Comparative phylogeography of African fruit bats (Chiroptera, Pteropodidae) provide new insights into the outbreak of Ebola virus disease in West Africa, 2014–2016

Hassanin, Alexandre; Nesi, Nicolas; Marin, Julie; Kadjo, Blaise; Pourrut, Xavier; Leroy, Eric M.; Gembu, Guy‐Crispin; Akawa, Prescott Musaba; Ngoagouni, Carine; Nakouné, Emmanuel; Rüedi, Manuel; Tshikung, Didier; Shongo, Célestin Pongombo; Bonillo, Céline

doi:10.1016/j.crvi.2016.09.005

Cited by 25 publications

(35 citation statements)

References 39 publications

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“…Data from localities within 5 km of one another are displayed on a single chart. Those circles enclosed by bold line include data from both cyt b and CR sequences, and those circles enclosed by thin line only by cyt b (Hassanin et al, ) or CR sequences (present study and Hulva et al, )…”

Section: Resultsmentioning

confidence: 62%

“…Distributional mapping was based on data from the present study and a meta‐analysis of published distributional records (Benda et al, , ; Bergmans, ; Goodman & Ramasindrazana, ; Hassanin et al, ; Hulva et al, ; Monadjem, Taylor, Cotterill, & Schoeman, ). Current land cover data derived from the ESA Climate Change Initiative ‐ Land Cover (2017) were generalized into seven classes to visualize environmental conditions within the area studied (Figure ).…”

Section: Methodsmentioning

confidence: 99%

“…This reconstruction, together with the sister‐taxon relationship of Asian Eonycteris to the Rousettus radiation, supports the hypothesis of an Asian origin of the genus. The colonization of Africa is likely to have occurred in the late Pliocene/early Pleistocene, between 2.6 and 1.7 Mya (Almeida et al, ; Hassanin et al, ). Fossils dating from the Early and Middle Miocene of southern France (Aguilar et al, ), morphologically similar to extant Rousettus , support the hypothesis that its Neogene range included the Mediterranean Basin and the Middle East.…”

Section: Introductionmentioning

confidence: 99%

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Pan African phylogeography and palaeodistribution of rousettine fruit bats: Ecogeographic correlation with Pleistocene climate vegetation cycles

Stribna

Romportl

Demjanovič

et al. 2019

Journal of Biogeography

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Aim The impact of Pleistocene climatic oscillations on tropical biomes is associated with changes in the extent of forest cover. Fruit bats have played a role in woodland dynamics via pollination and seed dispersal. We hypothesized that phylogeographic patterns of Rousettus on continental Africa and adjacent islands should show a signature of pluvial‐drought cycles, involving demographic expansions and contractions. Location Afrotropical, Malagasy and Saharo‐Arabian biogeographic realms. Taxon Genus Rousettus (Pteropodidae). Methods Phylogeographic and population genetic approaches using mitochondrial and microsatellite data were integrated with species distribution modelling of currently suitable habitats and those of the Last Glacial Maximum using climate simulations. Results Phylogenetic reconstruction yielded an Asian outgroup followed by pectinate branching of the Indian Ocean taxa and Rousettus aegyptiacus. While nuclear microsatellites were homogeneous across the African mainland, two mitochondrial haplogroups were found. Haplogroup I is widespread in regions with extensive tree cover, including tropical rain forests, and has close relationships to isolated lineages in the Middle East and islands in the Gulf of Guinea. Haplogroup II is sister to the rest of the R. aegyptiacus radiation and is found in eastern and southern Africa and the Sudanian savanna in habitats with semi‐open land cover. Main Conclusion Palaeodistributional modelling ascertained that the Indian Ocean islands provided more extensive areas of suitable habitat in the past relative to conditions today, suggesting stepping stone connectivity between Asia and Africa during Pleistocene interpluvial sea‐level lowstands. Inverse pluvial‐drought demography was detected in lineages ancestral to recent haplogroups, providing evidence of past forest refugia and complex ecogeographic scenarios of haplogroup origins involving allopatry and parapatry connected with the eastern Afromontane biodiversity hotspot, and subsequent admixture of nuclear gene pools. The Middle Eastern lineage probably originated during pluvial green Sahara periods, possibly in co‐evolution with ancestors of tree crop species domesticated later during the Neolithic revolution. The keystone role of rousettine bats for forest regeneration and their ability to pioneer dry and distant habitats emphasize their role in conservation biology and restoration ecology.

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Section: Resultsmentioning

confidence: 62%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Pan African phylogeography and palaeodistribution of rousettine fruit bats: Ecogeographic correlation with Pleistocene climate vegetation cycles

Stribna

Romportl

Demjanovič

et al. 2019

Journal of Biogeography

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“…The basal diversification of Glauconycteris occurred when a brief event of aridity, between 6.5 and 6 Mya, was followed by more humid conditions (Bonnefille, ). It also coincides with the first phase of diversification in the two fruit bat tribes that are endemic to Africa, that is, Epomophorini and Scotonycterini (Hassanin et al., , ; Nesi et al., ). As in Glauconycteris , fruit bats diversified into taxa characterized by different body sizes and different habitat types, suggesting that climatic changes led to the exploitation of new ecological niches.…”

