Transcriptome profiling in an in vitro peripheral blood mononuclear cell - Mycobacterium tuberculosis infection model reveals breed-specific immune gene signatures potentially associated with tuberculosis susceptibility in cattle.

Tuberculosis (TB) remains a major chronic infectious disease in cattle, particularly challenging in India which hosts the world's largest and most diverse cattle population farmed in close proximity to its human settlements. This study investigates the hypothesis that genetic and immune variations drive differential TB susceptibility in cattle breeds. Using comprehensive transcriptomic analyses, we examined immune responses in peripheral blood mononuclear cells (PBMCs) from Sahiwal and Sahiwal-Holstein Friesian (SHF) crossbred cattle. Responses to both the virulent Mycobacterium tuberculosis and the vaccine strain M. bovis BCG were compared. Notably, Sahiwal cattle exhibited a robust early immune response characterized by upregulation of interferon signaling, enhanced cytotoxic activity by CD8+ T and NK cells, and pronounced T cell recruitment and activation pathways compared to SHF crossbreds. PBMCs of this breed also demonstrated superior control of M. tuberculosis replication in vitro. A distinctive immune signature comprising 8 genes, including CXCL10, ISG15, CTLA4, SELL, TLR3, MYD88, IRF1, and EOMES was significantly upregulated in Sahiwal cattle PBMCs, potentially driving their reduced TB susceptibility. These findings underscore the importance of breed-specific immune profiling in devising effective TB control strategies, and could lead to targeted interventions that leverage genetic and immunological insights to mitigate TB in regions with high cattle diversity.