Single-cell RNA sequencing identifies accumulation of Fcgr2b+ virtual memory like CD8 T cells with cytotoxic and inflammatory potential in aged mouse white adipose tissue

Aging and obesity are associated with pro-inflammatory changes in adipose tissue. Overlapping mechanisms, such as the infiltration of inflammatory macrophages and T cells into visceral adipose tissue, have been implicated in contributing inflammation. However, a comparative analysis from both states is needed to identify distinct regulatory targets. Here, we performed single-cell RNA sequencing of stromal vascular fractions (SVF) isolated from gonadal white adipose tissue (gWAT) of young mice fed either a normal or a high-fat diet, and aged mice fed a normal diet. Our analysis revealed that physiological aging, compared to high-fat diet induced obesity, was associated with accumulation of phenotypically distinct CD8 T cells resembling virtual memory (VM) CD8 T cells. These cells expressed high levels of Cd44 , Sell , Il7r , Il2rb , lacked Itga4 , and exhibited elevated Fcgr2b expression which was associated with pseudotime differentiation trajectories. Flow cytometry confirmed an age-associated increase in Fcgr2b+CD49d− VM like CD8 T cells in gWAT. Notably, these Fcgr2b-expressing cells exhibited a cytotoxic profile, and expressed granzyme M. Functional analysis using recombinant granzyme M revealed its potential in inducing inflammation in mouse fibroblasts and macrophages. Together, our study has identified Fcgr2b+CD49d− VM-like CD8 T cells in the adipose tissue of aged mice with regulatory, cytotoxic and inflammatory potential.