sialic acids on the cell surface, while MpR12 entered in a sialic acid-independent manner. Experimental inoculation of suckling mice with 16-06 and MpR12 revealed that these RVAs are causative agents of diarrhea. Moreover, 16-06 and MpR12 demonstrated an ability to infect and replicate in a 3D-reconstructed primary human intestinal epithelium with comparable efficiency to the human RVA. Taken together, our results detail the unique genetic and virological features of bat and rodent RVAs and demonstrate the need for further investigation of their zoonotic potential. IMPORTANCE Recent advances in nucleotide sequence detection methods have enabled the detection of RVA genomes from various animals. These studies have discovered multiple divergent RVAs and have resulted in proposals for the genetic classification of novel genotypes. However, most of these RVAs have been identified via dsRNA viral genomes

Published

2023

3. An African tick flavivirus forming an independent clade exhibits unique exoribonuclease-resistant RNA structures in the genomic 3 '-untranslated region

Author

1000070805407, Harima, Hayato, 1000060507169, Orba, Yasuko, 1000040878287, Torii, Shiho, 1000000760985, Qiu, Yongjin, 1000070711894, Kajihara, Masahiro, Eto, Yoshiki, Matsuta, Naoya, Hang'ombe, Bernard M., 1000010082223, Eshita, Yuki, Uemura, Kentaro, 1000040753306, Matsuno, Keita, 1000070609403, Sasaki, Michihito, 1000050421988, Yoshii, Kentaro, 1000050633955, Nakao, Ryo, Hall, William W., 1000010292062, Takada, Ayato, 1000030390628, Abe, Takashi, Wolfinger, Michael T., Simuunza, Martin, 1000030292006, Sawa, Hirofumi, 1000070805407, Harima, Hayato, 1000060507169, Orba, Yasuko, 1000040878287, Torii, Shiho, 1000000760985, Qiu, Yongjin, 1000070711894, Kajihara, Masahiro, Eto, Yoshiki, Matsuta, Naoya, Hang'ombe, Bernard M., 1000010082223, Eshita, Yuki, Uemura, Kentaro, 1000040753306, Matsuno, Keita, 1000070609403, Sasaki, Michihito, 1000050421988, Yoshii, Kentaro, 1000050633955, Nakao, Ryo, Hall, William W., 1000010292062, Takada, Ayato, 1000030390628, Abe, Takashi, Wolfinger, Michael T., Simuunza, Martin, 1000030292006, and Sawa, Hirofumi

Abstract

Tick-borne flaviviruses (TBFVs) infect mammalian hosts through tick bites and can cause various serious illnesses, such as encephalitis and hemorrhagic fevers, both in humans and animals. Despite their importance to public health, there is limited epidemiological information on TBFV infection in Africa. Herein, we report that a novel flavivirus, Mpulungu flavivirus (MPFV), was discovered in a Rhipicephalus muhsamae tick in Zambia. MPFV was found to be genetically related to Ngoye virus detected in ticks in Senegal, and these viruses formed a unique lineage in the genus Flavivirus. Analyses of dinucleotide contents of flaviviruses indicated that MPFV was similar to those of other TBFVs with a typical vertebrate genome signature, suggesting that MPFV may infect vertebrate hosts. Bioinformatic analyses of the secondary structures in the 3 ' -untranslated regions (UTRs) revealed that MPFV exhibited unique exoribonuclease-resistant RNA (xrRNA) structures. Utilizing biochemical approaches, we clarified that two xrRNA structures of MPFV in the 3 ' -UTR could prevent exoribonuclease activity. In summary, our findings provide new information regarding the geographical distribution of TBFV and xrRNA structures in the 3 ' -UTR of flaviviruses.

