Amphibians acquire resistance to live and dead fungus overcoming fungal immunosuppression

McMahon, Taegan A.; Sears, Brittany F.; Venesky, Matthew D.; Bessler, Scott; Brown, Jenise M.; Deutsch, Kaitlin R.; Halstead, Neal T.; Lentz, Garrett; Tenouri, Nadia; Young, S. M. M.; Civitello, David J.; Ortega, Nicole; Fites, J. Scott; Reinert, Laura K.; Rollins‐Smith, Louise A.; Raffel, Thomas R.; Rohr, Jason R.

doi:10.1038/nature13491

Cited by 194 publications

(205 citation statements)

References 30 publications

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“…The relatively thick epidermis of this species, which allows for rapid skin sloughing and thus shedding of epidermal Bd infection, may contribute to resistance (Greenspan et al 2012a, b). In addition, the complete lack of infection following our second exposure with SL Bd might be partially attributable to primed host defenses that conferred effective resistance to these individuals, all of which had been previously exposed to Bd (Shaw et al 2010;McMahon et al 2014). However, the lack of clinical signs of chytridiomycosis in the American bullfrogs that did become infected indicates tolerance mechanisms also play a role in bullfrogBd interactions, as previous work has suggested (Hanselmann et al 2004;Greenspan et al 2012b).…”

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confidence: 38%

“…The distinction between infection resistance and tolerance is rarely made with respect to Bd infection in amphibians , but see Savage and Zamudio 2011;Reeder et al 2012;Gervasi et al 2013b;McMahon et al 2014), yet these host defense mechanisms have profoundly different implications for disease risk within the broader amphibian community. If American bullfrogs commonly clear themselves of Bd infection or avoid infection altogether as a result of resistance mechanisms, then bullfrogs are less likely to be important Bd carriers as is often suggested (Mazzoni et al 2003;Daszak et al 2004;Hanselmann et al 2004;Garner et al 2006;Schloegel et al 2010).…”

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confidence: 99%

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American Bullfrogs (Lithobates catesbeianus) Resist Infection by Multiple Isolates of Batrachochytrium dendrobatidis, Including One Implicated in Wild Mass Mortality

et al. 2015

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The emerging amphibian disease chytridiomycosis varies in severity depending on host species.Within species, disease susceptibility can also be influenced by pathogen variation and environmental factors.Here, we report on experimental exposures of American bullfrogs (Lithobates catesbeianus) to three different isolates of Batrachochytrium dendrobatidis (Bd), including one implicated in causing mass mortality of wild American bullfrogs. Exposed frogs showed low infection prevalence, relatively low infection load, and lack of clinical disease. Our results suggest that environmental cofactors are likely important contributors to Bdassociated American bullfrog mortality and that this species both resists and tolerates Bd infection.

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confidence: 38%

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confidence: 99%

American Bullfrogs (Lithobates catesbeianus) Resist Infection by Multiple Isolates of Batrachochytrium dendrobatidis, Including One Implicated in Wild Mass Mortality

et al. 2015

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“…Second, the lower susceptibility could be the result of an acquired immune response in frogs from persistent populations after their exposure to Bd in the wild, a response that itself could be subject to natural selection. If R. sierrae are, in fact, capable of mounting such a response (as is the case in other anurans) (35,38), frogs from the persistent populations could have had at least partial immunity against Bd before the start of the experiment, and those from naïve populations would not have. A series of experiments is underway to describe adaptive immunity against Bd in R. sierrae.…”

Section: Resultsmentioning

confidence: 99%

Large-scale recovery of an endangered amphibian despite ongoing exposure to multiple stressors

Knapp¹,

Fellers

Kleeman

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

129

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Amphibians are one of the most threatened animal groups, with 32% of species at risk for extinction. Given this imperiled status, is the disappearance of a large fraction of the Earth's amphibians inevitable, or are some declining species more resilient than is generally assumed? We address this question in a species that is emblematic of many declining amphibians, the endangered Sierra Nevada yellowlegged frog (Rana sierrae). Based on >7,000 frog surveys conducted across Yosemite National Park over a 20-y period, we show that, after decades of decline and despite ongoing exposure to multiple stressors, including introduced fish, the recently emerged disease chytridiomycosis, and pesticides, R. sierrae abundance increased sevenfold during the study and at a rate of 11% per year. These increases occurred in hundreds of populations throughout Yosemite, providing a rare example of amphibian recovery at an ecologically relevant spatial scale. Results from a laboratory experiment indicate that these increases may be in part because of reduced frog susceptibility to chytridiomycosis. The disappearance of nonnative fish from numerous water bodies after cessation of stocking also contributed to the recovery. The large-scale increases in R. sierrae abundance that we document suggest that, when habitats are relatively intact and stressors are reduced in their importance by active management or species' adaptive responses, declines of some amphibians may be partially reversible, at least at a regional scale. Other studies conducted over similarly large temporal and spatial scales are critically needed to provide insight and generality about the reversibility of amphibian declines at a global scale.amphibians | recovery | disease | Rana sierrae | Yosemite

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“…This could be because infected frogs were unable to call owing to physiological changes caused by their infections, or because frogs were adaptively adjusting their energy expenditure. For example, they may have been allocating less energy to reproduction and more to other functions required for immediate survival, such as immune responses to fight their infections [46].…”

Section: Discussionmentioning

confidence: 99%

Condition-dependent reproductive effort in frogs infected by a widespread pathogen

et al. 2015

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To minimize the negative effects of an infection on fitness, hosts can respond adaptively by altering their reproductive effort or by adjusting their timing of reproduction. We studied effects of the pathogenic fungus Batrachochytrium dendrobatidis on the probability of calling in a stream-breeding rainforest frog (Litoria rheocola). In uninfected frogs, calling probability was relatively constant across seasons and body conditions, but in infected frogs, calling probability differed among seasons (lowest in winter, highest in summer) and was strongly and positively related to body condition. Infected frogs in poor condition were up to 40% less likely to call than uninfected frogs, whereas infected frogs in good condition were up to 30% more likely to call than uninfected frogs. Our results suggest that frogs employed a pre-existing, plastic, life-history strategy in response to infection, which may have complex evolutionary implications. If infected males in good condition reproduce at rates equal to or greater than those of uninfected males, selection on factors affecting disease susceptibility may be minimal. However, because reproductive effort in infected males is positively related to body condition, there may be selection on mechanisms that limit the negative effects of infections on hosts.

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Amphibians acquire resistance to live and dead fungus overcoming fungal immunosuppression

Cited by 194 publications

References 30 publications

American Bullfrogs (Lithobates catesbeianus) Resist Infection by Multiple Isolates of Batrachochytrium dendrobatidis, Including One Implicated in Wild Mass Mortality

American Bullfrogs (Lithobates catesbeianus) Resist Infection by Multiple Isolates of Batrachochytrium dendrobatidis, Including One Implicated in Wild Mass Mortality

Large-scale recovery of an endangered amphibian despite ongoing exposure to multiple stressors

Condition-dependent reproductive effort in frogs infected by a widespread pathogen

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