Cognate antigen-independent differentiation of resident memory T cells in chronic kidney disease
Kyle H. Moore, Elise N. Erman, Amie M. Traylor, Stephanie K. Esman, Yanlin Jiang, Jennifer R. LaFontaine, Anna Zmijewska, Yan Lu, Reham H. Soliman, Anupam Agarwal, James F. George- Physiology
Resident memory T cells (TRMs), which are memory T cells that are retained locally within tissues, have recently been described as antigen-specific frontline defenders against pathogens in barrier and non-barrier epithelial tissues. They have also been noted for perpetuating chronic inflammation. The conditions responsible for TRM differentiation are still poorly understood, and their contributions, if any, to sterile models of chronic kidney disease (CKD) remain a mystery. In this study we subjected male C57BL/6J mice and OT-1 transgenic mice to five consecutive days of 2mg/kg Aristolochic acid (AA) injections i.p. to induce CKD or saline injections as a control. We evaluated their kidney immune profiles at two weeks, six weeks, and six months after treatment. We identified a substantial population of TRMs in the kidneys of mice with AA-induced CKD. Flow cytometry of injured kidneys showed T cells bearing TRM surface markers and single cell RNA sequencing revealed these cells as expressing well-known TRM transcription factors and receptors responsible for TRM differentiation and maintenance. While kidney TRMs expressed Cd44, a marker of antigen experience and T cell activation, their derivation was independent of cognate antigen-T cell receptor interactions, as the kidneys of transgenic OT-1 mice still harbored considerable proportions of TRMs after injury. Our results suggest a non-antigen-specific or antigen-independent mechanism capable of generating TRMs in the kidney and highlight the need to better understand TRMs and their involvement in CKD.