Ketone bodies rescue T cell impairments induced by low glucose availability.

Abstract

Ketogenic diets are proposed as a therapeutic approach for type 1 and type 2 diabetes due to their low glucose intake. However, their potential effects on the immune system need investigation. This study aims to explore how glucose concentration and beta-hydroxybutyrate (BHB) impact T cell phenotype, metabolism, and function, with a focus on systemic inflammatory response (T2D) and autoimmunity (T1D). T cells from healthy donors were cultured in vitro under varying glucose concentrations with or without BHB. Flow cytometry was employed to analyze changes in T cell phenotype, while proliferation was evaluated through a CFSE dilution assay. Additionally, we used a novel flow cytometry method allowing a direct assessment of T cell metabolism. Culturing T cells in low glucose concentrations revealed their dependency on glucose metabolism, leading to reduced proliferation rates, overexpression of exhaustion markers and increased susceptibility to Treg suppression and the influence of immune-modulating drugs such as rapamycin, FK506, and MMF. Notably, T cells cultured in low glucose concentrations increased the expression of BDH1 to utilize BHB as an alternative fuel source. Finally, the addition of BHB to the culture effectively rescued T cell impairments caused by insufficient glucose levels. T cells display limited capacity to adapt to low glucose levels, resulting in profound functional impairment. However, T cell functions can be efficiently recovered by the presence of 2mM BHB.