Abstract
Determining the mechanisms of host-pathogen interaction is critical for understanding and mitigating infectious disease. Mechanisms of fungal pathogenicity are of particular interest given the recent outbreaks of fungal diseases in wildlife populations. Our study focuses on Batrachochytrium dendrobatidis (Bd), the chytrid pathogen responsible for amphibian declines around the world. Previous studies have hypothesized a role for several specific families of secreted proteases as pathogenicity factors in Bd, but the expression of these genes has only been evaluated in laboratory growth conditions. Here we conduct a genome-wide study of Bd gene expression under two different nutrient conditions. We compare Bd gene expression profiles in standard laboratory growth media and in pulverized host tissue (i.e., frog skin). A large proportion of genes in the Bd genome show increased expression when grown in host tissue, indicating the importance of studying pathogens on host substrate. A number of gene classes show particularly high levels of expression in host tissue, including three families of secreted proteases (metallo-, serine- and aspartyl-proteases), adhesion genes, lipase-3 encoding genes, and a group of phylogenetically unusual crinkler-like effectors. We discuss the roles of these different genes as putative pathogenicity factors and discuss what they can teach us about Bd’s metabolic targets, host invasion, and pathogenesis.
Highlights
Elucidating the specific mechanisms that pathogens employ to attack their hosts is critical for understanding disease dynamics and pathogen evolution
Gene Ontology (GO) terms significantly overrepresented in the gene set with increased expression in frog skin were ‘‘proteolysis’’ (p = 0.02), and ‘‘aspartic-type endopeptidase activity’’ (p = 0.007)
The results for the Batrachochytrium dendrobatidis (Bd)-specific Gene set enrichment analyses (GSEA) were concordant with the results from the full gene set (Table 1) with significant enrichment for proteolysis (p = 0.025), and ‘‘aspartic-type endopeptidase activity’’ (p = 0.025) in the gene set with increased expression in frog skin
Summary
Elucidating the specific mechanisms that pathogens employ to attack their hosts is critical for understanding disease dynamics and pathogen evolution Pathogens can impact their hosts on many levels, from disrupting organismal physiology to altering specific cellular processes. Pathogens interact with their hosts at the molecular level by secreting and/or presenting proteins that are involved in processes such as host entry, toxicity, immune evasion, and resource acquisition (e.g., [1,2,3,4,5]). The mechanisms of interaction between many deadly pathogens and their hosts remain elusive, for emerging pathogens of vertebrates in the wild
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