Your search keyword '"Mendenhall IH"' showing total 63 results

1. Discovery and Genomic Characterization of a 382-Nucleotide Deletion in ORF7b and ORF8 during the Early Evolution of SARS-CoV-2

Author

Schultz-Cherry, S, Su, YCF, Anderson, DE, Young, BE, Linster, M, Zhu, F, Jayakumar, J, Zhuang, Y, Kalimuddin, S, Low, JGH, Tan, CW, Chia, WN, Mak, TM, Octavia, S, Chavatte, J-M, Lee, RTC, Pada, S, Tan, SY, Sun, L, Yan, GZ, Maurer-Stroh, S, Mendenhall, IH, Leo, Y-S, Lye, DC, Wang, L-F, Smith, GJD, Schultz-Cherry, S, Su, YCF, Anderson, DE, Young, BE, Linster, M, Zhu, F, Jayakumar, J, Zhuang, Y, Kalimuddin, S, Low, JGH, Tan, CW, Chia, WN, Mak, TM, Octavia, S, Chavatte, J-M, Lee, RTC, Pada, S, Tan, SY, Sun, L, Yan, GZ, Maurer-Stroh, S, Mendenhall, IH, Leo, Y-S, Lye, DC, Wang, L-F, and Smith, GJD

Abstract

To date, limited genetic changes in the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) genome have been described. Here, we report a 382-nucleotide (nt) deletion in SARS-CoV-2 that truncates open reading frame 7b (ORF7b) and ORF8, removing the ORF8 transcription regulatory sequence (TRS) and eliminating ORF8 transcription. The earliest 382-nt deletion variant was detected in Singapore on 29 January 2020, with the deletion viruses circulating in the country and accounting for 23.6% (45/191) of SARS-CoV-2 samples screened in this study. SARS-CoV-2 with the same deletion has since been detected in Taiwan, and other ORF7b/8 deletions of various lengths, ranging from 62 nt to 345 nt, have been observed in other geographic locations, including Australia, Bangladesh, and Spain. Mutations or deletions in ORF8 of SARS-CoV have been associated with reduced replicative fitness and virus attenuation. In contrast, the SARS-CoV-2 382-nt deletion viruses showed significantly higher replicative fitness in vitro than the wild type, while no difference was observed in patient viral load, indicating that the deletion variant viruses retained their replicative fitness. A robust antibody response to ORF8 has been observed in SARS-CoV-2 infection, suggesting that the emergence of ORF8 deletions may be due to immune-driven selection and that further deletion variants may emerge during the sustained transmission of SARS-CoV-2 in humans.IMPORTANCE During the SARS epidemic in 2003/2004, a number of deletions were observed in ORF8 of SARS-CoV, and eventually deletion variants became predominant, leading to the hypothesis that ORF8 was an evolutionary hot spot for adaptation of SARS-CoV to humans. However, due to the successful control of the SARS epidemic, the importance of these deletions for the epidemiological fitness of SARS-CoV in humans could not be established. The emergence of multiple SARS-CoV-2 strains with ORF8 deletions, combined with evidence of a robust immune resp

Published

2020

2. Detection of Recombinant Rousettus Bat Coronavirus GCCDC1 in Lesser Dawn Bats (Eonycteris spelaea) in Singapore

Author

Paskey, AC, Ng, JHJ, Rice, GK, Chia, WN, Philipson, CW, Foo, RJH, Cer, RZ, Long, KA, Lueder, MR, Lim, XF, Frey, KG, Hamilton, T, Anderson, DE, Laing, ED, Mendenhall, IH, Smith, GJ, Wang, L-F, Bishop-Lilly, KA, Paskey, AC, Ng, JHJ, Rice, GK, Chia, WN, Philipson, CW, Foo, RJH, Cer, RZ, Long, KA, Lueder, MR, Lim, XF, Frey, KG, Hamilton, T, Anderson, DE, Laing, ED, Mendenhall, IH, Smith, GJ, Wang, L-F, and Bishop-Lilly, KA

Abstract

Rousettus bat coronavirus GCCDC1 (RoBat-CoV GCCDC1) is a cross-family recombinant coronavirus that has previously only been reported in wild-caught bats in Yúnnan, China. We report the persistence of a related strain in a captive colony of lesser dawn bats captured in Singapore. Genomic evidence of the virus was detected using targeted enrichment sequencing, and further investigated using deeper, unbiased high throughput sequencing. RoBat-CoV GCCDC1 Singapore shared 96.52% similarity with RoBat-CoV GCCDC1 356 (NC_030886) at the nucleotide level, and had a high prevalence in the captive bat colony. It was detected at five out of six sampling time points across the course of 18 months. A partial segment 1 from an ancestral Pteropine orthoreovirus, p10, makes up the recombinant portion of the virus, which shares high similarity with previously reported RoBat-CoV GCCDC1 strains that were detected in Yúnnan, China. RoBat-CoV GCCDC1 is an intriguing, cross-family recombinant virus, with a geographical range that expands farther than was previously known. The discovery of RoBat-CoV GCCDC1 in Singapore indicates that this recombinant coronavirus exists in a broad geographical range, and can persist in bat colonies long-term.

Published

2020

3. Isolation and Full-Genome Characterization of Nipah Viruses from Bats, Bangladesh

Author

Anderson, DE, Islam, A, Crameri, G, Todd, S, Khan, SU, Foord, A, Rahman, MZ, Mendenhall, IH, Luby, SP, Gurley, ES, Daszak, P, Epstein, JH, Wang, L-F, Anderson, DE, Islam, A, Crameri, G, Todd, S, Khan, SU, Foord, A, Rahman, MZ, Mendenhall, IH, Luby, SP, Gurley, ES, Daszak, P, Epstein, JH, and Wang, L-F

Abstract

Despite molecular and serologic evidence of Nipah virus in bats from various locations, attempts to isolate live virus have been largely unsuccessful. We report isolation and full-genome characterization of 10 Nipah virus isolates from Pteropus medius bats sampled in Bangladesh during 2013 and 2014.

Published

2019

4. Influenza A Virus Migration and Persistence in North American Wild Birds

Author

Bahl, J, Krauss, S, Kühnert, D, Fourment, M, Raven, G, Pryor, SP, Niles, LJ, Danner, A, Walker, D, Mendenhall, IH, Su, YCF, Dugan, VG, Halpin, RA, Stockwell, TB, Webby, RJ, Wentworth, DE, Drummond, AJ, Smith, GJD, Webster, RG, Bahl, J, Krauss, S, Kühnert, D, Fourment, M, Raven, G, Pryor, SP, Niles, LJ, Danner, A, Walker, D, Mendenhall, IH, Su, YCF, Dugan, VG, Halpin, RA, Stockwell, TB, Webby, RJ, Wentworth, DE, Drummond, AJ, Smith, GJD, and Webster, RG

Abstract

Wild birds have been implicated in the emergence of human and livestock influenza. The successful prediction of viral spread and disease emergence, as well as formulation of preparedness plans have been hampered by a critical lack of knowledge of viral movements between different host populations. The patterns of viral spread and subsequent risk posed by wild bird viruses therefore remain unpredictable. Here we analyze genomic data, including 287 newly sequenced avian influenza A virus (AIV) samples isolated over a 34-year period of continuous systematic surveillance of North American migratory birds. We use a Bayesian statistical framework to test hypotheses of viral migration, population structure and patterns of genetic reassortment. Our results reveal that despite the high prevalence of Charadriiformes infected in Delaware Bay this host population does not appear to significantly contribute to the North American AIV diversity sampled in Anseriformes. In contrast, influenza viruses sampled from Anseriformes in Alberta are representative of the AIV diversity circulating in North American Anseriformes. While AIV may be restricted to specific migratory flyways over short time frames, our large-scale analysis showed that the long-term persistence of AIV was independent of bird flyways with migration between populations throughout North America. Analysis of long-term surveillance data provides vital insights to develop appropriately informed predictive models critical for pandemic preparedness and livestock protection. © 2013 Bahl et al.

Published

2013

5. Nation-wide surveillance of ticks (Acari: Argasidae) on bats (Chiroptera) in Singapore.

Author

Kwak ML, Hitch AT, Low DHW, Borthwick SA, Markowsky G, McInnes D, Smith GJD, Nakao R, and Mendenhall IH

Subjects

Animals, Singapore epidemiology, Female, Male, Argasidae, Argas, Chiroptera parasitology, Ornithodoros, Tick Infestations veterinary, Tick Infestations epidemiology, Tick Infestations parasitology

Abstract

Bats and ticks are important sources of zoonotic pathogens. Therefore, understanding the diversity, distribution, and ecology of both groups is crucial for public health preparedness. Soft ticks (Argasidae) are a major group of ectoparasites commonly associated with bats. The multi-host life cycle of many argasids make them important vectors of pathogens. Over nine years (2011-2020), surveillance was undertaken to identify the ticks associated with common bats in Singapore. During this period, the bat tick Ornithodoros batuensis was detected within populations of two cave roosting bat species: Eonycteris spelaea and Penthetor lucasi. We examined the relationship between bat species, roosting behaviour, and probability of O. batuensis infestation. We also estimated the relationship between bat life history variables (body condition index, sex, and age) on the probability of infestation and tick count. This represents the first detection of O. batuensis and the genus Ornithodoros within Singapore. We also provide evidence of the continued persistence of Argas pusillus in Singapore with the second local record., Competing Interests: Declaration of competing interest We wish to confirm that there are no known conflicts of interest associated with this publication and there has been no significant financial support for this work that could have influenced its outcome., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

6. Measuring effects of ivermectin-treated cattle on potential malaria vectors in Vietnam: A cluster-randomized trial.

Author

Cramer EY, Nguyen XQ, Hertz JC, Nguyen DV, Quang HH, Mendenhall IH, and Lover AA

Subjects

Animals, Cattle, Vietnam, Humans, Female, Mosquito Control methods, Ivermectin pharmacology, Anopheles drug effects, Malaria prevention & control, Malaria transmission, Mosquito Vectors drug effects, Insecticides pharmacology

