Fluorescent biomarkers demonstrate prospects for spreadable vaccines to control disease transmission in wild bats

Kevin M. Bakker; Tonie E. Rocke; Jorge E. Osorio; Rachel C. Abbott; Carlos Tello; Jorge Carerra; William Valderrama; Carlos Shiva; Nestor Falcon; Daniel G. Streicker

doi:10.1038/s41559-019-1032-x

Fluorescent biomarkers demonstrate prospects for spreadable vaccines to control disease transmission in wild bats

Nature Ecology and Evotution

By: Kevin M. Bakker, Tonie E. Rocke, Jorge E. Osorio, Rachel C. Abbott, Carlos Tello, Jorge Carerra, William Valderrama, Carlos Shiva, Nestor Falcon, and Daniel G. Streicker

https://doi.org/10.1038/s41559-019-1032-x

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Abstract

Vaccines that autonomously transfer among individuals have been proposed as a strategy to control infectious diseases within inaccessible wildlife populations. However, rates of vaccine spread and epidemiological efficacy in real-world systems remain elusive. Here, we investigate whether topical vaccines that transfer among individuals through social contacts can control vampire bat rabies—a medically and economically important zoonosis in Latin America. Field experiments in three Peruvian bat colonies, which used fluorescent biomarkers as a proxy for the bat-to-bat transfer and ingestion of an oral vaccine, revealed that vaccine transfer would increase population-level immunity up to 2.6 times beyond the same effort using conventional, non-spreadable vaccines. Mathematical models showed that observed levels of vaccine transfer would reduce the probability, size and duration of rabies outbreaks, even at low but realistically achievable levels of vaccine application. Models further predicted that existing vaccines provide substantial advantages over culling bats—the policy currently implemented in North, Central and South America. Linking field studies with biomarkers to mathematical models can inform how spreadable vaccines may combat pathogens of health and conservation concern before costly investments in vaccine design and testing.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Fluorescent biomarkers demonstrate prospects for spreadable vaccines to control disease transmission in wild bats
Series title	Nature Ecology and Evotution
DOI	10.1038/s41559-019-1032-x
Volume	3
Year Published	2019
Language	English
Publisher	Nature Publishing Group
Contributing office(s)	National Wildlife Health Center
Description	8 p.
First page	1697
Last page	1704
Google Analytic Metrics	Metrics page