What Does Tolerance Mean for Animal Disease Dynamics When Pathology Enhances Transmission?

Host competence, or how well an individual transmits pathogens, varies substantially within and among animal populations. As this variation can alter the course of epidemics and epizootics, revealing its underlying causes will help predict and control the spread of disease. One host trait that could...

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Published in:Integrative and comparative biology 2019-11, Vol.59 (5), p.1220-1230
Main Authors: Henschen, Amberleigh E., Adelman, James S.
Format: Article
Language:English
Subjects:
Animals
Anopheles - parasitology
Finches
Host-Parasite Interactions
Host-Pathogen Interactions
Influenza in Birds - pathology
Influenza in Birds - transmission
Influenza in Birds - virology
Malaria - parasitology
Malaria - pathology
Malaria - transmission
Malaria - veterinary
Mycoplasma gallisepticum - physiology
Mycoplasma Infections - microbiology
Mycoplasma Infections - pathology
Mycoplasma Infections - transmission
Mycoplasma Infections - veterinary
Orthomyxoviridae - physiology
Plasmodium - physiology
S2 The scale of sickness: how immune variation across space and species affects infectious disease dynamics
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Summary:Host competence, or how well an individual transmits pathogens, varies substantially within and among animal populations. As this variation can alter the course of epidemics and epizootics, revealing its underlying causes will help predict and control the spread of disease. One host trait that could drive heterogeneity in competence is host tolerance, which minimizes fitness losses during infection without decreasing pathogen load. In many cases, tolerance should increase competence by extending infectious periods and enabling behaviors that facilitate contact among hosts. However, we argue that the links between tolerance and competence are more varied. Specifically, the different physiological and behavioral mechanisms by which hosts achieve tolerance should have a range of effects on competence, enhancing the ability to transmit pathogens in some circumstances and impeding it in others. Because tissue-based pathology (damage) that reduces host fitness is often critical for pathogen transmission, we focus on two mechanisms that can underlie tolerance at the tissue level: damage-avoidance and damage-repair. As damage-avoidance reduces transmission-enhancing pathology, this mechanism is likely to decrease host competence and pathogen transmission. In contrast, damage-repair does not prevent transmission-relevant pathology from occurring. Rather, damage-repair provides new, healthy tissues that pathogens can exploit, likely extending the infectious period and increasing host competence. We explore these concepts through graphical models and present three disease systems in which damage-avoidance and damage-repair alter host competence in the predicted directions. Finally, we suggest that by incorporating these links, future theoretical studies could provide new insights into infectious disease dynamics and host–pathogen coevolution.
ISSN:1540-7063
1557-7023
DOI:10.1093/icb/icz065