Correlates of virulence in a frog-killing fungal pathogen: evidence from a California amphibian decline

Piovia‐Scott, Jonah; Pope, Karen L.; Worth, S. Joy; Rosenblum, Erica Bree; Poorten, Thomas J.; Refsnider, Jeanine M.; Rollins‐Smith, Louise A.; Reinert, Laura K.; Wells, Heather L.; Rejmanek, Dan; Lawler, Sharon P.; Foley, Janet E.

doi:10.1038/ismej.2014.241

Cited by 50 publications

(66 citation statements)

References 45 publications

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“…Lower disease risk in vertebrates has been associated with different characteristics of the microbiome, such as high bacterial species richness (6)(7)(8), specific microbial community assemblages (2,7,9,10), and the presence of microbes that produce metabolites that inhibit growth of pathogens (1,11,12). For amphibians, inter-and intraspecies-specific variations in the skin microbiome (13)(14)(15) may contribute to variation in responses to infection by the deadly fungal pathogen Batrachochytrium dendrobatidis (16,17). Yet we know little about how microbial diversity differs among amphibian host species and environments and how this relates to B. dendrobatidis-associated disease risk.…”

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Antifungal Bacteria on Woodland Salamander Skin Exhibit High Taxonomic Diversity and Geographic Variability

Muletz‐Wolz

DiRenzo

Yarwood³

et al. 2017

Appl Environ Microbiol

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Diverse bacteria inhabit amphibian skin; some of those bacteria inhibit growth of the fungal pathogen Batrachochytrium dendrobatidis. Yet there has been no systematic survey of anti-B. dendrobatidis bacteria across localities, species, and elevations. This is important given geographic and taxonomic variations in amphibian susceptibility to B. dendrobatidis. Our collection sites were at locations within the Appalachian Mountains where previous sampling had indicated low B. dendrobatidis prevalence. We determined the numbers and identities of anti-B. dendrobatidis bacteria on 61 Plethodon salamanders (37 P. cinereus, 15 P. glutinosus, 9 P. cylindraceus) via culturing methods and 16S rRNA gene sequencing. We sampled co-occurring species at three localities and sampled P. cinereus along an elevational gradient (700 to 1,000 meters above sea level [masl]) at one locality. We identified 50 anti-B. dendrobatidis bacterial operational taxonomic units (OTUs) and found that the degree of B. dendrobatidis inhibition was not correlated with relatedness. Five anti-B. dendrobatidis bacterial strains occurred on multiple amphibian species at multiple localities, but none were shared among all species and localities. The prevalence of anti-B. dendrobatidis bacteria was higher at Shenandoah National Park (NP), VA, with 96% (25/26) of salamanders hosting at least one anti-B. dendrobatidis bacterial species compared to 50% (7/14) at Catoctin Mountain Park (MP), MD, and 38% (8/21) at Mt. Rogers National Recreation Area (NRA), VA. At the individual level, salamanders at Shenandoah NP had more anti-B. dendrobatidis bacteria per individual ( ϭ 3.3) than those at Catoctin MP ( ϭ 0.8) and at Mt. Rogers NRA ( ϭ 0.4). All salamanders tested negative for B. dendrobatidis. Anti-B. dendrobatidis bacterial species are diverse in central Appalachian Plethodon salamanders, and their distribution varied geographically. The antifungal bacterial species that we identified may play a protective role for these salamanders.IMPORTANCE Amphibians harbor skin bacteria that can kill an amphibian fungal pathogen, Batrachochytrium dendrobatidis. Some amphibians die from B. dendrobatidis infection, whereas others do not. The bacteria that can kill B. dendrobatidis, called anti-B. dendrobatidis bacteria, are thought to influence the B. dendrobatidis infection outcome for the amphibian. Yet how anti-B. dendrobatidis bacterial species vary among amphibian species and populations is unknown. We determined the distribution of anti-B. dendrobatidis bacterial species among three salamander species (n ϭ 61) sampled at three localities. We identified 50 unique anti-B. dendrobatidis bacterial species and found that all of the tested salamanders were negative for B. dendrobatidis. Five anti-B. dendrobatidis bacterial species were commonly detected, suggesting a stable, functional association with these salamanders. The number of

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confidence: 99%

Antifungal Bacteria on Woodland Salamander Skin Exhibit High Taxonomic Diversity and Geographic Variability

Muletz‐Wolz

DiRenzo

Yarwood³

et al. 2017

Appl Environ Microbiol

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“…FL Bd was originally isolated from dead, naturally infected American bullfrogs from the mass mortality event at Finley Lake (Clifford et al 2012). CM Bd was cultured from Rana cascadae at Lassen National Forest in the southern Cascades mountains and was included here for comparison to FL Bd because CM Bd appears to have only moderate virulence (Piovia-Scott et al 2014). Although all Bd isolates used in this study were collected in 2011, samples were cryopreserved and revived just prior to our exposure treatments and thus had relatively low passage numbers (10-15).…”