Published

2021

4. Hepatitis E virus infection in pigs : a first report from Zambia

Author

Chambaro, Herman M., 1000070609403, Sasaki, Michihito, Muleya, Walter, 1000070711894, Kajihara, Masahiro, Shawa, Misheck, Mwape, Kabemba E., 1000070805407, Harima, Hayato, 1000000760985, Qiu, Yongjin, Hall, William W., Fandamu, Paul, Squarre, David, Simulundu, Edgar, 1000030292006, Sawa, Hirofumi, 1000060507169, Orba, Yasuko, Chambaro, Herman M., 1000070609403, Sasaki, Michihito, Muleya, Walter, 1000070711894, Kajihara, Masahiro, Shawa, Misheck, Mwape, Kabemba E., 1000070805407, Harima, Hayato, 1000000760985, Qiu, Yongjin, Hall, William W., Fandamu, Paul, Squarre, David, Simulundu, Edgar, 1000030292006, Sawa, Hirofumi, 1000060507169, and Orba, Yasuko

Abstract

While evidence suggests presence of HEV infection in humans in Zambia, currently, there is no information on its occurrence in domestic pigs. Here, we investigated the presence of HEV antibodies and genome in domestic pigs in Zambia. Sera (n = 484) from domestic pigs were screened for antibodies against HEV by ELISA while genome detection in fecal (n = 25) and liver (n = 100) samples from slaughter pigs was conducted using nested RT-PCR assay. Overall, seroprevalence was 47.7% (231/484) while zoonotic genotype 3 HEV RNA was detected in 16.0% (20/125) of slaughtered pigs. This is the first report to highlight occurrence of HEV infection in domestic pigs in Zambia. This finding suggests possible contamination of the pork supply chain. Moreover, there is a potential risk of zoonotic transmission of HEV to abattoir workers, pig farmers and handlers.

Published

2021

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

Author

1000070805407, Harima, Hayato, 1000070609403, Sasaki, Michihito, 1000060507169, Orba, Yasuko, Okuya, Kosuke, 1000000760985, Qiu, Yongjin, Wastika, Christida E., Changula, Katendi, 1000070711894, Kajihara, Masahiro, Simulundu, Edgar, Yamaguchi, Tomoyuki, Eto, Yoshiki, Mori-Kajihara, Akina, Sato, Akihiko, Taniguchi, Satoshi, 1000010292062, Takada, Ayato, Saijo, Masayuki, Hang'ombe, Bernard M., 1000030292006, Sawa, Hirofumi, 1000070805407, Harima, Hayato, 1000070609403, Sasaki, Michihito, 1000060507169, Orba, Yasuko, Okuya, Kosuke, 1000000760985, Qiu, Yongjin, Wastika, Christida E., Changula, Katendi, 1000070711894, Kajihara, Masahiro, Simulundu, Edgar, Yamaguchi, Tomoyuki, Eto, Yoshiki, Mori-Kajihara, Akina, Sato, Akihiko, Taniguchi, Satoshi, 1000010292062, Takada, Ayato, Saijo, Masayuki, Hang'ombe, Bernard M., 1000030292006, and Sawa, Hirofumi

Abstract

BackgroundPteropine 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. MethodsEgyptian 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. ResultsAn 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. ConclusionsA 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 summaryPteropine orthoreovirus (PRV) is a causative agent of acute respiratory illness in humans i

Published

2021

6. Screening of tick-borne pathogens in argasid ticks in Zambia : Expansion of the geographic distribution of Rickettsia lusitaniae and Rickettsia hoogstraalii and detection of putative novel Anaplasma species

Author

1000000760985, Qiu, Yongjin, Simuunza, Martin, 1000070711894, Kajihara, Masahiro, Chambaro, Herman, 1000070805407, Harima, Hayato, Eto, Yoshiki, Simulundu, Edgar, Squarre, David, Torii, Shiho, 1000010292062, Takada, Ayato, Hang'ombe, Bernard Mudenda, 1000030292006, Sawa, Hirofumi, 1000090231373, Sugimoto, Chihiro, 1000050633955, Nakao, Ryo, 1000000760985, Qiu, Yongjin, Simuunza, Martin, 1000070711894, Kajihara, Masahiro, Chambaro, Herman, 1000070805407, Harima, Hayato, Eto, Yoshiki, Simulundu, Edgar, Squarre, David, Torii, Shiho, 1000010292062, Takada, Ayato, Hang'ombe, Bernard Mudenda, 1000030292006, Sawa, Hirofumi, 1000090231373, Sugimoto, Chihiro, 1000050633955, and Nakao, Ryo