Abstract

Background: Malaria elimination using current tools has stalled in many areas. Ivermectin (IVM) is a broad-antiparasitic drug and mosquitocide and has been proposed as a tool for accelerating progress towards malaria elimination. Under laboratory conditions, IVM has been shown to reduce the survival of adult Anopheles populations that have fed on IVM-treated mammals. Treating cattle with IVM has been proposed as an important contribution to malaria vector management, however, the impacts of IVM in this One Health use case have been untested in field trials in Southeast Asia., Methods: Through a randomized village-based trial, this study quantified the effect of IVM-treated cattle on anopheline populations in treated vs. untreated villages in Central Vietnam. Local zebu cattle in six rural villages were included in this study. In three villages, cattle were treated with IVM at established veterinary dosages, and in three additional villages cattle were left as untreated controls. For the main study outcome, the mosquito populations in all villages were sampled using cattle-baited traps for six nights before, and six nights after a 2-day IVM-administration (intervention) period. Anopheline species were characterized using taxonomic keys. The impact of the intervention was analyzed using a difference-in-differences (DID) approach with generalized estimating equations (with negative binomial distribution and robust errors). This intervention was powered to detect a 50% reduction in total nightly Anopheles spp. vector catches from cattle-baited traps. Given the unusual diversity in anopheline populations, exploratory analyses examined taxon-level differences in the ecological population diversity., Results: Across the treated villages, 1,112 of 1,523 censused cows (73% overall; range 67% to 83%) were treated with IVM. In both control and treated villages, there was a 30% to 40% decrease in total anophelines captured in the post-intervention period as compared to the pre-intervention period. In the control villages, there were 1,873 captured pre-intervention and 1,079 captured during the post-intervention period. In the treated villages, there were 1,594 captured pre-intervention, and 1,101 captured during the post-intervention period. The difference in differences model analysis comparing total captures between arms was not statistically significant (p = 0.61). Secondary outcomes of vector population diversity found that in three villages (one control and two treatment) Brillouin's index increased, and in three villages (two control and one treatment) Brillouin's index decreased. When examining biodiversity by trapping-night, there were no clear trends in treated or untreated vector populations. Additionally, there were no clear trends when examining the components of biodiversity: richness and evenness., Conclusions: The ability of this study to quantify the impacts of IVM treatment was limited due to unexpectedly large spatiotemporal variability in trapping rates; an area-wide decrease in trapping counts across all six villages post-intervention; and potential spillover effects. However, this study provides important data to directly inform future studies in the GMS and beyond for IVM-based vector control., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: JCH is a military service member of the United States government. This work was prepared as part of his official duties. Title 17 U.S.C. 105 provides that `copyright protection under this title is not available for any work of the United States Government.’ Title 17 U.S.C. 101 defines a U.S. Government work as work prepared by a military service member or employee of the U.S. Government as part of that person’s official duties. The views expressed in this article reflect the results of research conducted by the authors and do not necessarily reflect the official policy or position of the Department of the Navy, Defense Health Agency, Department of Defense, nor the United States Government., (Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.)

Published

2024

7. Whole-genome sequence and annotation of Salmonella enterica subsp. enterica strain QazSL-4.

Author

Barmak SM, Mendenhall IH, Sinyavskiy YA, Berdygaliev AB, Sharmanov TS, Sultankulova GT, Tuigunov DN, and Zholdybayeva EV

Abstract

Here, we present the whole-genome sequence of Salmonella enterica subsp. enterica strain QazSL-4 isolated from a chicken fillet in 2018, Almaty, Kazakhstan. The genome obtained using Illumina MiSeq technology consists of 49 contigs with a total length of 4,711,816 bp with a GC content of 52.1%.

Published

2024

8. Evolution and ecology of Jeilongvirus among wild rodents and shrews in Singapore.

Author

Ch'ng L, Low DHW, Borthwick SA, Zhang R, Ong ZA, Su YCF, Hitch AT, Smith GJD, and Mendenhall IH

Abstract

Background: Jeilongvirus was proposed as a new genus within the Paramyxoviridae in 2018. The advancement in metagenomic approaches has encouraged multiple reports of Jeilongvirus detection following the initial species discovery, enriching species diversity and host range within the genus. However, Jeilongvirus remains understudied in Singapore, where interfaces between humans and small mammals are plentiful., Methods: Here, we utilized metagenomic sequencing for the exploration of viral diversity in small mammal tissues. Upon discovery of Jeilongvirus, molecular screening and full genome sequencing was conducted, with the data used to conduct statistical modelling and phylogenetic analysis., Results: We report the presence of Jeilongvirus in four species of Singapore wild small mammals, detected in their spleen and kidney. We show that full genomes of three Singapore Jeilongvirus encode for eight ORFs including the small hydrophobic and transmembrane proteins. All generated genomes cluster phylogenetically within the small mammal subclade, but share low genetic similarity with representative Jeilongvirus species. Statistical modelling showed no spatial or temporal patterns and differences among species, life history traits and habitat types., Conclusions: This study serves as a basis for understanding dynamics between Jeilongvirus and small mammal hosts in Singapore by displaying the virus generalist nature. In addition, the initial detection can help to invoke improved routine surveillance and detection of circulating pathogens in synanthropic hosts., (© 2023. The Author(s).)

Published

2023

9. Host, season, habitat and climatic factors as drivers of Asian rodent tick (Ixodes granulatus) (Acari: Ixodidae) occurrence and abundance in Southeast Asia.

Author

Kwak ML, Hitch AT, Borthwick SA, Low DHW, Markowsky G, McInnes D, Smith GJD, Nakao R, and Mendenhall IH

Subjects

Humans, Animals, Female, Male, Rodentia, Seasons, Ecosystem, Malaysia, Ixodes microbiology, Ixodidae

Abstract

The Asian rodent tick (Ixodes granulatus) occurs throughout much of Asia, it frequently bites humans, and zoonotic pathogens, such as Borrelia burgdorferi (sensu lato) and Rickettsia honei, have been detected within it. Unfortunately, the ecology of I. granulatus remains poorly known, including drivers of its abundance and the interaction ecology with its sylvatic hosts. To elucidate the ecology of this medically important species, the habitat preferences of I. granulatus were assessed in Singapore and Malaysia. Ixodes granulatus showed strong associations with old forest habitats, though across different age classes of old forest there was limited variation in abundance. Ixodes granulatus was absent from other habitats including young forest, scrubland, and parks/gardens. Within its sylvatic rodent hosts, a range of factors were found to be statistically significant predictors of I. granulatus load and/or infestation risk, including sex and body condition index. Male rodents were significantly more likely to be infested and to have higher loads than females, similarly, animals with a lower body condition index were significantly more likely to be infested. Proactive public health efforts targeted at preventing bites by this tick should carefully consider its ecology to minimise ecological overlap between humans and I. granulatus., Competing Interests: Declaration of Competing Interest We wish to confirm that there are no known conflicts of interest associated with this publication and there has been no significant financial support for this work that could have influenced its outcome., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

10. Midgut transcriptomic responses to dengue and chikungunya viruses in the vectors Aedes albopictus and Aedes malayensis.

Author

Modahl CM, Chowdhury A, Low DHW, Manuel MC, Missé D, Kini RM, Mendenhall IH, and Pompon J

Subjects

Animals, Transcriptome, Mosquito Vectors genetics, Aedes genetics, Chikungunya virus genetics, Chikungunya Fever genetics, Dengue genetics

Abstract

Dengue (DENV) and chikungunya (CHIKV) viruses are among the most preponderant arboviruses. Although primarily transmitted through the bite of Aedes aegypti mosquitoes, Aedes albopictus and Aedes malayensis are competent vectors and have an impact on arbovirus epidemiology. Here, to fill the gap in our understanding of the molecular interactions between secondary vectors and arboviruses, we used transcriptomics to profile the whole-genome responses of A. albopictus to CHIKV and of A. malayensis to CHIKV and DENV at 1 and 4 days post-infection (dpi) in midguts. In A. albopictus, 1793 and 339 genes were significantly regulated by CHIKV at 1 and 4 dpi, respectively. In A. malayensis, 943 and 222 genes upon CHIKV infection, and 74 and 69 genes upon DENV infection were significantly regulated at 1 and 4 dpi, respectively. We reported 81 genes that were consistently differentially regulated in all the CHIKV-infected conditions, identifying a CHIKV-induced signature. We identified expressed immune genes in both mosquito species, using a de novo assembled midgut transcriptome for A. malayensis, and described the immune architectures. We found the JNK pathway activated in all conditions, generalizing its antiviral function to Aedines. Our comprehensive study provides insight into arbovirus transmission by multiple Aedes vectors., (© 2023. The Author(s).)

Published

2023

11. Spike-Independent Infection of Human Coronavirus 229E in Bat Cells.

Author

Mah MG, Linster M, Low DHW, Zhuang Y, Jayakumar J, Samsudin F, Wong FY, Bond PJ, Mendenhall IH, Su YCF, and Smith GJD

Subjects

Animals, Humans, Phylogeny, Spike Glycoprotein, Coronavirus genetics, Spike Glycoprotein, Coronavirus metabolism, SARS-CoV-2 metabolism, Chiroptera, Coronavirus 229E, Human, COVID-19

Abstract

Bats are the reservoir for numerous human pathogens, including coronaviruses. Despite many coronaviruses having descended from bat ancestors, little is known about virus-host interactions and broader evolutionary history involving bats. Studies have largely focused on the zoonotic potential of coronaviruses with few infection experiments conducted in bat cells. To determine genetic changes derived from replication in bat cells and possibly identify potential novel evolutionary pathways for zoonotic virus emergence, we serially passaged six human 229E isolates in a newly established Rhinolophus lepidus (horseshoe bat) kidney cell line. Here, we observed extensive deletions within the spike and open reading frame 4 (ORF4) genes of five 229E viruses after passaging in bat cells. As a result, spike protein expression and infectivity of human cells was lost in 5 of 6 viruses, but the capability to infect bat cells was maintained. Only viruses that expressed the spike protein could be neutralized by 229E spike-specific antibodies in human cells, whereas there was no neutralizing effect on viruses that did not express the spike protein inoculated on bat cells. However, one isolate acquired an early stop codon, abrogating spike expression but maintaining infection in bat cells. After passaging this isolate in human cells, spike expression was restored due to acquisition of nucleotide insertions among virus subpopulations. Spike-independent infection of human coronavirus 229E may provide an alternative mechanism for viral maintenance in bats that does not rely on the compatibility of viral surface proteins and known cellular entry receptors. IMPORTANCE Many viruses, including coronaviruses, originated from bats. Yet, we know little about how these viruses switch between hosts and enter human populations. Coronaviruses have succeeded in establishing in humans at least five times, including endemic coronaviruses and the recent severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In an approach to identify requirements for host switches, we established a bat cell line and adapted human coronavirus 229E viruses by serial passage. The resulting viruses lost their spike protein but maintained the ability to infect bat cells, but not human cells. Maintenance of 229E viruses in bat cells appears to be independent of a canonical spike receptor match, which in turn might facilitate cross-species transmission in bats., Competing Interests: The authors declare no conflict of interest.

