Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.

Progress in combatting zoonoses that emerge from wildlife is often constrained by limited knowledge of the biology of pathogens within reservoir hosts. We focus on the host-pathogen dynamics of four emerging viruses associated with bats: Hendra, Nipah, Ebola, and Marburg viruses. Spillover of bat in...

Full description

Bibliographic Details
Main Authors: Raina K Plowright, Alison J Peel, Daniel G Streicker, Amy T Gilbert, Hamish McCallum, James Wood, Michelle L Baker, Olivier Restif
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-08-01
Series:PLoS Neglected Tropical Diseases
Online Access:http://europepmc.org/articles/PMC4973921?pdf=render
id doaj-4c9f9dd0be104782a819873c7f5038a3
record_format Article
spelling doaj-4c9f9dd0be104782a819873c7f5038a32020-11-25T00:59:04ZengPublic Library of Science (PLoS)PLoS Neglected Tropical Diseases1935-27271935-27352016-08-01108e000479610.1371/journal.pntd.0004796Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.Raina K PlowrightAlison J PeelDaniel G StreickerAmy T GilbertHamish McCallumJames WoodMichelle L BakerOlivier RestifProgress in combatting zoonoses that emerge from wildlife is often constrained by limited knowledge of the biology of pathogens within reservoir hosts. We focus on the host-pathogen dynamics of four emerging viruses associated with bats: Hendra, Nipah, Ebola, and Marburg viruses. Spillover of bat infections to humans and domestic animals often coincides with pulses of viral excretion within bat populations, but the mechanisms driving such pulses are unclear. Three hypotheses dominate current research on these emerging bat infections. First, pulses of viral excretion could reflect seasonal epidemic cycles driven by natural variations in population densities and contact rates among hosts. If lifelong immunity follows recovery, viruses may disappear locally but persist globally through migration; in either case, new outbreaks occur once births replenish the susceptible pool. Second, epidemic cycles could be the result of waning immunity within bats, allowing local circulation of viruses through oscillating herd immunity. Third, pulses could be generated by episodic shedding from persistently infected bats through a combination of physiological and ecological factors. The three scenarios can yield similar patterns in epidemiological surveys, but strategies to predict or manage spillover risk resulting from each scenario will be different. We outline an agenda for research on viruses emerging from bats that would allow for differentiation among the scenarios and inform development of evidence-based interventions to limit threats to human and animal health. These concepts and methods are applicable to a wide range of pathogens that affect humans, domestic animals, and wildlife.http://europepmc.org/articles/PMC4973921?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Raina K Plowright
Alison J Peel
Daniel G Streicker
Amy T Gilbert
Hamish McCallum
James Wood
Michelle L Baker
Olivier Restif
spellingShingle Raina K Plowright
Alison J Peel
Daniel G Streicker
Amy T Gilbert
Hamish McCallum
James Wood
Michelle L Baker
Olivier Restif
Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.
PLoS Neglected Tropical Diseases
author_facet Raina K Plowright
Alison J Peel
Daniel G Streicker
Amy T Gilbert
Hamish McCallum
James Wood
Michelle L Baker
Olivier Restif
author_sort Raina K Plowright
title Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.
title_short Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.
title_full Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.
title_fullStr Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.
title_full_unstemmed Transmission or Within-Host Dynamics Driving Pulses of Zoonotic Viruses in Reservoir-Host Populations.
title_sort transmission or within-host dynamics driving pulses of zoonotic viruses in reservoir-host populations.
publisher Public Library of Science (PLoS)
series PLoS Neglected Tropical Diseases
issn 1935-2727
1935-2735
publishDate 2016-08-01
description Progress in combatting zoonoses that emerge from wildlife is often constrained by limited knowledge of the biology of pathogens within reservoir hosts. We focus on the host-pathogen dynamics of four emerging viruses associated with bats: Hendra, Nipah, Ebola, and Marburg viruses. Spillover of bat infections to humans and domestic animals often coincides with pulses of viral excretion within bat populations, but the mechanisms driving such pulses are unclear. Three hypotheses dominate current research on these emerging bat infections. First, pulses of viral excretion could reflect seasonal epidemic cycles driven by natural variations in population densities and contact rates among hosts. If lifelong immunity follows recovery, viruses may disappear locally but persist globally through migration; in either case, new outbreaks occur once births replenish the susceptible pool. Second, epidemic cycles could be the result of waning immunity within bats, allowing local circulation of viruses through oscillating herd immunity. Third, pulses could be generated by episodic shedding from persistently infected bats through a combination of physiological and ecological factors. The three scenarios can yield similar patterns in epidemiological surveys, but strategies to predict or manage spillover risk resulting from each scenario will be different. We outline an agenda for research on viruses emerging from bats that would allow for differentiation among the scenarios and inform development of evidence-based interventions to limit threats to human and animal health. These concepts and methods are applicable to a wide range of pathogens that affect humans, domestic animals, and wildlife.
url http://europepmc.org/articles/PMC4973921?pdf=render
work_keys_str_mv AT rainakplowright transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT alisonjpeel transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT danielgstreicker transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT amytgilbert transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT hamishmccallum transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT jameswood transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT michellelbaker transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
AT olivierrestif transmissionorwithinhostdynamicsdrivingpulsesofzoonoticvirusesinreservoirhostpopulations
_version_ 1725218987134943232