Henipaviruses at the Interface Between Bats, Livestock and Human Population in Africa: A Review.

Nipah virus (NiV) and Hendra virus (HeV) are closely related members within the genus Henipavirus, family Paramyxoviridae, for which fruit bats serve as the reservoir. The initial emergence of NiV infections in pigs and humans in Malaysia, and HeV infections in horses and humans in Australia, posed severe impacts on human and animal health, and continues threatening lives of humans and livestock within Southeast Asia and Australia. Recently, henipavirus-specific antibodies have also been detected in fruit bats in a number of sub-Saharan African countries and in Brazil, thereby considerably increasing the known geographic distribution of henipaviruses. Africa is progressively being recognized as a new high prevalence zone for henipaviruses, as deduced from serological and molecular evidence of past infections in Madagascar, Ghana, Republic of Congo, Gulf of Guinea, Zambia, Tanzania, Cameroon, and Nigeria lately. Serological data suggest henipavirus spillover from bats to livestock and human populations in Africa without reported clinical disease in any of these species. All virus isolation attempts have been abortive, highlighting the need for further investigations. The genome of the Ghanaian bat henipavirus designated Ghana virus (GhV), which was detected in a pteropid Eidolon helvum bat, is the only African henipavirus that has been completely sequenced limiting our current knowledge on the genetic diversity and pathogenesis of African henipaviruses. In this review, we summarize the available data on the circulation of henipaviruses in Africa, discuss potential sources for virus spillover, and highlight existing research gaps.

[1]  L. Paul Nipah virus in Kerala: a deadly Zoonosis. , 2018, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.

[2]  R. Plowright,et al.  Changing resource landscapes and spillover of henipaviruses , 2018, Annals of the New York Academy of Sciences.

[3]  Hazel R. Parry,et al.  Environmental drivers of spatiotemporal foraging intensity in fruit bats and implications for Hendra virus ecology , 2018, Scientific Reports.

[4]  R. Plowright,et al.  Optimal foraging in seasonal environments: implications for residency of Australian flying foxes in food-subsidized urban landscapes , 2018, Philosophical Transactions of the Royal Society B: Biological Sciences.

[5]  M. Groschup,et al.  Indirect ELISA based on Hendra and Nipah virus proteins for the detection of henipavirus specific antibodies in pigs , 2018, PLoS ONE.

[6]  H. Field,et al.  Hervey virus: Study on co-circulation with Henipaviruses in Pteropid bats within their distribution range from Australia to Africa , 2018, PloS one.

[7]  I. Rissanen,et al.  Idiosyncratic Mòjiāng virus attachment glycoprotein directs a host-cell entry pathway distinct from genetically related henipaviruses , 2017, Nature Communications.

[8]  John D. Wright,et al.  Playing with fire – What is influencing horse owners’ decisions to not vaccinate their horses against deadly Hendra virus infection? , 2017, PloS one.

[9]  James O. Lloyd-Smith,et al.  Pathways to zoonotic spillover , 2017, Nature Reviews Microbiology.

[10]  H. Field,et al.  “Why won’t they just vaccinate?” Horse owner risk perception and uptake of the Hendra virus vaccine , 2017, BMC Veterinary Research.

[11]  R. Lamb,et al.  Taxonomy of the order Mononegavirales: update 2016 , 2016, Archives of Virology.

[12]  P. Daszak,et al.  Nipah Virus Transmission from Bats to Humans Associated with Drinking Traditional Liquor Made from Date Palm Sap, Bangladesh, 2011–2014 , 2016, Emerging infectious diseases.

[13]  Budsabong Kanchanasaka,et al.  Molecular characterization of Nipah virus from Pteropus hypomelanus in Southern Thailand , 2016, Virology Journal.

[14]  A. Read,et al.  Hendra Virus Infection in Dog, Australia, 2013 , 2015, Emerging infectious diseases.

[15]  J. Umoh,et al.  Serological Evidence of Henipavirus among Horses and Pigs in Zaria and Environs in Kaduna State, Nigeria , 2015 .

[16]  C. D. de Jong,et al.  Routes of Hendra Virus Excretion in Naturally-Infected Flying-Foxes: Implications for Viral Transmission and Spillover Risk , 2015, PloS one.

[17]  Thomas Esch,et al.  Pronounced Seasonal Changes in the Movement Ecology of a Highly Gregarious Central-Place Forager, the African Straw-Coloured Fruit Bat (Eidolon helvum) , 2015, PloS one.

[18]  Debra J van den Berg,et al.  Outbreak-related Hendra virus infection in a NSW pet dog. , 2015, Public health research & practice.

[19]  A. Zeltiña,et al.  Molecular recognition of human ephrinB2 cell surface receptor by an emergent African henipavirus , 2015, Proceedings of the National Academy of Sciences.

[20]  J. Sejvar,et al.  Outbreak of Henipavirus Infection, Philippines, 2014 , 2015, Emerging infectious diseases.