Published

2023

12. Cencurut virus: A novel Orthonairovirus from Asian house shrews ( Suncus murinus ) in Singapore.

Author

Low DHW, Ch'ng L, Su YCF, Linster M, Zhang R, Zhuang Y, Kwak ML, Borthwick SA, Hitch AT, Smith GJD, and Mendenhall IH

Abstract

Orthonairovirus is a genus of viruses in the family Nairoviridae , order Bunyavirales, with a segmented circular RNA genome. They typically infect birds and mammals and are primarily transmitted by ectoparasites such as ticks. Four of nine Orthonairovirus genogroups can infect humans, with Crimean-Congo hemorrhagic fever virus infections displaying case fatality rates up to 40%. Here, we discover and describe a novel Orthonairovirus as Cencurut virus (CENV). CENV was detected in 34 of 37 Asian house shrews ( Suncus murinus ) sampled in Singapore and in a nymphal Amblyomma helvolum tick collected from an infected shrew. Pairwise comparison of CENV S, M, and L segments had 95.0 to 100% nucleotide and 97.5 to 100% amino acid homology within CENV genomes, suggesting a diverse viral population. Phylogenetic analysis of the individual gene segments showed that CENV is related to Erve, Lamgora, Lamusara, and Thiafora viruses, with only 49.0 to 58.2% nucleotide and 41.7 to 61.1% amino acid homology, which has previously been detected in other shrew species from France, Gabon, and Senegal respectively. The high detection frequency suggests that CENV is endemic among S. murinus populations in Singapore. The discovery of CENV, from a virus family with known zoonotic potential, underlines the importance of surveillance of synanthropic small mammals that are widely distributed across Southeast Asia., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Gavin James Smith reports financial support and administrative support were provided by Duke-NUS Medical School Program in Emerging Infectious Diseases., (© 2023 The Author(s).)

Published

2023

13. Genomic Characterization of a Relative of Mumps Virus in Lesser Dawn Bats of Southeast Asia.

Author

Paskey AC, Lim XF, Ng JHJ, Rice GK, Chia WN, Philipson CW, Foo R, Cer RZ, Long KA, Lueder MR, Glang L, Frey KG, Hamilton T, Mendenhall IH, Smith GJ, Anderson DE, Wang LF, and Bishop-Lilly KA

Subjects

Animals, Humans, Mumps virus genetics, Phylogeny, SARS-CoV-2, Genomics, Asia, Southeastern epidemiology, Paramyxoviridae genetics, Chiroptera, COVID-19

Abstract

The importance of genomic surveillance on emerging diseases continues to be highlighted with the ongoing SARS-CoV-2 pandemic. Here, we present an analysis of a new bat-borne mumps virus (MuV) in a captive colony of lesser dawn bats ( Eonycteris spelaea ). This report describes an investigation of MuV-specific data originally collected as part of a longitudinal virome study of apparently healthy, captive lesser dawn bats in Southeast Asia (BioProject ID PRJNA561193) which was the first report of a MuV-like virus, named dawn bat paramyxovirus (DbPV), in bats outside of Africa. More in-depth analysis of these original RNA sequences in the current report reveals that the new DbPV genome shares only 86% amino acid identity with the RNA-dependent RNA polymerase of its closest relative, the African bat-borne mumps virus (AbMuV). While there is no obvious immediate cause for concern, it is important to continue investigating and monitoring bat-borne MuVs to determine the risk of human infection.

Published

2023

14. Co-circulation of alpha- and beta-coronaviruses in Pteropus vampyrus flying foxes from Indonesia.

Author

Ch'ng L, Tsang SM, Ong ZA, Low DHW, Wiantoro S, Smith IL, Simmons NB, Su YCF, Lohman DJ, Smith GJD, and Mendenhall IH

Subjects

Animals, Indonesia epidemiology, Phylogeny, Coronavirus genetics, Chiroptera, Coronavirus Infections veterinary

Abstract

Bats are important reservoirs for alpha- and beta-coronaviruses. Coronaviruses (CoV) have been detected in pteropodid bats from several Southeast Asian countries, but little is known about coronaviruses in the Indonesian archipelago in proportion to its mammalian biodiversity. In this study, we screened pooled faecal samples from the Indonesian colonies of Pteropus vampyrus with unbiased next-generation sequencing. Bat CoVs related to Rousettus leschenaultii CoV HKU9 and Eidolon helvum CoV were detected. The 121 faecal samples were further screened using a conventional hemi-nested pan-coronavirus PCR assay. Three positive samples were successfully sequenced, and phylogenetic reconstruction revealed the presence of alpha- and beta-coronaviruses. CoVs belonging to the subgenera Nobecovirus, Decacovirus and Pedacovirus were detected in a single P. vampyrus roost. This study expands current knowledge of coronavirus diversity in Indonesian flying foxes, highlighting the need for longitudinal surveillance of colonies as continuing urbanization and deforestation heighten the risk of spillover events., (© 2022 The Authors. Transboundary and Emerging Diseases published by Wiley-VCH GmbH.)

Published

2022

15. Serological exposure in Bactrian and dromedary camels in Kazakhstan to a MERS or MERS-like coronavirus.

Author

Orynbayev MB, Hitch AT, Kerimbayev AA, Nissanova RK, Sultankulova KT, Rystayeva RA, Omarova ZD, Kassenov MM, Tailakova ET, Smith GJD, and Mendenhall IH

Subjects

Animals, Camelus, Humans, Kazakhstan epidemiology, RNA, Coronavirus Infections diagnosis, Coronavirus Infections epidemiology, Coronavirus Infections veterinary, Middle East Respiratory Syndrome Coronavirus genetics

Abstract

Middle East Respiratory Syndrome Coronavirus (MERS-CoV) is a camel-borne zoonotic virus endemic across Eastern Africa and the Middle East, with evidence of circulation in Bangladesh and Mongolia. To determine if MERS-CoV was present in Kazakhstan, in 2017-2018, we collected swabs and sera from Bactrian camels (n = 3124) and dromedary (n = 5083). The total seropositivity was 0.54% in Bactrian camels and 0.24% in dromedaries; however, we did not detect MERS-CoV RNA in swab samples. There was no difference in the probability of infection between species or sex, but younger camels had a higher probability of being seropositive, suggesting a recent introduction of the virus to Kazakhstan. The infection of both camel species indicates that they both may play a role as natural reservoirs. These results reinforce the need for continual surveillance, especially at the camel-human interface to understand the risk of zoonotic exposure., (© 2022 Wiley-VCH GmbH.)

Published

2022

16. Establishment of a Captive Cave Nectar Bat ( Eonycteris spelaea ) Breeding Colony in Singapore.

Author

Foo R, Hey YY, Jia Ng JH, Chionh YT, Chia WN, Kong PS, Lee BPY, Kang AEZ, Borthwick SA, Low DHW, Mendenhall IH, Macabe Pena E, Yroy RE, Sern Ng B, and Wang LF

Subjects

Animals, Breeding, Disease Reservoirs, Humans, Pandemics, Phylogeny, Plant Nectar, SARS-CoV-2, Singapore, COVID-19, Chiroptera

Abstract

Bats are known natural reservoirs of several highly pathogenic zoonotic viruses, including Hendra virus, Nipah virus, rabies virus, SARS-like coronaviruses, and suspected ancestral reservoirs of SARS-CoV-2 responsible for the ongoing COVID-19 pandemic. The capacity to survive infections of highly pathogenic agents without severe disease, together with many other unique features, makes bats an ideal animal model for studying the regulation of infection, cancer, and longevity, which is likely to translate into human health outcomes. A key factor that limits bat research is lack of breeding bat colonies. To address this need, a captive bat colony was established in Singapore from 19 wild-caught local cave nectar bats. The bats were screened for specific pathogens before the start of captive breeding. Custom-made cages and an optimized diet inclusive of Wombaroo dietary formula, liquid diet, and supplement of fruits enabled the bats to breed prolifically in our facility. Cages are washed daily and disinfected once every fortnight. Bats are observed daily to detect any sick bat or abnormal behavior. In addition, bats undergo a thorough health check once every 3 to 4 mo to check on their overall wellbeing, perform sampling, and document any potential pregnancy. The current colony houses over 80 bats that are successfully breeding, providing a valuable resource for research in Singapore and overseas.

Published

2022

17. A Look inside the Replication Dynamics of SARS-CoV-2 in Blyth's Horseshoe Bat ( Rhinolophus lepidus ) Kidney Cells.

Author

Auerswald H, Low DHW, Siegers JY, Ou T, Kol S, In S, Linster M, Su YCF, Mendenhall IH, Duong V, Smith GJD, and Karlsson EA

Subjects

Animals, Humans, Kidney, Pandemics, Phylogeny, SARS-CoV-2, COVID-19, Chiroptera

Abstract

Bats are considered the natural reservoir of numerous emerging viruses such as severe acute respiratory syndrome coronaviruses (SARS-CoVs). There is a need for immortalized bat cell lines to culture and investigate the pathogenicity, replication kinetics, and evolution of emerging coronaviruses. We illustrate the susceptibility and permissiveness of a spontaneously immortalized kidney cell line (Rhileki) from Blyth's horseshoe bat ( R. lepidus ) to SARS-CoV-2 virus, including clinical isolates, suggesting a possible virus-host relationship. We were able to observe limited SARS-CoV-2 replication in Rhileki cells compared with simian VeroE6 cells. Slower viral replication in Rhileki cells was indicated by higher ct values (RT-PCR) at later time points of the viral culture and smaller foci (foci forming assay) compared with those of VeroE6 cells. With this study we demonstrate that SARS-CoV-2 replication is not restricted to R. sinicus and could include more Rhinolophus species. The establishment of a continuous Rhinolophus lepidus kidney cell line allows further characterization of SARS-CoV-2 replication in Rhinolophus bat cells, as well as isolation attempts of other bat-borne viruses. IMPORTANCE The current COVID-19 pandemic demonstrates the significance of bats as reservoirs for severe viral diseases. However, as bats are difficult to establish as animal models, bat cell lines can be an important proxy for the investigation of bat-virus interactions and the isolation of bat-borne viruses. This study demonstrates the susceptibility and permissiveness of a continuous kidney bat cell line to SARS-CoV-2. This does not implicate the bat species Rhinolophus lepidus , where these cells originate from, as a potential reservoir, but emphasizes the usefulness of this cell line for further characterization of SARS-CoV-2. This can lead to a better understanding of emerging viruses that could cause significant disease in humans and domestic animals.

Published

2022

18. Correction: Filovirus-reactive antibodies in humans and bats in Northeast India imply zoonotic spillover.

Author

Dovih P, Laing ED, Chen Y, Low DHW, Ansil BR, Yang X, Shi Z, Broder CC, Smith GJD, Linster M, Ramakrishnan U, and Mendenhall IH

Abstract

[This corrects the article DOI: 10.1371/journal.pntd.0007733.].

