Variation in global transcriptomic response to Perkinsus marinus infection among eastern oyster families highlights potential mechanisms of disease resistance

Publication date: Available online 3 December 2019Source: Fish & Shellfish ImmunologyAuthor(s): Dina A. Proestou, Mary E. SullivanAbstractDermo disease, caused by the protozoan parasite Perkinsus marinus, negatively impacts wild and cultured Eastern oyster populations, yet our knowledge of the mechanistic bases for parasite pathogenicity and the Eastern oyster's response to it is limited. To better understand host responses to the parasite and identify molecular mechanisms underlying disease-resistance phenotypes, we experimentally challenged two families exhibiting divergent Dermo-resistance phenotypes with the parasite, generated global expression profiles using RNAseq and identified differentially expressed transcripts between control and challenged oysters from each family at multiple time points post-parasite injection. The susceptible and resistant families exhibited strikingly different transcriptomic responses to the parasite over a 28-day time period. The resistant family exhibited a strong, focused, early response to P. marinus infection, where many significantly upregulated transcripts were associated with the biological processes “regulation of proteolysis” and “oxidation-reduction process.” P. marinus virulence factors are mainly comprised of proteases that facilitate parasite invasion and weaken host humoral defenses, thus host upregulation of transcripts associated with negative regulation of proteolysis is consistent with a Dermo-resistant phenotype. I...
Source: Fish and Shellfish Immunology - Category: Biology Source Type: research