[21]  Dale L. Anderson,et al.  Ecological dynamics of emerging bat virus spillover , 2015, Proceedings of the Royal Society B: Biological Sciences.

[22]  P. Daszak,et al.  Evidence for henipavirus spillover into human populations in Africa , 2014, Nature Communications.

[23]  G. Crameri,et al.  Emerging zoonotic viral diseases. , 2014, Revue scientifique et technique.

[24]  Q. Jin,et al.  Novel Henipa-like Virus, Mojiang Paramyxovirus, in Rats, China, 2012 , 2014, Emerging infectious diseases.

[25]  P. Freeman,et al.  Clinical review of Hendra virus infection in 11 horses in New South Wales, Australia. , 2014, Australian veterinary journal.

[26]  C. Broder,et al.  Henipavirus microsphere immuno-assays for detection of antibodies against Hendra virus. , 2014, Journal of virological methods.

[27]  C. Broder,et al.  Hendra Virus Vaccine, a One Health Approach to Protecting Horse, Human, and Environmental Health , 2014, Emerging infectious diseases.

[28]  A. Takada,et al.  Molecular Epidemiology of Paramyxoviruses in Frugivorous Eidolon helvum Bats in Zambia , 2013, The Journal of veterinary medical science.

[29]  H. Field,et al.  Nipah Virus in the Fruit Bat Pteropus vampyrus in Sumatera, Indonesia , 2013, PloS one.

[30]  A. Breed,et al.  The Distribution of Henipaviruses in Southeast Asia and Australasia: Is Wallace’s Line a Barrier to Nipah Virus? , 2013, PloS one.

[31]  C. D. de Jong,et al.  Henipaviruses and Fruit Bats, Papua New Guinea , 2013, Emerging infectious diseases.

[32]  P. Daszak,et al.  Human ecology in pathogenic landscapes: two hypotheses on how land use change drives viral emergence. , 2013, Current opinion in virology.

[33]  Md. Mahmudur Rahman,et al.  Nipah Virus Infection Outbreak with Nosocomial and Corpse-to-Human Transmission, Bangladesh , 2013, Emerging infectious diseases.

[34]  G. Ossa,et al.  The Movement Ecology of the Straw-Colored Fruit Bat, Eidolon helvum, in Sub-Saharan Africa Assessed by Stable Isotope Ratios , 2012, PloS one.

[35]  S. Nichol,et al.  Detection of Nipah virus RNA in fruit bat (Pteropus giganteus) from India. , 2012, The American journal of tropical medicine and hygiene.

[36]  B. S. Schneider,et al.  Henipavirus-related Sequences in Fruit Bat Bushmeat, Republic of Congo , 2012, Emerging infectious diseases.

[37]  Mahmudur Rahman,et al.  Nipah virus outbreaks in Bangladesh: a deadly infectious disease , 2012, WHO South-East Asia journal of public health.

[38]  S. Inoue,et al.  Serologic Evidence of Nipah Virus Infection in Bats, Vietnam , 2012, Emerging infectious diseases.

[39]  C. Broder,et al.  Ephrin-B2 and ephrin-B3 as functional henipavirus receptors. , 2012, Seminars in cell & developmental biology.

[40]  C. Broder,et al.  Henipavirus Neutralising Antibodies in an Isolated Island Population of African Fruit Bats , 2012, PloS one.

[41]  M. Knörnschild,et al.  Bats host major mammalian paramyxoviruses , 2012, Nature Communications.

[42]  C. D. de Jong,et al.  Hendra Virus Infection Dynamics in Australian Fruit Bats , 2011, PloS one.

[43]  J. Epstein,et al.  Pteropid bats are confirmed as the reservoir hosts of henipaviruses: a comprehensive experimental study of virus transmission. , 2011, The American journal of tropical medicine and hygiene.

[44]  C. D. de Jong,et al.  Identifying Hendra Virus Diversity in Pteropid Bats , 2011, PloS one.

[45]  C. Broder,et al.  Antibodies to Henipavirus or Henipa-Like Viruses in Domestic Pigs in Ghana, West Africa , 2011, PloS one.

[46]  A. Breed,et al.  Screening for Nipah Virus Infection in West Kalimantan Province, Indonesia , 2010, Zoonoses and public health.

[47]  H. Field,et al.  Genome Sequence Conservation of Hendra Virus Isolates during Spillover to Horses, Australia , 2010, Emerging infectious diseases.

[48]  Hiroki Sato,et al.  The Nonstructural Proteins of Nipah Virus Play a Key Role in Pathogenicity in Experimentally Infected Animals , 2010, PloS one.

[49]  James O. Lloyd-Smith,et al.  Epidemic Dynamics at the Human-Animal Interface , 2009, Science.

[50]  Mary E. Wilson,et al.  Transmission of human infection with Nipah virus. , 2009, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[51]  E. Kalko,et al.  Henipavirus RNA in African Bats , 2009, PloS one.

[52]  J. Mills,et al.  Nipah Virus Infection in Dogs, Malaysia, 1999 , 2009, Emerging infectious diseases.