Published

2021

19. Setting the Terms for Zoonotic Diseases: Effective Communication for Research, Conservation, and Public Policy.

Author

Shapiro JT, Víquez-R L, Leopardi S, Vicente-Santos A, Mendenhall IH, Frick WF, Kading RC, Medellín RA, Racey P, and Kingston T

Subjects

Animals, Chiroptera, Communicable Diseases, Emerging, Conservation of Natural Resources, Disease Reservoirs, Humans, Language, Public Health, Public Policy trends, Zoonoses transmission, Communication, Information Dissemination methods, Therapeutic Misconception psychology

Abstract

Many of the world's most pressing issues, such as the emergence of zoonotic diseases, can only be addressed through interdisciplinary research. However, the findings of interdisciplinary research are susceptible to miscommunication among both professional and non-professional audiences due to differences in training, language, experience, and understanding. Such miscommunication contributes to the misunderstanding of key concepts or processes and hinders the development of effective research agendas and public policy. These misunderstandings can also provoke unnecessary fear in the public and have devastating effects for wildlife conservation. For example, inaccurate communication and subsequent misunderstanding of the potential associations between certain bats and zoonoses has led to persecution of diverse bats worldwide and even government calls to cull them. Here, we identify four types of miscommunication driven by the use of terminology regarding bats and the emergence of zoonotic diseases that we have categorized based on their root causes: (1) incorrect or overly broad use of terms; (2) terms that have unstable usage within a discipline, or different usages among disciplines; (3) terms that are used correctly but spark incorrect inferences about biological processes or significance in the audience; (4) incorrect inference drawn from the evidence presented. We illustrate each type of miscommunication with commonly misused or misinterpreted terms, providing a definition, caveats and common misconceptions, and suggest alternatives as appropriate. While we focus on terms specific to bats and disease ecology, we present a more general framework for addressing miscommunication that can be applied to other topics and disciplines to facilitate more effective research, problem-solving, and public policy.

Published

2021

20. Habitat impacts the abundance and network structure within tick (Acari: Ixodidae) communities on tropical small mammals.

Author

Kwak ML, Neves ES, Borthwick SA, Smith GJD, Meier R, and Mendenhall IH

Subjects

Animals, Ecosystem, Population Dynamics, Rodent Diseases parasitology, Singapore epidemiology, Tick Infestations epidemiology, Tick Infestations parasitology, Ixodidae physiology, Rodent Diseases epidemiology, Rodentia, Shrews, Tick Infestations veterinary, Tupaiidae

Abstract

Ticks of small mammals pose a significant risk to public health but these hazards are poorly understood in the tropics due to the paucity of information on the disease ecology of ticks in these regions. Mapping and quantifying the diversity of small mammal/tick networks and the effects of habitat on these medically important systems is key to disease prevention. Singapore represents a microcosm of much of tropical Asia as it has a diverse, though poorly studied, community of ticks and small mammals. Singapore also has a range of terrestrial habitats exhibiting a gradient of degradation. Small mammals and their ticks were sampled across the island in four main habitat types (old secondary forest, young secondary forest, scrubland, urban) across 4.5 years. Four tick species were collected (Amblyomma helvolum, Dermacentor auratus, Haemaphysalis semermis, Ixodes granulatus) from 10 small mammal species. Habitat was found to have a significant effect on both the abundance and structure of tick communities on small mammals. Old secondary forest communities had the highest tick abundance, comparatively high connectance, niche overlap (among ticks), linkage density, and were the preferred habitat of the zoonotic tick I. granulatus. Therefore, future disease spillover is likely to emerge from small mammal-tick communities in old secondary forests., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

21. Host specificity of Hepatocystis infection in short-nosed fruit bats ( Cynopterus brachyotis ) in Singapore.

Author

Low DHW, Hitch AT, Skiles MM, Borthwick SA, Neves ES, Lim ZX, Lee BPY, Su YCF, Smith GJD, and Mendenhall IH

Abstract

Haemosporidians infect a wide diversity of bat genera and species, yet little is known about their transmission cycles or epidemiology. Though several recent studies have focused on the genus Hepatocystis , an Old World parasite primarily infecting bats, monkeys, and squirrels, this group is still understudied with little known about its transmission and molecular ecology. These parasites lack an asexual erythrocytic stage, making them unique from the Plasmodium vertebrate life cycle. In this study, we detected a prevalence of 31% of Hepatocystis in short-nosed fruit bats ( Cynopterus brachyotis ) in Singapore. Phylogenetic reconstruction with a partial cytochrome b sequence revealed a monophyletic group of Hepatocystis from C. brachyotis in Malaysia, Singapore, and Thailand. There was no relationship with infection and bat age, sex, location, body condition or monsoon season. The absence of this parasite in the five other bat species sampled in Singapore indicates this Hepatocystis species may be host restricted., Competing Interests: The authors declare that there is no conflict of interest with this manuscript., (© 2021 Published by Elsevier Ltd on behalf of Australian Society for Parasitology.)

Published

2021

22. Detection of Tioman Virus in Pteropus vampyrus Near Flores, Indonesia.

Author

Tsang SM, Low DHW, Wiantoro S, Smith I, Jayakumar J, Simmons NB, Vijaykrishna D, Lohman DJ, and Mendenhall IH

Subjects

Animals, High-Throughput Nucleotide Sequencing, Humans, Indonesia, Paramyxoviridae Infections transmission, Paramyxovirinae isolation & purification, Chiroptera virology, Feces virology, Paramyxoviridae Infections veterinary, Paramyxovirinae classification, Paramyxovirinae genetics

Abstract

Diverse paramyxoviruses have coevolved with their bat hosts, including fruit bats such as flying foxes (Chiroptera: Pteropodidae). Several of these viruses are zoonotic, but the diversity and distribution of Paramyxoviridae are poorly understood. We screened pooled feces samples from three Pteropus vampyrus colonies and assayed tissues, rectal swabs, and oral swabs from 95 individuals of 23 pteropodid species sampled at 17 sites across the Indonesian archipelago with a conventional paramyxovirus PCR; all tested negative. Samples from 43 individuals were screened with next generation sequencing (NGS), and a single Pteropus vampyrus collected near Flores had Tioman virus sequencing reads. Tioman virus is a bat-borne virus in the genus Pararubulavirus with prior evidence of spillover to humans. This work expands the known range of Tioman virus, and it is likely that this isolated colony likely has sustained intergenerational transmission over a long period.

Published

2021

23. High prevalence and diversity of Bartonella in small mammals from the biodiverse Western Ghats.

Author

Ansil BR, Mendenhall IH, and Ramakrishnan U

Subjects

Animals, Bartonella genetics, Bartonella Infections epidemiology, DNA, Bacterial, Haplotypes genetics, India epidemiology, Mammals parasitology, Mite Infestations veterinary, Phylogeny, Polymerase Chain Reaction, Prevalence, Bartonella classification, Bartonella Infections veterinary, Mammals microbiology, Mites microbiology

Abstract

Bartonella species are recognized globally as emerging zoonotic pathogens. Small mammals such as rodents and shrews are implicated as major natural reservoirs for these microbial agents. Nevertheless, in several tropical countries, like India, the diversity of Bartonella in small mammals remain unexplored and limited information exists on the natural transmission cycles (reservoirs and vectors) of these bacteria. Using a multi-locus sequencing approach, we investigated the prevalence, haplotype diversity, and phylogenetic affinities of Bartonella in small mammals and their associated mites in a mixed-use landscape in the biodiverse Western Ghats in southern India. We sampled 141 individual small mammals belonging to eight species. Bartonella was detected in five of the eight species, including three previously unknown hosts. We observed high interspecies variability of Bartonella prevalence in the host community. However, the overall prevalence (52.5%) and haplotype diversity (0.9) was high for the individuals tested. Of the seven lineages of Bartonella identified in our samples, five lineages were phylogenetically related to putative zoonotic species-B. tribocorum, B. queenslandensis, and B. elizabethae. Haplotypes identified from mites were identical to those identified from their host species. This indicates that these Bartonella species may be zoonotic, but further work is necessary to confirm whether these are pathogenic and pose a threat to humans. Taken together, these results emphasize the presence of hitherto unexplored diversity of Bartonella in wild and synanthropic small mammals in mixed-use landscapes. The study also highlights the necessity to assess the risk of spillover to humans and other incidental hosts., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

24. Genetic diversity and expanded host range of astroviruses detected in small mammals in Singapore.

Author

Neves ES, Mendenhall IH, Borthwick SA, Su YCF, and Smith GJD

Abstract

Astroviruses are a genetically diverse group of viruses that infect a wide range of hosts, including small mammals. Small mammals were trapped at 19 sites across Singapore from November 2011 to May 2014. Pooled oropharyngeal and rectal swabs ( n  = 518) and large intestine tissue ( n  = 107) were screened using a PCR to detect the presence of Astrovirus RNA-dependent RNA polymerase ( RdRp ) gene. Astroviruses were detected in 93 of 625 (14.9%) of samples tested, with eight of 11 species of rats, shrews, and squirrels testing positive. This is the first detection of astroviruses in seven species ( Callosciurus notatus, Mus castaneus, Rattus tanezumi, Rattus tiomanicus, Sundamys annandalei, Suncus murinus and Tupaia glis) . Phylogenetic analysis of 10 RdRp gene sequences revealed that astroviruses from Singapore small mammals fall in three distinct clades, one that is specific to the common treeshrew ( Tupaia glis ), and two comprised of multiple species. One of these includes viruses from the cave nectar bat ( Eonycteris spelaea ), two rodent species, and a squirrel, suggesting that virus spillover from bats to small mammals may have occurred. Our results show an increased host range for astroviruses and highlight their potential for intra- and inter-species transmission., Competing Interests: The authors declare that they have no conflict of interest., (© 2021 The Authors.)

Published

2021

25. Possibility for reverse zoonotic transmission of SARS-CoV-2 to free-ranging wildlife: A case study of bats.

Author

Olival KJ, Cryan PM, Amman BR, Baric RS, Blehert DS, Brook CE, Calisher CH, Castle KT, Coleman JTH, Daszak P, Epstein JH, Field H, Frick WF, Gilbert AT, Hayman DTS, Ip HS, Karesh WB, Johnson CK, Kading RC, Kingston T, Lorch JM, Mendenhall IH, Peel AJ, Phelps KL, Plowright RK, Reeder DM, Reichard JD, Sleeman JM, Streicker DG, Towner JS, and Wang LF

Subjects

Animals, COVID-19, Chiroptera virology, Genome, Viral genetics, Host Specificity physiology, Humans, Pandemics, SARS-CoV-2, Animals, Wild virology, Betacoronavirus pathogenicity, Coronavirus Infections virology, Pneumonia, Viral virology

Abstract

The COVID-19 pandemic highlights the substantial public health, economic, and societal consequences of virus spillover from a wildlife reservoir. Widespread human transmission of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) also presents a new set of challenges when considering viral spillover from people to naïve wildlife and other animal populations. The establishment of new wildlife reservoirs for SARS-CoV-2 would further complicate public health control measures and could lead to wildlife health and conservation impacts. Given the likely bat origin of SARS-CoV-2 and related beta-coronaviruses (β-CoVs), free-ranging bats are a key group of concern for spillover from humans back to wildlife. Here, we review the diversity and natural host range of β-CoVs in bats and examine the risk of humans inadvertently infecting free-ranging bats with SARS-CoV-2. Our review of the global distribution and host range of β-CoV evolutionary lineages suggests that 40+ species of temperate-zone North American bats could be immunologically naïve and susceptible to infection by SARS-CoV-2. We highlight an urgent need to proactively connect the wellbeing of human and wildlife health during the current pandemic and to implement new tools to continue wildlife research while avoiding potentially severe health and conservation impacts of SARS-CoV-2 "spilling back" into free-ranging bat populations., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

26. Discovery and Genomic Characterization of a 382-Nucleotide Deletion in ORF7b and ORF8 during the Early Evolution of SARS-CoV-2.

