Abstract
Despite studies implicating adipose tissue T cells (ATT) in the initiation and persistence of adipose tissue inflammation, fundamental gaps in knowledge regarding ATT function impedes progress toward understanding how obesity influences adaptive immunity. We hypothesized that ATT activation and function would have tissue-resident–specific properties and that obesity would potentiate their inflammatory properties. We assessed ATT activation and inflammatory potential within mouse and human stromal vascular fraction (SVF). Surprisingly, murine and human ATTs from obese visceral white adipose tissue exhibited impaired inflammatory characteristics upon stimulation. Both environmental and cell-intrinsic factors are implicated in ATT dysfunction. Soluble factors from obese SVF inhibit ATT activation. Additionally, chronic signaling from macrophage major histocompatibility complex II (MHCII) is necessary for ATT impairment in obese adipose tissue but is independent of increased PD1 expression. To assess intracellular signaling mechanisms responsible for ATT inflammation impairments, single-cell RNA sequencing of ATTs was performed. ATTs in obese adipose tissue exhibit enrichment of genes characteristic of T cell exhaustion and increased expression of coinhibitory receptor Btla. In sum, this work suggests that obesity-induced ATTs have functional characteristics and gene expression resembling T cell exhaustion induced by local soluble factors and cell-to-cell interactions in adipose tissue.
Highlights
Obesity-associated morbidities such as type II diabetes are characterized by insulin resistance, which is mechanistically linked to adipose tissue dysfunction and inflammation [1,2,3]
Previous limitations in assessments of adipose tissue T cells (ATT) function are related to poor viability of ATTs in vitro and the small number of cells that can be collected from a single mouse [26]
T conventional (Tconv) and cytotoxic CD8+ T cells from the spleen both increased frequency and median fluorescence intensity (MFI) of CD25 when stimulated with Dynabeads, as expected
Summary
Obesity-associated morbidities such as type II diabetes are characterized by insulin resistance, which is mechanistically linked to adipose tissue dysfunction and inflammation [1,2,3]. Clinical and preclinical studies have identified chronic low-grade inflammation as a critical link between obesity and insulin resistance [4]. Immune regulation and systemic metabolism are interconnected within white adipose tissue (WAT). Lean fat has a largely antiinflammatory immune environment containing a predominance of resident adipose tissue macrophages (ATM) and CD4+ Tregs [5]. Obese diabetic individuals have a predominance of activated macrophages, proinflammatory CD4+ T conventional (Tconv) cells, and CD8+ cytotoxic T cells in adipose tissue that correlates with systemic metabolic dysfunction [6,7,8]
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