Advances in understanding bat infection dynamics across biological scales

Sánchez, Cecilia A.; Phelps, Kendra L.; Frank, Hannah K.; Geldenhuys, Marike; Griffiths, Megan E.; Jones, Devin N.; Kettenburg, Gwenddolen; Lunn, Tamika J.; Moreno, Kelsey R.; Mortlock, Marinda; Vicente-Santos, Amanda; Víquez-R, Luis R.; Kading, Rebekah C.; Markotter, Wanda; Reeder, DeeAnn M.; Olival, Kevin J.

doi:10.1098/rspb.2023.2823

Proc. R. Soc. B.

2024

DOI: 10.1098/rspb.2023.2823

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Advances in understanding bat infection dynamics across biological scales

Cecilia A. Sánchez,

Kendra L. Phelps,

Hannah K. Frank

et al.

Abstract: Over the past two decades, research on bat-associated microbes such as viruses, bacteria and fungi has dramatically increased. Here, we synthesize themes from a conference symposium focused on advances in the research of bats and their microbes, including physiological, immunological, ecological and epidemiological research that has improved our understanding of bat infection dynamics at multiple biological scales. We first present metrics for measuring individual bat responses to infection and challenges asso… Show more

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Role of individual and population heterogeneity in shaping dynamics of multi-pathogen excretion in an island endemic bat

Aguillon,

Turpin,

Le Minter

et al. 2024

Preprint

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Understanding processes driving pathogen transmission in bats is critical to prevent spillovers and emergence events. However, it requires fine-scale ecological investigations, which are rare because of the complexity and heterogeneity of bat populations. Here, based on the monitoring of 5,949 Reunion free-tailed bats (Mormopterus francoismoutoui) in 17 roosts over 24 months, we studied the simultaneous excretion of paramyxovirus andLeptospirabacteria in urine, and herpesvirus in saliva. We analysed the influence of individual and roost-level factors on co-excretion dynamics. We evidenced all year long excretion with high prevalence (37% - 87%), with low levels of temporal synchrony among roosts and no signal of density- dependent transmission. Recapture data support persistent infections for all infectious agents, alongside with clearance followed by reinfection for paramyxovirus andLeptospira. Our results suggest that sex-specific social behaviour or physiological adaptations drive herpesvirus excretion, while paramyxovirus andLeptospiraexcretion reactivate during reproduction. Our data also suggest the protection of juveniles by maternal antibodies, but different waning dynamics, much shorter for HSV infection, that could lead to a pathogen-dependent role of juveniles in the spread of infection. Interestingly, the excretion of one infectious agent was positively correlated to the excretion of a second one. However, the probability of excreting a third one was reduced for individuals already bi-excreting, suggesting negative interactions for cumulative infections. Connecting such spatio-temporal data with ecosystem alterations in Reunion Island could further contribute to our understanding of the links between human-mediated changes in the ecology of bats and infectious diseases emergence processes.Significance StatementUnderstanding risks of bat-borne pathogen spillover is challenging because of the difficulty in studying excretion dynamics in wild bat populations. Here, we used an original island-endemic model to build up a fine-scale spatio-temporal analysis of the excretion of two viruses (paramyxovirus and herpesvirus) and a bacterium (Leptospira) at both population- (roost) and individual- (through recaptured bats) levels. Excretion patterns are specific to each infectious agent and driven by the age and the reproduction of both females and males. Results also suggest that a combination of viral persistence and clearance, as well as interactions between infectious agents, are important within-host processes that contribute to the transmission of infections in bat populations. This information is crucial to better predict shedding pulses and prevent potential future spillovers.

show abstract

Role of individual and population heterogeneity in shaping dynamics of multi-pathogen excretion in an island endemic bat

Aguillon,

Turpin,

Le Minter

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Advances in understanding bat infection dynamics across biological scales

Cited by 1 publication

References 153 publications

Role of individual and population heterogeneity in shaping dynamics of multi-pathogen excretion in an island endemic bat

Role of individual and population heterogeneity in shaping dynamics of multi-pathogen excretion in an island endemic bat

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