Author

Su YCF, Anderson DE, Young BE, Linster M, Zhu F, Jayakumar J, Zhuang Y, Kalimuddin S, Low JGH, Tan CW, Chia WN, Mak TM, Octavia S, Chavatte JM, Lee RTC, Pada S, Tan SY, Sun L, Yan GZ, Maurer-Stroh S, Mendenhall IH, Leo YS, Lye DC, Wang LF, and Smith GJD

Subjects

Base Sequence, Betacoronavirus immunology, Betacoronavirus physiology, Humans, SARS-CoV-2, Sequence Deletion, Virus Replication, Betacoronavirus genetics, Genome, Viral, Open Reading Frames

Abstract

To date, limited genetic changes in the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) genome have been described. Here, we report a 382-nucleotide (nt) deletion in SARS-CoV-2 that truncates open reading frame 7b (ORF7b) and ORF8, removing the ORF8 transcription regulatory sequence (TRS) and eliminating ORF8 transcription. The earliest 382-nt deletion variant was detected in Singapore on 29 January 2020, with the deletion viruses circulating in the country and accounting for 23.6% (45/191) of SARS-CoV-2 samples screened in this study. SARS-CoV-2 with the same deletion has since been detected in Taiwan, and other ORF7b/8 deletions of various lengths, ranging from 62 nt to 345 nt, have been observed in other geographic locations, including Australia, Bangladesh, and Spain. Mutations or deletions in ORF8 of SARS-CoV have been associated with reduced replicative fitness and virus attenuation. In contrast, the SARS-CoV-2 382-nt deletion viruses showed significantly higher replicative fitness in vitro than the wild type, while no difference was observed in patient viral load, indicating that the deletion variant viruses retained their replicative fitness. A robust antibody response to ORF8 has been observed in SARS-CoV-2 infection, suggesting that the emergence of ORF8 deletions may be due to immune-driven selection and that further deletion variants may emerge during the sustained transmission of SARS-CoV-2 in humans. IMPORTANCE During the SARS epidemic in 2003/2004, a number of deletions were observed in ORF8 of SARS-CoV, and eventually deletion variants became predominant, leading to the hypothesis that ORF8 was an evolutionary hot spot for adaptation of SARS-CoV to humans. However, due to the successful control of the SARS epidemic, the importance of these deletions for the epidemiological fitness of SARS-CoV in humans could not be established. The emergence of multiple SARS-CoV-2 strains with ORF8 deletions, combined with evidence of a robust immune response to ORF8, suggests that the lack of ORF8 may assist with host immune evasion. In addition to providing a key insight into the evolutionary behavior of SARS-CoV-2 as the virus adapts to its new human hosts, the emergence of ORF8 deletion variants may also impact vaccination strategies., (Copyright © 2020 Su et al.)

Published

2020

27. Detection of Recombinant Rousettus Bat Coronavirus GCCDC1 in Lesser Dawn Bats ( Eonycteris spelaea ) in Singapore.

Author

Paskey AC, Ng JHJ, Rice GK, Chia WN, Philipson CW, Foo RJH, Cer RZ, Long KA, Lueder MR, Lim XF, Frey KG, Hamilton T, Anderson DE, Laing ED, Mendenhall IH, Smith GJ, Wang LF, and Bishop-Lilly KA

Subjects

Animals, Betacoronavirus genetics, Disease Reservoirs virology, Genome, Viral genetics, Geography, High-Throughput Nucleotide Sequencing, Phylogeny, Recombination, Genetic genetics, Singapore epidemiology, Betacoronavirus isolation & purification, Chiroptera virology, Coronavirus Infections epidemiology, Coronavirus Infections veterinary

Abstract

Rousettus bat coronavirus GCCDC1 (RoBat-CoV GCCDC1) is a cross-family recombinant coronavirus that has previously only been reported in wild-caught bats in Yúnnan, China. We report the persistence of a related strain in a captive colony of lesser dawn bats captured in Singapore. Genomic evidence of the virus was detected using targeted enrichment sequencing, and further investigated using deeper, unbiased high throughput sequencing. RoBat-CoV GCCDC1 Singapore shared 96.52% similarity with RoBat-CoV GCCDC1 356 (NC_030886) at the nucleotide level, and had a high prevalence in the captive bat colony. It was detected at five out of six sampling time points across the course of 18 months. A partial segment 1 from an ancestral Pteropine orthoreovirus, p10, makes up the recombinant portion of the virus, which shares high similarity with previously reported RoBat-CoV GCCDC1 strains that were detected in Yúnnan, China. RoBat-CoV GCCDC1 is an intriguing, cross-family recombinant virus, with a geographical range that expands farther than was previously known. The discovery of RoBat-CoV GCCDC1 in Singapore indicates that this recombinant coronavirus exists in a broad geographical range, and can persist in bat colonies long-term.

Published

2020

28. Ecology of bat flies in Singapore: A study on the diversity, infestation bias and host specificity (Diptera: Nycteribiidae).

Author

Lim ZX, Hitch AT, Lee BPY, Low DHW, Neves ES, Borthwick SA, Smith GJD, and Mendenhall IH

Abstract

Bat flies are highly-specialized, hematophagous arthropods that are globally ubiquitous. There is little published research on bat flies (Diptera: Nycteribiidae) in Singapore and understanding the diversity of nycteribiids, host association and infestation rates can provide insight into this host-ectoparasite relationship. Nycteribiids were collected from bats trapped in Singapore (2011-2016) and identified using morphological keys. Host-ectoparasite relationships were investigated with logistic regression and Bayesian poisson regression. Nycteribiids were found to be monoxenously associated with their host bat species and host age, sex, species, and BBCI appear to contribute to differences in prevalence and intensity. Differences in host specificity between bat fly species in Singapore and their conspecifics in less disturbed habitats with higher bat biodiversity, such as Malaysia, Philippines and Thailand, suggest that the high host specificity in Singapore derives from the paucity of suitable hosts and abundance of single species roosts and not from their coevolved restrictions to them., (© 2020 The Authors. Published by Elsevier Ltd on behalf of Australian Society for Parasitology.)

Published

2020

29. Robust dengue virus infection in bat cells and limited innate immune responses coupled with positive serology from bats in IndoMalaya and Australasia.

Author

Irving AT, Rozario P, Kong PS, Luko K, Gorman JJ, Hastie ML, Chia WN, Mani S, Lee BP, Smith GJD, Mendenhall IH, Larman HB, Elledge SJ, and Wang LF

Subjects

Animals, Australasia epidemiology, Cell Line, Chiroptera immunology, Dengue epidemiology, Dengue immunology, Dengue Virus immunology, Host-Pathogen Interactions, Immunity, Innate, Malaysia epidemiology, Virus Internalization, Chiroptera virology, Dengue veterinary, Dengue Virus physiology

Abstract

Natural reservoir hosts can sustain infection of pathogens without succumbing to overt disease. Multiple bat species host a plethora of viruses, pathogenic to other mammals, without clinical symptoms. Here, we detail infection of bat primary cells, immune cells, and cell lines with Dengue virus. While antibodies and viral RNA were previously detected in wild bats, their ability to sustain infection is not conclusive. Old-world fruitbat cells can be infected, producing high titres of virus with limited cellular responses. In addition, there is minimal interferon (IFN) response in cells infected with MOIs leading to dengue production. The ability to support in vitro replication/production raises the possibility of bats as a transient host in the life cycle of dengue or similar flaviviruses. New antibody serology evidence from Asia/Pacific highlights the previous exposure and raises awareness that bats may be involved in flavivirus dynamics and infection of other hosts.

Published

2020

30. Novel de Novo Genome of Cynopterus brachyotis Reveals Evolutionarily Abrupt Shifts in Gene Family Composition across Fruit Bats.

Author

Chattopadhyay B, Garg KM, Ray R, Mendenhall IH, and Rheindt FE

Subjects

Animals, Echolocation, Genomics, Phylogeny, Adaptation, Physiological, Biological Evolution, Chiroptera genetics, Gene Expression Regulation, Genome

Abstract

Major novel physiological or phenotypic adaptations often require accompanying modifications at the genic level. Conversely, the detection of considerable contractions and/or expansions of gene families can be an indicator of fundamental but unrecognized physiological change. We sequenced a novel fruit bat genome (Cynopterus brachyotis) and adopted a comparative approach to reconstruct the evolution of fruit bats, mapping contractions and expansions of gene families along their evolutionary history. Despite a radical change in life history as compared with other bats (e.g., loss of echolocation, large size, and frugivory), fruit bats have undergone surprisingly limited change in their genic composition, perhaps apart from a potentially novel gene family expansion relating to telomere protection and longevity. In sharp contrast, within fruit bats, the new Cynopterus genome bears the signal of unusual gene loss and gene family contraction, despite its similar morphology and lifestyle to two other major fruit bat lineages. Most missing genes are regulatory, immune-related, and olfactory in nature, illustrating the diversity of genomic strategies employed by bats to contend with responses to viral infection and olfactory requirements. Our results underscore that significant fluctuations in gene family composition are not always associated with obvious examples of novel physiological and phenotypic adaptations but may often relate to less-obvious shifts in immune strategies., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2020

31. The temporal RNA virome patterns of a lesser dawn bat ( Eonycteris spelaea ) colony revealed by deep sequencing.

Author

Paskey AC, Ng JHJ, Rice GK, Chia WN, Philipson CW, Foo RJH, Cer RZ, Long KA, Lueder MR, Frey KG, Hamilton T, Mendenhall IH, Smith GJ, Wang LF, and Bishop-Lilly KA

Abstract

The virosphere is largely unexplored and the majority of viruses are yet to be represented in public sequence databases. Bats are rich reservoirs of viruses, including several zoonoses. In this study, high throughput sequencing (HTS) of viral RNA extracted from swabs of four body sites per bat per timepoint is used to characterize the virome through a longitudinal study of a captive colony of fruit nectar bats, species Eonycteris spelaea in Singapore. Through unbiased shotgun and target enrichment sequencing, we identify both known and previously unknown viruses of zoonotic relevance and define the population persistence and temporal patterns of viruses from families that have the capacity to jump the species barrier. To our knowledge, this is the first study that combines probe-based viral enrichment with HTS to create a viral profile from multiple swab sites on individual bats and their cohort. This work demonstrates temporal patterns of the lesser dawn bat virome, including several novel viruses. Given the known risk for bat-human zoonoses, a more complete understanding of the viral dynamics in South-eastern Asian bats has significant implications for disease prevention and control. The findings of this study will be of interest to U.S. Department of Defense personnel stationed in the Asia-Pacific region and regional public health laboratories engaged in emerging infectious disease surveillance efforts., (Published by Oxford University Press 2020. This work is written by US Government employees and is in the public domain in the US.)

