High-resolution transcriptomics of bovine purified protein derivative-stimulated peripheral blood from cattle infected withMycobacterium bovisacross an experimental time course

Abstract

AbstractObjectivesImproved bovine tuberculosis (bTB) diagnostics with higher sensitivity and specificity are urgently required. A better understanding of the peripheral blood transcriptional response ofMycobacterium bovis-infected animals after bovine purified protein derivative (PPD-b) stimulation of whole blood—an important component of current bTB diagnostics—will provide new information for development of better diagnostics.MethodsRNA sequencing (RNA-seq) was used to study the peripheral blood transcriptome after stimulation with PPD-b across four time points (-1 wk pre-infection, and +1 wk, +2 wk, and +10 wk post-infection) from a 14-weekM. bovisinfection time course experiment with ten age-matched Holstein-Friesian cattle.ResultsIn vitro PPD-b stimulation of peripheral blood fromM. bovis-infected and non-infected cattle elicited a strong transcriptional response. Comparison of PPD-b stimulated, and unstimulated samples revealed higher expression of genes encoding cytokine receptors, transcription factors, and interferon-inducible proteins. Lower expression was seen for genes encoding proteins involved in antimicrobial activity, C-type lectin receptors, inhibition of signal transduction, and genes encoding metal ion transporters.ConclusionsA transcriptional signature associated with the peripheral blood response to PPD-b stimulation consisting of 170 genes was identified exclusively in the post-infection time points. Therefore, this represents a panel of potential biomarkers ofM. bovisinfection.