Section: Discussionmentioning

confidence: 70%

Multilocus phylogeny and species delimitation within the genusGlauconycteris(Chiroptera, Vespertilionidae), with the description of a new bat species from the Tshopo Province of the Democratic Republic of the Congo

Hassanin

Colombo²,

Gembu

et al. 2017

J Zool Syst Evol Res

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The genus Glauconycteris Dobson, 1875 currently contains 12 species of butterfly bats, all endemic to sub-Saharan Africa. Most species are rarely recorded, with half of the species known from less than six geographic localities. The taxonomic status of several species remains problematic. Here, we studied the systematics of butterfly bats using both morphological and molecular approaches. We examined 45 adult specimens for external anatomy and skull morphology, and investigated the phylogeny of Glauconycteris using DNA sequences from three mitochondrial genes and 116 individuals, which in addition to outgroup taxa, included nine of the twelve butterfly bat species currently recognized. Four additional nuclear genes were sequenced on a reduced sample of 69 individuals, covering the outgroup and Glauconycteris species. Our molecular results show that the genus Glauconycteris is monophyletic, and that it is the sister-group of the Asian genus Hesperoptenus.Molecular dating estimates based on either Cytb or RAG2 data sets suggest that the ancestor of Glauconycteris migrated into Africa from Asia during the Tortonian age of the Late Miocene (11.6-7.2 Mya), while the basal diversification of the crown group occurred in Africa at around 6 AE 2 Mya. The species G. superba is found to be the sister-group of G. variegata, questioning its placement in the recently

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“…However, for many viruses, alternative animal models better recapitulate human physiology and disease. Ferrets ( Mustela putorius furo ) have been employed to study the pathogenesis of a variety of human pathogens, including human and avian influenzas, coronaviruses including severe acute respiratory syndrome (SARS‐CoV), human respiratory syncytial virus (HRSV), human metapneumovirus (HMPV), Ebola virus and henipavirus (Nipah virus and Hendra virus) . While ferrets can be productively infected with many of these viruses, a lack of some tools to interrogate ferret immunological responses to infection limits insights that might impact the development of vaccines and/or therapeutics.…”

Section: Introductionmentioning

confidence: 99%

Improving immunological insights into the ferret model of human viral infectious disease

Wong

Layton

Wheatley

et al. 2019

Influenza Resp Viruses

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Influenza Other Respi Viruses. 2019;13:535-546. | 535 wileyonlinelibrary.com/journal/irv 1 | INTRODUC TI ON Animal models have proved critical in developing concepts of immunity to infection. Non-human primates (NHP) are a highly humanrelevant disease model for infectious agents due to high genetic conservation between humans and NHP. 1-3 However, significant cost and ethical issues often necessitate the use of smaller animal models for both basic and translational research. Mice (Mus musculus) are a favoured small animal model due to widespread availability, incisive transgenic models, comprehensive genomic information 4 and readily available reagents. However, for many viruses, alternative animal models better recapitulate human physiology and disease. Ferrets (Mustela putorius furo) have been employed to study the pathogenesis of a variety of human pathogens, including human and avian influenzas, coronaviruses including severe acute respiratory syndrome (SARS-CoV), 5-14 human respiratory syncytial virus (HRSV), 15-20 human metapneumovirus (HMPV), 21 Ebola virus 22-28 and henipavirus (Nipah virus and Hendra virus). 29-34 While ferretscan be productively infected with many of these viruses, a lack of some tools to interrogate ferret immunological responses to infection limits insights that might impact the development of vaccines and/or therapeutics. Here, we review recent insights gained from ferret models of human respiratory diseases, with a major focus on influenza, and highlight several knowledge gaps whose closure will greatly enhance the informational gain from ferret models to advance development of human vaccines and therapeutics. AbstractFerrets are a well-established model for studying both the pathogenesis and transmission of human respiratory viruses and evaluation of antiviral vaccines. Advanced immunological studies would add substantial value to the ferret models of disease but are hindered by the low number of ferret-reactive reagents available for flow cytometry and immunohistochemistry. Nevertheless, progress has been made to understand immune responses in the ferret model with a limited set of ferret-specific reagents and assays. This review examines current immunological insights gained from the ferret model across relevant human respiratory diseases, with a focus on influenza viruses. We highlight key knowledge gaps that need to be bridged to advance the utility of ferrets for immunological studies. K E Y W O R D S ferret, immunology, influenza How to cite this article: Wong J, Layton D, Wheatley AK, Kent SJ. Improving immunological insights into the ferret model of human viral infectious disease. Influenza Other Respi Viruses. 2019;13:535-546. https ://doi.

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Comparative phylogeography of African fruit bats (Chiroptera, Pteropodidae) provide new insights into the outbreak of Ebola virus disease in West Africa, 2014–2016

Cited by 25 publications

References 39 publications

Pan African phylogeography and palaeodistribution of rousettine fruit bats: Ecogeographic correlation with Pleistocene climate vegetation cycles

Pan African phylogeography and palaeodistribution of rousettine fruit bats: Ecogeographic correlation with Pleistocene climate vegetation cycles

Multilocus phylogeny and species delimitation within the genusGlauconycteris(Chiroptera, Vespertilionidae), with the description of a new bat species from the Tshopo Province of the Democratic Republic of the Congo

Improving immunological insights into the ferret model of human viral infectious disease

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