Characterizing the TCR repertoire in Neuropsychiatric Lupus

Abstract

Abstract Approximately 40% of lupus patients experience neurological and/or psychiatric disorders. However, the mechanisms contributing to the wide range of neuropsychiatric manifestations (NPSLE) have not yet been fully elucidated. We have demonstrated that the choroid plexus (CP) in the MRL/lpr NPSLE lupus mouse model is heavily infiltrated with effector T cells. We investigated T cell receptor (TCR) usage and repertoire diversity in CP infiltrating T cells, to enhance our understanding of this T cell population and its possible contribution to neuropsychiatric disease. The CP, salivary glands, and spleens were dissected from female MRL/lpr mice (n=9, n=9, n=4 respectively) and the spleens from female MRL/MpJ (n=5) at 17–22 weeks of age, at which time MRL/lpr mice display prominent neurobehavioral deficits. The TCR repertoire was evaluated by isolating genomic DNA, amplifying the CDR3 sequence by multiplex PCR (Adaptive Technologies), and analyzing the sequences with the Adaptive Technologies immunoSeq Analyzer and the R software, LymphoSeq. MRL/lpr CP tissues had increased numbers of T cell sequences, unique productive sequences, and clonality. The top 10 productive rearrangements were more abundant in MRL/lpr CP when compared to the MRL/lpr and MRL/MpJ splenic tissues (p = 0.0673 and p = 0.0003 respectively). The MRL/lpr CP had an increased frequency of TCRBV02, TCRBV04, TCRBV12, and TCRBV26 genes compared to MRL/lpr splenic and salivary gland tissues. Despite the lymphoproliferation found in this lupus strain, the increased oligoclonal expansion and limited TCR V beta gene usage in the MRL/lpr CP T cell repertoire, as compared to other MRL/lpr tissues, implies a distinct and specific infiltration of T cells into the CP.