S. Joy Worth scite author profile

The symbiotic microbes that grow in and on many organisms can play important roles in protecting their hosts from pathogen infection. While species diversity has been shown to influence community function in many other natural systems, the question of how species diversity of host-associated symbiotic microbes contributes to pathogen resistance is just beginning to be explored. Understanding diversity effects on pathogen resistance could be particularly helpful in combating the fungal pathogen Batrachochytrium dendrobatidis (Bd) which has caused dramatic population declines in many amphibian species and is a major concern for amphibian conservation. Our study investigates the ability of host-associated bacteria to inhibit the proliferation of Bd when grown in experimentally assembled biofilm communities that differ in species number and composition. Six bacterial species isolated from the skin of Cascades frogs (Rana cascadae) were used to assemble bacterial biofilm communities containing 1, 2, 3, or all 6 bacterial species. Biofilm communities were grown with Bd for 7 days following inoculation. More speciose bacterial communities reduced Bd abundance more effectively. This relationship between bacterial species richness and Bd suppression appeared to be driven by dominance effects-the bacterial species that were most effective at inhibiting Bd dominated multi-species communities-and complementarity: multi-species communities inhibited Bd growth more than monocultures of constituent species. These results underscore the notion that pathogen resistance is an emergent property of microbial communities, a consideration that should be taken into account when designing probiotic treatments to reduce the impacts of infectious disease.

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

Piovia‐Scott

Pope²,

Worth

et al. 2014

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The fungal pathogen Batrachochytrium dendrobatidis (Bd) has caused declines and extinctions in amphibians worldwide, and there is increasing evidence that some strains of this pathogen are more virulent than others. While a number of putative virulence factors have been identified, few studies link these factors to specific epizootic events. We documented a dramatic decline in juvenile frogs in a Bd-infected population of Cascades frogs (Rana cascadae) in the mountains of northern California and used a laboratory experiment to show that Bd isolated in the midst of this decline induced higher mortality than Bd isolated from a more stable population of the same species of frog. This highly virulent Bd isolate was more toxic to immune cells and attained higher density in liquid culture than comparable isolates. Genomic analyses revealed that this isolate is nested within the global panzootic lineage and exhibited unusual genomic patterns, including increased copy numbers of many chromosomal segments. This study integrates data from multiple sources to suggest specific phenotypic and genomic characteristics of the pathogen that may be linked to disease-related declines.

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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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Feline Infectious Peritonitis in a Mountain Lion (Puma concolor), California, USA

Stephenson¹,

Swift

Moeller³

et al. 2013

Journal of Wildlife Diseases

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ABSTRACT:Feline infectious peritonitis (FIP) is a fatal immune-mediated vasculitis of felids caused by a mutant form of a common feline enteric virus, feline enteric coronavirus. The virus can attack many organ systems and causes a broad range of signs, commonly including weight loss and fever. Regardless of presentation, FIP is ultimately fatal and often presents a diagnostic challenge. In May 2010, a malnourished young adult male mountain lion (Puma concolor) from Kern County, California, USA was euthanized because of concern for public safety, and a postmortem examination was performed. Gross necropsy and histopathologic examination revealed necrotizing, multifocal myocarditis; necrotizing, neutrophilic, and histiocytic myositis and vasculitis of the tunica muscularis layer of the small and large intestines; and embolic, multifocal, interstitial pneumonia. Feline coronavirus antigen was detected in both the heart and intestinal tissue by immunohistochemistry. A PCR for coronavirus performed on kidney tissue was positive, confirming a diagnosis of FIP. Although coronavirus infection has been documented in mountain lions by serology, this is the first confirmed report of FIP.

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Development and Validation of a Fecal PCR Assay for Notoedres Cati and Application to Notoedric Mange Cases in Bobcats (Lynx Rufus) in Northern California, Usa

Stephenson

Clifford

Worth

et al. 2013

Journal of Wildlife Diseases

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ABSTRACT:Notoedric mange in felids is a devastating disease caused by a hypersensitivity reaction to the mite Notoedres cati. The burrowing of the mite causes intense pruritis resulting in self-mutilation, secondary bacterial infection, and often death of affected felids if left untreated. Our understanding of how notoedric mange is maintained in felid populations, and the true geographic extent of infestations, has been hampered because wild felids are elusive and, thus, traditional diagnostic methods are difficult to implement. To create a noninvasive diagnostic test, we developed and validated a novel PCR assay to detect N. cati DNA in fecal samples of bobcats (Lynx rufus) and used this assay to investigate a recent outbreak of mange in northern California, United States. Although the fecal PCR assay was 100% specific and could detect as few as 1.9 mites/200 mg of feces, it had a moderate sensitivity of 52.6%, potentially due to intermittent shedding of mites in feces or fecal PCR inhibitors. In a field investigation, 12% (95% confidence interval [CI]: 0.06, 0.23) of fecal samples (n565) collected from Rancho San Antonia County Park and Open Space Preserve in Santa Clara County, California were PCR-positive for N. cati. When this estimate was adjusted for test sensitivity, the corrected proportion for fecal samples containing N. cati was 23% (95% CI: 0.14, 0.36), suggesting widespread mange in this area. This novel PCR assay will be an important tool to assess the distribution and spread of notoedric mange in bobcats and could be validated to test other wild felids such as mountain lions (Puma concolor). The assay could also be used to detect notoedric mange in domestic cats (Felis catus), particularly feral cats, which may also suffer from mange and could represent an important contributor to mange in periurban bobcat populations.

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S. Joy Worth

Greater Species Richness of Bacterial Skin Symbionts Better Suppresses the Amphibian Fungal Pathogen Batrachochytrium Dendrobatidis

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

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

Feline Infectious Peritonitis in a Mountain Lion (Puma concolor), California, USA

Development and Validation of a Fecal PCR Assay for Notoedres Cati and Application to Notoedric Mange Cases in Bobcats (Lynx Rufus) in Northern California, Usa

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