Abstract

Marek's disease (MD) is a lymphoproliferative disease of chickens induced by Marek's disease virus (MDV), an oncogenic α-herpesvirus. MDV has increased in virulence, prompting continued efforts in both improved vaccines and enhanced genetic resistance. Model pairs of genetically MD-resistant and MD-susceptible chickens that were either MHC-matched or MHC-congenic allowed characterization of T cell receptor (TCR) repertoires associated with MDV infection. MD-resistant chickens showed higher usage of Vβ-1 TCRs than susceptible chickens in both the CD8 and CD4 subsets in the MHC-matched model, and in the CD8 subset only in the MHC-congenic model, with a shift towards Vβ-1+ CD8 cells during MDV infection. Long and short read sequencing identified divergent TCRβ loci between MHC-matched MD-resistant and MD-susceptible chickens, with MD-resistant chickens having more TCR Vβ1 genes. TCR Vβ1 CDR1 haplotype usage in MD-resistant x MD-susceptible F1 birds by RNAseq indicated that the most commonly used CDR1 variant was unique to the MD-susceptible line, suggesting that selection for MD resistance in the MHC-matched model optimized the TCR repertoire away from dominant recognition of one or more B2 haplotype MHC molecules. Finally, TCR downregulation during MDV infection in the MHC-matched model was strongest in the MD-susceptible line, and MDV reactivation downregulated TCR expression in a tumor cell line.

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