Published

2020

32. Immunophenotyping monocytes, macrophages and granulocytes in the Pteropodid bat Eonycteris spelaea.

Author

Gamage AM, Zhu F, Ahn M, Foo RJH, Hey YY, Low DHW, Mendenhall IH, Dutertre CA, and Wang LF

Subjects

Animals, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Cell Differentiation drug effects, Chiroptera classification, Chiroptera genetics, Chiroptera virology, Gene Expression drug effects, Genome, Granulocyte-Macrophage Colony-Stimulating Factor pharmacology, Granulocytes cytology, Humans, Interleukin-8 genetics, Interleukin-8 metabolism, Lipopolysaccharides pharmacology, Macrophages cytology, Macrophages drug effects, Mice, Mice, Inbred C57BL, Monocytes cytology, Phylogeny, Receptors, Cell Surface metabolism, Tumor Necrosis Factor-alpha genetics, Tumor Necrosis Factor-alpha metabolism, Chiroptera immunology, Granulocytes metabolism, Immunophenotyping methods, Macrophages metabolism, Monocytes metabolism

Abstract

Bats are asymptomatic reservoir hosts for several highly pathogenic viruses. Understanding this enigmatic relationship between bats and emerging zoonotic viruses requires tools and approaches which enable the comparative study of bat immune cell populations and their functions. We show that bat genomes have a conservation of immune marker genes which delineate phagocyte populations in humans, while lacking key mouse surface markers such as Ly6C and Ly6G. Cross-reactive antibodies against CD44, CD11b, CD14, MHC II, and CD206 were multiplexed to characterize circulating monocytes, granulocytes, bone-marrow derived macrophages (BMDMs) and lung alveolar macrophages (AMs) in the cave nectar bat Eonycteris spelaea. Transcriptional profiling of bat monocytes and BMDMs identified additional markers - including MARCO, CD68, CD163, CD172α, and CD88 - which can be used to further characterize bat myeloid populations. Bat cells often resembled their human counterparts when comparing immune parameters that are divergent between humans and mice, such as the expression patterns of certain immune cell markers. A genome-wide comparison of immune-related genes also revealed a much closer phylogenetic relationship between bats and humans compared to rodents. Taken together, this study provides a set of tools and a comparative framework which will be important for unravelling viral disease tolerance mechanisms in bats.

Published

2020

33. Divergent evolutionary trajectories of influenza B viruses underlie their contemporaneous epidemic activity.

Author

Virk RK, Jayakumar J, Mendenhall IH, Moorthy M, Lam P, Linster M, Lim J, Lin C, Oon LLE, Lee HK, Koay ESC, Vijaykrishna D, Smith GJD, and Su YCF

Subjects

Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging immunology, Communicable Diseases, Emerging prevention & control, Genetic Variation, Genome, Viral genetics, Hemagglutinin Glycoproteins, Influenza Virus genetics, Humans, Influenza B virus immunology, Influenza B virus pathogenicity, Influenza, Human epidemiology, Influenza, Human immunology, Influenza, Human prevention & control, Neuraminidase genetics, Neuraminidase immunology, Selection, Genetic immunology, Communicable Diseases, Emerging virology, Epidemics prevention & control, Evolution, Molecular, Influenza B virus genetics, Influenza Vaccines therapeutic use, Influenza, Human virology

Abstract

Influenza B viruses have circulated in humans for over 80 y, causing a significant disease burden. Two antigenically distinct lineages ("B/Victoria/2/87-like" and "B/Yamagata/16/88-like," termed Victoria and Yamagata) emerged in the 1970s and have cocirculated since 2001. Since 2015 both lineages have shown unusually high levels of epidemic activity, the reasons for which are unclear. By analyzing over 12,000 influenza B virus genomes, we describe the processes enabling the long-term success and recent resurgence of epidemics due to influenza B virus. We show that following prolonged diversification, both lineages underwent selective sweeps across the genome and have subsequently taken alternate evolutionary trajectories to exhibit epidemic dominance, with no reassortment between lineages. Hemagglutinin deletion variants emerged concomitantly in multiple Victoria virus clades and persisted through epistatic mutations and interclade reassortment-a phenomenon previously only observed in the 1970s when Victoria and Yamagata lineages emerged. For Yamagata viruses, antigenic drift of neuraminidase was a major driver of epidemic activity, indicating that neuraminidase-based vaccines and cross-reactivity assays should be employed to monitor and develop robust protection against influenza B morbidity and mortality. Overall, we show that long-term diversification and infrequent selective sweeps, coupled with the reemergence of hemagglutinin deletion variants and antigenic drift of neuraminidase, are factors that contributed to successful circulation of diverse influenza B clades. Further divergence of hemagglutinin variants with poor cross-reactivity could potentially lead to circulation of 3 or more distinct influenza B viruses, further complicating influenza vaccine formulation and highlighting the urgent need for universal influenza vaccines., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

34. The impact of transfluthrin on the spatial repellency of the primary malaria mosquito vectors in Vietnam: Anopheles dirus and Anopheles minimus.

Author

Martin NJ, Nam VS, Lover AA, Phong TV, Tu TC, and Mendenhall IH

Subjects

Animals, Feeding Behavior drug effects, Female, Humans, Insecticide Resistance drug effects, Malaria transmission, Mosquito Control methods, Vietnam, Anopheles drug effects, Cyclopropanes therapeutic use, Fluorobenzenes therapeutic use, Insect Repellents therapeutic use, Malaria prevention & control, Mosquito Vectors drug effects

Abstract

Background: The complexity of mosquito-borne diseases poses a major challenge to global health efforts to mitigate their impact on people residing in sub-tropical and tropical regions, to travellers and deployed military personnel. To supplement drug- and vaccine-based disease control programmes, other strategies are urgently needed, including the direct control of disease vectors. Modern vector control research generally focuses on identifying novel active ingredients and/or innovative methods to reduce human-mosquito interactions. These efforts include the evaluation of spatial repellents, which are compounds capable of altering mosquito feeding behaviour without direct contact with the chemical source., Methods: This project examined the impact of airborne transfluthrin from impregnated textile materials on two important malaria vectors, Anopheles dirus and Anopheles minimus. Repellency was measured by movement within taxis cages within a semi-field environment at the National Institute of Hygiene and Epidemiology in Hanoi, Vietnam. Knockdown and mortality were measured in adult mosquito bioassay cages. Metered-volume air samples were collected at a sub-set of points in the mosquito exposure trial., Results: Significant differences in knockdown/mortality were observed along a gradient from the exposure source with higher rates of knockdown/mortality at 2 m and 4 m when compared with the furthest distance (16 m). Knockdown/mortality was also greater at floor level and 1.5 m when compared to 3 m above the floor. Repellency was not significantly different except when comparing 2 m and 16 m taxis cages. Importantly, the two species reacted differently to transfluthrin, with An. minimus being more susceptible to knockdown and mortality. The measured concentrations of airborne transfluthrin ranged from below the limit of detection to 1.32 ng/L, however there were a limited number of evaluable samples complicating interpretation of these results., Conclusions: This study, measuring repellency, knockdown and mortality in two malaria vectors in Vietnam demonstrates that both species are sensitive to airborne transfluthrin. The differences in magnitude of response between the two species requires further study before use in large-scale vector control programmes to delineate how spatial repellency would impact the development of insecticide resistance and the disruption of biting behaviour.

Published

2020

35. Historic reveals Anthropocene threat to a tropical urban fruit bat.

Author

Chattopadhyay B, Garg KM, Mendenhall IH, and Rheindt FE

Subjects

Animals, Conservation of Natural Resources methods, Ecosystem, Genetics, Population methods, Pollination, Population Density, Rainforest, Singapore, Species Specificity, Chiroptera genetics, Conservation of Natural Resources trends, Genetic Variation genetics

Abstract

Anthropogenic activities have propelled the Earth into a crisis characterized by unprecedented levels of environmental degradation and habitat loss, generating changes in global climatic regimes and initiating the planet's Sixth Extinction Catastrophe [1]. Loss of population genetic diversity is known to be a harbinger of local and global extinction events [2]. However, there is a lack of direct empirical evidence of historic losses of genetic diversity through periods of anthropogenically linked environmental degradation. We present genomic DNA information from a population of Sunda fruit bats (Cynopterus brachyotis) from Singapore, an exceptionally well-studied tropical rainforest island that has undergone substantial environmental degradation and fragmentation through the Anthropocene of the 1930-1950s [3]. As an effective pollinator and seed disperser, C. brachyotis represents an important keystone species in Singapore's ecosystem [4]. Here we show that comparison of historic DNA from individuals collected in 1931 with modern specimens reveals a nearly 30-fold reduction in effective population size and corresponding levels of decline in genetic diversity estimates. Coalescent population models indicate that Singapore's C. brachyotis bats underwent a continuous decline in genetic diversity followed by a stark bottleneck in approximately the 1940s, consistent with the estimated onset of the Anthropocene [5]. C. brachyotis continues to be considered common across Singapore [4], yet our results reveal large-scale impacts of the Anthropocene on biotic communities, even in those species thought to be tolerant to the effects of environmental degradation., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

36. Avian influenza viruses in humans: lessons from past outbreaks.

Author

Li YT, Linster M, Mendenhall IH, Su YCF, and Smith GJD

Subjects

Animals, Antiviral Agents therapeutic use, Birds, Disease Outbreaks, Disease Susceptibility, Humans, Influenza A virus classification, Influenza Vaccines, Influenza in Birds therapy, Influenza in Birds transmission, Influenza, Human therapy, Influenza, Human transmission, Risk Factors, Zoonoses epidemiology, Zoonoses therapy, Zoonoses transmission, Influenza in Birds epidemiology, Influenza, Human epidemiology

Abstract

Background: Human infections with avian influenza viruses (AIV) represent a persistent public health threat. The principal risk factor governing human infection with AIV is from direct contact with infected poultry and is primarily observed in Asia and Egypt where live-bird markets are common., Areas of Agreement: Changing patterns of virus transmission and a lack of obvious disease manifestations in avian species hampers early detection and efficient control of potentially zoonotic AIV., Areas of Controversy: Despite extensive studies on biological and environmental risk factors, the exact conditions required for cross-species transmission from avian species to humans remain largely unknown., Growing Points: The development of a universal ('across-subtype') influenza vaccine and effective antiviral therapeutics are a priority., Areas Timely for Developing Research: Sustained virus surveillance and collection of ecological and physiological parameters from birds in different environments is required to better understand influenza virus ecology and identify risk factors for human infection., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2019

37. Filovirus-reactive antibodies in humans and bats in Northeast India imply zoonotic spillover.

Author

Dovih P, Laing ED, Chen Y, Low DHW, Ansil BR, Yang X, Shi Z, Broder CC, Smith GJD, Linster M, Ramakrishnan U, and Mendenhall IH