Abstract

Ticks (Ixodidae and Argasidae) are important arthropod vectors of various pathogens that cause human and animal infectious diseases. Many previously published studies on tick-borne pathogens focused on those transmitted by ixodid ticks. Although there are increasing reports of viral pathogens associated with argasid ticks, information on bacterial pathogens they transmit is scarce. The aim of this molecular study was to detect and characterize Rickettsia and Anaplasmataceae in three different argasid tick species, Ornithodoros faini, Ornithodoros moubata, and Argas walkerae collected in Zambia. Rickettsia hoogstraalii and Rickettsia lusitaniae were detected in 77 % (77/100) of Ar. walkerae and 10 % (5/50) of O. faini, respectively. All O. moubata pool samples (n = 124) were negative for rickettsial infections. Anaplasmataceae were detected in 63 % (63/100) of Ar. walkerae and in 82.2 % (102/124) of O. moubata pools, but not in O. faini. Phylogenetic analysis based on the concatenated sequences of 16S rRNA and groEL genes revealed that Anaplasma spp. detected in the present study were distinct from previously validated Anaplasma species, indicating that the current knowledge on the diversity and vector range of Anaplasma spp. is incomplete. Our findings highlight new geographical records of R. lusitaniae and R. hoogstraalii and confirm that the wide geographic distribution of these species includes the African continent. The data presented here increase our knowledge on argasid tick-borne bacteria and contribute toward understanding their epidemiology.

Published

2021

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

Author

1000070805407, Harima, Hayato, 1000010907736, Okuya, Kosuke, 1000070711894, Kajihara, Masahiro, 1000080455237, Ogawa, Hirohito, Simulundu, Edgar, Bwalya, Eugene, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Munyeme, Musso, 1000040333637, Sakoda, Yoshihiro, 1000000263393, Saito, Takehiko, Hang'ombe, Bernard M., 1000030292006, Sawa, Hirofumi, Mweene, Aaron S., 1000010292062, Takada, Ayato, 1000070805407, Harima, Hayato, 1000010907736, Okuya, Kosuke, 1000070711894, Kajihara, Masahiro, 1000080455237, Ogawa, Hirohito, Simulundu, Edgar, Bwalya, Eugene, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Munyeme, Musso, 1000040333637, Sakoda, Yoshihiro, 1000000263393, Saito, Takehiko, Hang'ombe, Bernard M., 1000030292006, Sawa, Hirofumi, Mweene, Aaron S., 1000010292062, and Takada, Ayato

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.

Published

2021

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

Author

1000070805407, Harima, Hayato, 1000010907736, Okuya, Kosuke, 1000070711894, Kajihara, Masahiro, 1000080455237, Ogawa, Hirohito, Simulundu, Edgar, Bwalya, Eugene, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Munyeme, Musso, 1000040333637, Sakoda, Yoshihiro, 1000000263393, Saito, Takehiko, Hang'ombe, Bernard M., 1000030292006, Sawa, Hirofumi, Mweene, Aaron S., 1000010292062, Takada, Ayato, 1000070805407, Harima, Hayato, 1000010907736, Okuya, Kosuke, 1000070711894, Kajihara, Masahiro, 1000080455237, Ogawa, Hirohito, Simulundu, Edgar, Bwalya, Eugene, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Munyeme, Musso, 1000040333637, Sakoda, Yoshihiro, 1000000263393, Saito, Takehiko, Hang'ombe, Bernard M., 1000030292006, Sawa, Hirofumi, Mweene, Aaron S., 1000010292062, and Takada, Ayato

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.

Published

2021