[53]  C. Broder,et al.  Antibodies to Nipah or Nipah-like Viruses in Bats, China , 2008, Emerging infectious diseases.

[54]  A. Breed,et al.  Evidence of Henipavirus Infection in West African Fruit Bats , 2008, PloS one.

[55]  Graeme S. Cumming,et al.  First application of satellite telemetry to track African straw‐coloured fruit bat migration , 2008 .

[56]  L. Bertolini,et al.  Prevalence of Nonalcoholic Fatty Liver Disease and Its Association With Cardiovascular Disease Among Type 2 Diabetic Patients , 2007, Diabetes Care.

[57]  Stephen P. Luby,et al.  Person-to-Person Transmission of Nipah Virus in a Bangladeshi Community , 2007, Emerging infectious diseases.

[58]  M. Georges-Courbot,et al.  Henipavirus and Tioman Virus Antibodies in Pteropodid Bats, Madagascar , 2007, Emerging infectious diseases.

[59]  Stephen P. Luby,et al.  Foodborne Transmission of Nipah Virus, Bangladesh , 2006, Emerging infectious diseases.

[60]  P. Daszak,et al.  Bushmeat Hunting, Deforestation, and Prediction of Zoonotic Disease , 2005, Emerging infectious diseases.

[61]  Supaporn Wacharapluesadee,et al.  Bat Nipah Virus, Thailand , 2005, Emerging infectious diseases.

[62]  W. Bellini,et al.  Nipah virus: An emergent paramyxovirus causing severe encephalitis in humans , 2005, Journal of NeuroVirology.

[63]  J. A. Comer,et al.  Genetic Characterization of Nipah Virus, Bangladesh, 2004 , 2005, Emerging infectious diseases.

[64]  Lin-Fa Wang,et al.  Ephrin-B2 ligand is a functional receptor for Hendra virus and Nipah virus. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[65]  Oscar A. Negrete,et al.  EphrinB2 is the entry receptor for Nipah virus, an emergent deadly paramyxovirus , 2005, Nature.

[66]  Sophie Molia,et al.  Nipah Virus in Lyle's Flying Foxes, Cambodia , 2005, Emerging infectious diseases.

[67]  J. McCormack Hendra and Nipah viruses: new zoonotically-acquired human pathogens. , 2005, Respiratory care clinics of North America.

[68]  Anthony J McMichael,et al.  Social and environmental risk factors in the emergence of infectious diseases , 2004, Nature Medicine.

[69]  K. Yusoff,et al.  Isolation and Molecular Identification of Nipah Virus from Pigs , 2004, Emerging infectious diseases.

[70]  C. Rupprecht,et al.  Antibodies to Nipah-Like Virus in Bats (Pteropus lylei), Cambodia , 2002, Emerging infectious diseases.

[71]  W. Bellini,et al.  Functional properties of the fusion and attachment glycoproteins of Nipah virus. , 2002, Virology.

[72]  H. Field,et al.  Nipah virus infection in bats (order Chiroptera) in peninsular Malaysia. , 2001, Emerging infectious diseases.

[73]  M. Enserink Malaysian Researchers Trace Nipah Virus Outbreak to Bats , 2000, Science.

[74]  W. Bellini,et al.  Molecular characterization of Nipah virus, a newly emergent paramyxovirus. , 2000, Virology.

[75]  H. Field,et al.  Nipah virus: a recently emergent deadly paramyxovirus. , 2000, Science.

[76]  A. Mounts,et al.  Case-control study of risk factors for human infection with a new zoonotic paramyxovirus, Nipah virus, during a 1998-1999 outbreak of severe encephalitis in Malaysia. , 2000, The Journal of infectious diseases.

[77]  K. Goh,et al.  Risk factors for Nipah virus infection among abattoir workers in Singapore. , 2000, The Journal of infectious diseases.

[78]  J. McCormack,et al.  Infection of humans and horses by a newly described morbillivirus , 1995, The Medical journal of Australia.

[79]  A. Gould,et al.  A morbillivirus that caused fatal disease in horses and humans. , 1995, Science.

[80]  R. Nowak Cause of fatal outbreak in horses and humans traced. , 1995, Science.

[81]  C. D. de Jong,et al.  Isolation of multiple novel paramyxoviruses from pteropid bat urine. , 2015, The Journal of general virology.

[82]  C. Broder,et al.  Hendra and Nipah viruses: different and dangerous , 2006, Nature Reviews Microbiology.

[83]  K. Chua,et al.  The presence of Nipah virus in respiratory secretions and urine of patients during an outbreak of Nipah virus encephalitis in Malaysia. , 2001, The Journal of infection.

[84]  H. Field,et al.  Serologic evidence for the presence in Pteropus bats of a paramyxovirus related to equine morbillivirus. , 1996, Emerging infectious diseases.

[85]  A. Hyatt,et al.  A novel morbillivirus pneumonia of horses and its transmission to humans. , 1995, Emerging infectious diseases.