Litcius/Paper detail

Nuclear receptor LXRβ controls fitness and functionality of activated T cells

Anthony Michaels, Clarissa Campbell, Regina Bou-Puerto, Alexander Y. Rudensky

2020The Journal of Experimental Medicine37 citationsDOIOpen Access PDF

Abstract

T cells increase cholesterol biosynthesis upon activation to generate substrates for cellular growth and proliferation. The ubiquitously expressed liver X receptor β (LXRβ) encoded by the Nr1h2 gene is a critical regulator of cholesterol homeostasis in mammalian cells; however, its cell-intrinsic role in T cell biology remains poorly understood. We report that ablation of LXRβ in T cells leads to spontaneous T cell activation and T lymphocytopenia. Unexpectedly, analysis of mixed bone marrow chimeric mice revealed a cell-autonomous survival defect that reduced the fitness of LXRβ-deficient effector T cells, suggesting that the heightened immune activation in mice harboring LXRβ-deficient T cells was due to impaired regulatory T (T reg) cell functionality. Indeed, we found that single-copy deletion of Nr1h2 in T reg cells disrupted activated T reg cell metabolism and fitness and resulted in early-onset fatal autoimmune disease. Our study demonstrated an indispensable requirement for T reg cell-intrinsic LXRβ function in immune homeostasis and provides a basis for immunological therapies through targeting of this receptor.

Topics & Concepts

Liver X receptorBiologyT cellCell biologyImmune systemNuclear receptorImmunologyTranscription factorGeneBiochemistryImmune Cell Function and InteractionCholesterol and Lipid MetabolismT-cell and B-cell Immunology
Nuclear receptor LXRβ controls fitness and functionality of activated T cells | Litcius