Subjects

Adolescent, Adult, Animals, Chiroptera blood, Ebolavirus immunology, Filoviridae classification, Filoviridae isolation & purification, Filoviridae Infections immunology, Filoviridae Infections virology, Geographic Mapping, Glycoproteins immunology, Humans, India epidemiology, Membrane Glycoproteins, Middle Aged, Phylogeny, Seroepidemiologic Studies, Young Adult, Antibodies, Viral blood, Chiroptera immunology, Chiroptera virology, Disease Reservoirs virology, Filoviridae immunology, Filoviridae Infections epidemiology, Filoviridae Infections veterinary

Abstract

Bats are reservoirs for several zoonotic pathogens, including filoviruses. Recent work highlights the diversity of bat borne filoviruses in Asia. High risk activities at the bat-human interface pose the threat of zoonotic virus transmission. We present evidence for prior exposure of bat harvesters and two resident fruit bat species to filovirus surface glycoproteins by screening sera in a multiplexed serological assay. Antibodies reactive to two antigenically distinct filoviruses were detected in human sera and to three individual filoviruses in bats in remote Northeast India. Sera obtained from Eonycteris spelaea bats showed similar patterns of cross-reactivity as human samples, suggesting them as the species responsible for the spillover. In contrast, sera from Rousettus leschenaultii bats reacted to two different virus glycoproteins. Our results indicate circulation of several filoviruses in bats and the possibility for filovirus transmission from bats to humans., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

38. A peridomestic Aedes malayensis population in Singapore can transmit yellow fever virus.

Author

Miot EF, Aubry F, Dabo S, Mendenhall IH, Marcombe S, Tan CH, Ng LC, Failloux AB, Pompon J, Brey PT, and Lambrechts L

Subjects

Aedes growth & development, Animals, Female, Host-Pathogen Interactions physiology, Humans, Mosquito Vectors physiology, Saliva virology, Singapore epidemiology, Yellow Fever epidemiology, Yellow Fever transmission, Aedes virology, Mosquito Vectors virology, Yellow Fever virology, Yellow fever virus physiology

Abstract

The case-fatality rate of yellow fever virus (YFV) is one of the highest among arthropod-borne viruses (arboviruses). Although historically, the Asia-Pacific region has remained free of YFV, the risk of introduction has never been higher due to the increasing influx of people from endemic regions and the recent outbreaks in Africa and South America. Singapore is a global hub for trade and tourism and therefore at high risk for YFV introduction. Effective control of the main domestic mosquito vector Aedes aegypti in Singapore has failed to prevent re-emergence of dengue, chikungunya and Zika viruses in the last two decades, raising suspicions that peridomestic mosquito species untargeted by domestic vector control measures may contribute to arbovirus transmission. Here, we provide empirical evidence that the peridomestic mosquito Aedes malayensis found in Singapore can transmit YFV. Our laboratory mosquito colony recently derived from wild Ae. malayensis in Singapore was experimentally competent for YFV to a similar level as Ae. aegypti controls. In addition, we captured Ae. malayensis females in one human-baited trap during three days of collection, providing preliminary evidence that host-vector contact may occur in field conditions. Finally, we detected Ae. malayensis eggs in traps deployed in high-rise building areas of Singapore. We conclude that Ae. malayensis is a competent vector of YFV and re-emphasize that vector control methods should be extended to target peridomestic vector species., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

39. High basal heat-shock protein expression in bats confers resistance to cellular heat/oxidative stress.

Author

Chionh YT, Cui J, Koh J, Mendenhall IH, Ng JHJ, Low D, Itahana K, Irving AT, and Wang LF

Subjects

Adaptation, Physiological physiology, Animals, Cell Line, Humans, Chiroptera metabolism, Flight, Animal physiology, HSP70 Heat-Shock Proteins metabolism, HSP90 Heat-Shock Proteins metabolism, Heat-Shock Response physiology, Longevity physiology, Oxidative Stress physiology

Abstract

Bats, unique among mammals with powered flight, have many species with the longest size-proportionate lifespan of all mammals. Evolutionary adaptations would have been required to survive the elevated body temperatures during flight. Heat shock protein (HSP), highly conserved master regulators of cell stress, expression was examined across tissues and various cell lines in bats. Basal expression level of major HSPs (HSP70 and HSP90) is significantly higher in two different bat species compared to other mammals. This HSP expression could be a bat-unique, key factor to modulate cellular stress and death. Consequently, bat cells survive prolonged heat treatment, along with other stress stimuli, in a HSP-dependent manner, whereas other mammalian cells succumbed. This suggests HSP expression in bats could be an important adaption to intrinsic metabolic stresses like flight and therefore an important model to study stress resilience and longevity in general.

Published

2019

40. ABCB1 protects bat cells from DNA damage induced by genotoxic compounds.

Author

Koh J, Itahana Y, Mendenhall IH, Low D, Soh EXY, Guo AK, Chionh YT, Wang LF, and Itahana K

Subjects

ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily B metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, Animals, Cell Death drug effects, Cell Line, Doxorubicin toxicity, Humans, Mice, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Chiroptera genetics, Chiroptera metabolism, DNA Damage drug effects, Mutagens toxicity

Abstract

Bats are unusual mammals, with the ability to fly, and long lifespans. In addition, bats have a low incidence of cancer, but the mechanisms underlying this phenomenon remain elusive. Here we discovered that bat cells are more resistant than human and mouse cells to DNA damage induced by genotoxic drugs. We found that bat cells accumulate less chemical than human and mouse cells, and efficient drug efflux mediated by the ABC transporter ABCB1 underlies this improved response to genotoxic reagents. Inhibition of ABCB1 triggers an accumulation of doxorubicin, DNA damage, and cell death. ABCB1 is expressed at higher levels in several cell lines and tissues derived from bats compared to humans. Furthermore, increased drug efflux and high expression of ABCB1 are conserved across multiple bat species. Our findings suggest that enhanced efflux protects bat cells from DNA damage induced by genotoxic compounds, which may contribute to their low cancer incidence.

Published

2019

41. Discovery and Characterization of Novel Bat Coronavirus Lineages from Kazakhstan.

Author

Mendenhall IH, Kerimbayev AA, Strochkov VM, Sultankulova KT, Kopeyev SK, Su YCF, Smith GJD, and Orynbayev MB

Subjects

Alphacoronavirus genetics, Animals, Chiroptera classification, Coronavirus Infections transmission, Coronavirus Infections virology, Disease Reservoirs classification, Disease Reservoirs virology, Genetic Variation, Kazakhstan, Phylogeny, Phylogeography, RNA, Viral genetics, RNA-Dependent RNA Polymerase genetics, Viral Proteins genetics, Alphacoronavirus classification, Chiroptera virology, Coronavirus Infections veterinary, Disease Reservoirs veterinary

Abstract

Coronaviruses are positive-stranded RNA viruses that infect a variety of hosts, resulting in a range of symptoms from gastrointestinal illness to respiratory distress. Bats are reservoirs for a high diversity of coronaviruses, and focused surveillance detected several strains genetically similar to MERS-coronavirus, SARS-coronavirus, and the human coronaviruses 229E and NL63. The bat fauna of central Asia, which link China to eastern Europe, are relatively less studied than other regions of the world. Kazakhstan is the world's ninth largest country; however, little is understood about the prevalence and diversity of bat-borne viruses. In this study, bat guano was collected from bat caves in three different sites of southern Kazakhstan that tested positive for coronaviruses. Our phylogenetic reconstruction indicates these are novel bat coronaviruses that belong to the genus Alphacoronavirus . In addition, two distinct lineages of Kazakhstan bat coronaviruses were detected. Both lineages are closely related to bat coronaviruses from China, France, Spain, and South Africa, suggesting that co-circulation of coronaviruses is common in multiple bat species with overlapping geographical distributions. Our study highlights the need for collaborative efforts in understudied countries to increase integrated surveillance capabilities toward better monitoring and detection of infectious diseases., Competing Interests: The authors declare no conflict of interest.

Published

2019

42. Diversity and Evolution of Viral Pathogen Community in Cave Nectar Bats ( Eonycteris spelaea ).

Author

Mendenhall IH, Wen DLH, Jayakumar J, Gunalan V, Wang L, Mauer-Stroh S, Su YCF, and Smith GJD

Subjects

Adenoviridae genetics, Animals, Asia, Southeastern epidemiology, Feces virology, Genome, Viral, Herpesviridae genetics, High-Throughput Nucleotide Sequencing, Paramyxoviridae genetics, Phylogeny, Virus Diseases epidemiology, Virus Diseases urine, Virus Diseases veterinary, Chiroptera virology, Evolution, Molecular, Genetic Variation, Viruses genetics, Viruses pathogenicity

Abstract

Bats are unique mammals, exhibit distinctive life history traits and have unique immunological approaches to suppression of viral diseases upon infection. High-throughput next-generation sequencing has been used in characterizing the virome of different bat species. The cave nectar bat, Eonycteris spelaea , has a broad geographical range across Southeast Asia, India and southern China, however, little is known about their involvement in virus transmission. Here we investigate the diversity and abundance of viral communities from a colony of Eonycteris spelaea residing in Singapore. Our results detected 47 and 22 different virus families from bat fecal and urine samples, respectively. Among these, we identify a large number of virus families including Adenoviridae, Flaviviridae, Reoviridae, Papillomaviridae, Paramyxoviridae, Parvoviridae, Picornaviridae, and Polyomaviridae. In most cases, viral sequences from Eonycteris spelaea are genetically related to a group of bat viruses from other bat genera (e.g., Eidolon , Miniopterus , Rhinolophus and Rousettus ). The results of this study improve our knowledge of the host range, spread and evolution of several important viral pathogens. More significantly, our findings provide a baseline to study the temporal patterns of virus shedding and how they correlate with bat phenological trends.

Published

2019

43. Isolation and Full-Genome Characterization of Nipah Viruses from Bats, Bangladesh.

Author

Anderson DE, Islam A, Crameri G, Todd S, Islam A, Khan SU, Foord A, Rahman MZ, Mendenhall IH, Luby SP, Gurley ES, Daszak P, Epstein JH, and Wang LF

Subjects

Animals, Bangladesh, Geography, Henipavirus Infections virology, Humans, Nipah Virus isolation & purification, Phylogeny, Zoonoses, Chiroptera virology, Disease Reservoirs virology, Genome, Viral genetics, Henipavirus Infections veterinary, Nipah Virus genetics

Abstract

Despite molecular and serologic evidence of Nipah virus in bats from various locations, attempts to isolate live virus have been largely unsuccessful. We report isolation and full-genome characterization of 10 Nipah virus isolates from Pteropus medius bats sampled in Bangladesh during 2013 and 2014.