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“…Just before the first Bd exposure and approximately weekly thereafter, we swabbed frogs for Bd infection as previously described in Piovia-Scott et al (2014). We monitored animals daily, and any frogs lacking a righting reflex or that had other health issues (e.g., untreatable lesions incidental to husbandry) were humanely euthanized via overdose of MS-222.…”

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“…We monitored animals daily, and any frogs lacking a righting reflex or that had other health issues (e.g., untreatable lesions incidental to husbandry) were humanely euthanized via overdose of MS-222. Zoospore loads were calculated from quantitative PCR results as in Piovia-Scott et al (2014) except that samples were run in duplicate. Swab samples were only considered positive when both sample runs indicated Bd presence, and infection load was calculated by averaging results from the two positive wells (all raw qPCR data are available as Supplemental Material).…”

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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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“…However, optimal growth in the amphibian host is likely dependent on the thermal performance curves , and varying responses to temperature variability , of both the parasite and its host. Furthermore, virulence of Bd can vary with the strain Farrer et al 2011), and has been linked to that strain's growth rate, production of zoospores, and zoosporangia size in culture (Piovia-Scott et al 2014;Berger et al 2016), and strain phenotype, specifically zoosporangia size, can predict Bd prevalence in a population (Lambertini et al 2016).…”

Section: The Amphibian Chytrid Fungus Batrachochytrium Dendrobatidismentioning

confidence: 99%

Interactions between amphibian skin sloughing and a cutaneous fungal disease: infection progression, immune defence, and phylogenetic patterns

Ohmer¹

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Worldwide, there has been an unprecedented rise in emerging infectious diseases of wildlife, and this has contributed to a widespread biodiversity crisis. Amphibian populations, in particular, are threatened by the fungal pathogen Batrachochytrium dendrobatidis (Bd), which in post-metamorphic animals only infects the skin, and causes the potentially lethal disease chytridiomycosis. Amphibians regularly slough their skin, and in doing so remove many skinassociated microbes. Thus, skin sloughing may play an important role in the pathogenesis of chytridiomycosis. To investigate this association, the influence of Bd infection on amphibian skin sloughing, and the role of sloughing in regulating infection, was examined. Furthermore, to better understand the variation in skin sloughing rates across species and ecological groups, and make inferences about the role of this process in susceptibility to this fungal disease, amphibian skin structure and function was investigated within a phylogenetic context. To determine the relationship between skin sloughing and disease progression (chapter 2), adult green tree frogs (Litoria caerulea) were exposed to an Australian Bd strain, and sloughing rates and infection load were monitored on a naturalistic cycling temperature regime (15 -23˚C).Sloughing rates were determined by filming frogs and infection intensity was monitored before and after sloughing with conventional swabbing and quantitative PCR. Sloughing rate was found to increase with Bd infection load in infected frogs, but sloughing itself did not affect Bd load on the ventral skin surface. Although a faster sloughing rate might be considered advantageous for Bdinfected animals, it does not appear to curb the progression of disease in susceptible species. In fact, sloughing may actually contribute to the loss of physiological homeostasis seen in terminally ill frogs by further inhibiting water and electrolyte transport across the skin.In some species less susceptible to chytridiomycosis, it has been demonstrated that Bd growth remains epibiotic, without penetrating the underlying epidermal layers. Therefore, sloughing may more effectively remove Bd zoospores in less susceptible species (chapter 3). To test this hypothesis, five Australian frog species, Lit. caerulea, Platyplectrum ornatum, Lechriodus fletcheri, Limnodynastes peronii, and Lim. tasmaniensis, were exposed to an Australian Bd strain, and their sloughing rates and infection loads monitored over time. Utilising an improved methodology to remove any artefacts from the swabbing itself, sloughing was found to reduce Bd load on the ventral skin surface, in all five species, despite wide ranging variation in susceptibility to Bd infection and subsequent disease. In less susceptible species, sloughing reduced Bd load up to 100%, leading to infection clearance. However, the drop in Bd load was only temporary in susceptible species, potentially due to the invasive growth of Bd in skin layers underlying the ii stratum corneum in these species. If less suscept...

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Correlates of virulence in a frog-killing fungal pathogen: evidence from a California amphibian decline

Cited by 50 publications

References 45 publications

Antifungal Bacteria on Woodland Salamander Skin Exhibit High Taxonomic Diversity and Geographic Variability

Antifungal Bacteria on Woodland Salamander Skin Exhibit High Taxonomic Diversity and Geographic Variability

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

Interactions between amphibian skin sloughing and a cutaneous fungal disease: infection progression, immune defence, and phylogenetic patterns

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