Published

2019

44. Exploring the genome and transcriptome of the cave nectar bat Eonycteris spelaea with PacBio long-read sequencing.

Author

Wen M, Ng JHJ, Zhu F, Chionh YT, Chia WN, Mendenhall IH, Lee BP, Irving AT, and Wang LF

Subjects

Alternative Splicing, Animals, Chiroptera classification, Computational Biology methods, Evolution, Molecular, Female, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, Phylogeny, Chiroptera genetics, Genome, Genomics methods, Transcriptome

Abstract

Background: In the past two decades, bats have emerged as an important model system to study host-pathogen interactions. More recently, it has been shown that bats may also serve as a new and excellent model to study aging, inflammation, and cancer, among other important biological processes. The cave nectar bat or lesser dawn bat (Eonycteris spelaea) is known to be a reservoir for several viruses and intracellular bacteria. It is widely distributed throughout the tropics and subtropics from India to Southeast Asia and pollinates several plant species, including the culturally and economically important durian in the region. Here, we report the whole-genome and transcriptome sequencing, followed by subsequent de novo assembly, of the E. spelaea genome solely using the Pacific Biosciences (PacBio) long-read sequencing platform., Findings: The newly assembled E. spelaea genome is 1.97 Gb in length and consists of 4,470 sequences with a contig N50 of 8.0 Mb. Identified repeat elements covered 34.65% of the genome, and 20,640 unique protein-coding genes with 39,526 transcripts were annotated., Conclusions: We demonstrated that the PacBio long-read sequencing platform alone is sufficient to generate a comprehensive de novo assembled genome and transcriptome of an important bat species. These results will provide useful insights and act as a resource to expand our understanding of bat evolution, ecology, physiology, immunology, viral infection, and transmission dynamics.

Published

2018

45. High diversity of medically important gastrointestinal rodent-borne helminths in Singapore.

Author

Mendenhall IH, Ch'ng L, Neves ES, Borthwick SA, and Smith GJD

Subjects

Animals, Biodiversity, Helminthiasis, Animal epidemiology, Helminths classification, Helminths genetics, Humans, Phylogeny, Rodent Diseases epidemiology, Singapore epidemiology, Zoonoses, Helminthiasis, Animal parasitology, Rodent Diseases parasitology, Rodentia parasitology, Shrews parasitology

Abstract

Small mammals are important reservoirs of zoonotic diseases and are definitive hosts for medically important parasitic helminths. Several rodent and shrew species are peridomestic, bringing them into close contact with both humans and the intermediate hosts that maintain the transmission cycle. Here, we screened DNA extracted from large intestine tissue homogenate from 108 individuals comprised of 10 species. We detected two species known to infect humans, Dicrocoelium dendriticum and Moniliformis moniliformis. We also report the first detection of a second Angiostrongylus species in Singapore. This study demonstrates the diversity of helminths that are parasitizing the small mammals in Singapore., (© 2017 Blackwell Verlag GmbH.)

Published

2018

46. Bat-mouse bone marrow chimera: a novel animal model for dissecting the uniqueness of the bat immune system.

Author

Yong KSM, Ng JHJ, Her Z, Hey YY, Tan SY, Tan WWS, Irac SE, Liu M, Chan XY, Gunawan M, Foo RJH, Low DHW, Mendenhall IH, Chionh YT, Dutertre CA, Chen Q, and Wang LF

Subjects

Animals, Chiroptera, Graft Rejection prevention & control, Mice, Mice, Inbred NOD, Mice, SCID, Severe Combined Immunodeficiency immunology, Bone Marrow Transplantation methods, Graft Rejection immunology, Graft Survival immunology, Lymphocytes immunology, Severe Combined Immunodeficiency therapy, Transplantation Chimera immunology

Abstract

Bats are an important animal model with long lifespans, low incidences of tumorigenesis and an ability to asymptomatically harbour pathogens. Currently, in vivo studies of bats are hampered due to their low reproduction rates. To overcome this, we transplanted bat cells from bone marrow (BM) and spleen into an immunodeficient mouse strain NOD-scid IL-2R -/- (NSG), and have successfully established stable, long-term reconstitution of bat immune cells in mice (bat-mice). Immune functionality of our bat-mouse model was demonstrated through generation of antigen-specific antibody response by bat cells following immunization. Post-engraftment of total bat BM cells and splenocytes, bat immune cells survived, expanded and repopulated the mouse without any observable clinical abnormalities. Utilizing bat's remarkable immunological functions, this novel model has a potential to be transformed into a powerful platform for basic and translational research.

Published

2018

47. Detection and genetic characterization of diverse Bartonella genotypes in the small mammals of Singapore.

Author

Neves ES, Mendenhall IH, Borthwick SA, Su YCF, and Smith GJD

Subjects

Animals, Bartonella isolation & purification, Bartonella Infections epidemiology, Bartonella Infections microbiology, DNA, Bacterial genetics, DNA, Bacterial isolation & purification, Singapore epidemiology, Species Specificity, Spleen microbiology, Bartonella genetics, Bartonella Infections veterinary, Genotype, Mammals microbiology

Abstract

Bartonella species are arthropod-borne bacterial pathogens that infect numerous mammalian species. Small mammals play an important role as natural reservoirs of many Bartonella species, maintaining the greatest diversity of Bartonella described to date. Although Bartonella research has been conducted in Southeast Asia, no studies have been undertaken on small mammals in Singapore. Here, we report the detection and description of Bartonella in small mammals in Singapore during the period of November 2011 to May 2014. BartonellaDNA was detected in 20.8% (22/106) of small mammal spleens with a PCR amplifying the beta subunit of bacterial RNA polymerase (rpoB) gene. Commensal species Rattus norvegicus and Rattus tanezumi had the highest prevalence, 75% (3/4) and 34,5% (10/29), followed by Suncus murinus 30% (6/20), Tupaia glis 16,7% (1/6) and Mus castaneus 13.3% (2/15). Phylogenetic analysis of 18 rpoB gene sequences revealed five Bartonella genotypes circulating in the small mammals of Singapore. Bayesian tip-significance testing demonstrated strong structuring in the geographical signal, indicating that distribution of Bartonella species is correlated to the distribution of their hosts. Major deforestation and fragmentation in Singapore favour synanthropic species that traverse habitats and increase the possibility of spillover to incidental hosts., (© 2017 Blackwell Verlag GmbH.)

Published

2018

48. Serologic Evidence of Fruit Bat Exposure to Filoviruses, Singapore, 2011-2016.

Author

Laing ED, Mendenhall IH, Linster M, Low DHW, Chen Y, Yan L, Sterling SL, Borthwick S, Neves ES, Lim JSL, Skiles M, Lee BPY, Wang LF, Broder CC, and Smith GJD

Subjects

Animals, Glycoproteins blood, Glycoproteins genetics, Glycoproteins isolation & purification, Seroepidemiologic Studies, Singapore epidemiology, Chiroptera blood, Chiroptera virology, Ebolavirus, Marburgvirus, Viral Envelope Proteins blood

Abstract

To determine whether fruit bats in Singapore have been exposed to filoviruses, we screened 409 serum samples from bats of 3 species by using a multiplex assay that detects antibodies against filoviruses. Positive samples reacted with glycoproteins from Bundibugyo, Ebola, and Sudan viruses, indicating filovirus circulation among bats in Southeast Asia.

Published

2018

49. Identification of a Lineage D Betacoronavirus in Cave Nectar Bats (Eonycteris spelaea) in Singapore and an Overview of Lineage D Reservoir Ecology in SE Asian Bats.

Author

Mendenhall IH, Borthwick S, Neves ES, Low D, Linster M, Liang B, Skiles M, Jayakumar J, Han H, Gunalan V, Lee BPY, Okahara K, Wang LF, Maurer-Stroh S, Su YCF, and Smith GJD

Subjects

Animals, Betacoronavirus genetics, Biological Evolution, Coronavirus Infections virology, Disease Reservoirs virology, Ecology, Feces virology, Female, High-Throughput Nucleotide Sequencing veterinary, Male, Phylogeny, Reverse Transcriptase Polymerase Chain Reaction veterinary, Singapore epidemiology, Spatio-Temporal Analysis, Urine virology, Betacoronavirus isolation & purification, Chiroptera virology, Coronavirus Infections veterinary, Disease Reservoirs veterinary, Host-Pathogen Interactions

Abstract

Coronaviruses are a diverse group of viruses that infect mammals and birds. Bats are reservoirs for several different coronaviruses in the Alphacoronavirus and Betacoronavirus genera. They also appear to be the natural reservoir for the ancestral viruses that generated the severe acute respiratory syndrome coronavirus and Middle East respiratory syndrome coronavirus outbreaks. Here, we detected coronavirus sequences in next-generation sequence data created from Eonycteris spelaea faeces and urine. We also screened by PCR urine samples, faecal samples and rectal swabs collected from six species of bats in Singapore between 2011 and 2014, all of which were negative. The phylogenetic analysis indicates this novel strain is most closely related to lineage D Betacoronaviruses detected in a diverse range of bat species. This is the second time that coronaviruses have been detected in cave nectar bats, but the first coronavirus sequence data generated from this species. Bat species from which this group of coronaviruses has been detected are widely distributed across SE Asia, South Asia and Southern China. They overlap geographically, often share roosting sites and have been witnessed to forage on the same plant. The addition of sequence data from this group of viruses will allow us to better understand coronavirus evolution and host specificity., (© 2016 Blackwell Verlag GmbH.)

Published

2017

50. Influence of age and body condition on astrovirus infection of bats in Singapore: An evolutionary and epidemiological analysis.

Author

Mendenhall IH, Skiles MM, Neves ES, Borthwick SA, Low DHW, Liang B, Lee BPY, Su YCF, and Smith GJD

Abstract

Bats are unique mammals that are reservoirs of high levels of virus diversity. Although several of these viruses are zoonotic, the majority are not. Astroviruses, transmitted fecal-orally, are commonly detected in a wide diversity of bat species, are prevalent at high rates and are not thought to directly infect humans. These features make astroviruses useful in examining virus evolutionary history, epidemiology in the host, and temporal shedding trends. Our study screened for the presence of astroviruses in bats in Singapore, reconstructed the phylogenetic relations of the polymerase genes and tested for population characteristics associated with infection. Of the seven species screened, astroviruses were detected in Rhinolophus lepidus and Eonycteris spelaea . The R. lepidus sequences grouped with other Rhinolophus astrovirus sequences from China and Laos, while the Eoncyteris sequences formed a distinct clade with astroviruses from Rousettus spp. in Laos and Pteropus giganteus in Bangladesh, but not with other E. spelaea sequences. Longitudinal collections of Eonycteris feces demonstrated variable shedding. Juvenile status of bats was a risk factor for astroviruses. This study highlights the diversity of astroviruses in nectivorous and insectivorous bats in Singapore and provides a predictive framework for understanding astrovirus infection in these bats. It also suggests that in addition to host phylogenetic relatedness, host ecology, such as roosting behavior, may drive co-infections, virus maintenance and spillover.

Published

2017