Peroxisome Proliferator-Activated Receptor Delta (Ppar Delta) Activity Is Required For Normal T Cell Development

Abstract PPARδ is a nuclear receptor that functions as a transcriptional regulator of various processes including metabolic homeostasis, cell proliferation and differentiation; however, whether PPARδ regulates T cell development is not known. We observed that PPARδ-deficient (PPARδ−/−) mice have smaller spleens and thymi compared to wild-type (WT) mice. This reduction in thymus cellularity was apparent across all stages of thymocyte development. To further narrow in on the cellular basis of this effect, radiation bone marrow chimeras were generated where WT or PPARδ−/− mice were reconstituted with WT or PPARδ−/− bone marrow. These experiments clearly revealed that the defects in thymus and spleen mapped to the radio-resistant compartment. This was furthered confirmed by the finding that mice with T cell-restricted deficiency of PPARδ did not exhibit defective thymocyte homeostasis. Given that thymic epithelial cells (TECs) are the major radio-resistant cell population in the thymus, we next generated mice with a TEC-restricted deficiency of PPARδ (PPARδflox/floxFoxN1-Cre+). We observed that PPARδflox/floxFoxN1-Cre+ mice exhibit a trend for reduced thymus and spleen cellularity compared to PPARδflox/flox mice; however, this phenotype was not as striking as seen in PPARδ−/− mice. These results suggest that, in addition to acting within TECs, PPARδ may regulate the production of a circulating factor that in turn regulates thymocyte development. Large-scale serum profiling studies are underway to identify this factor. Altogether, this work highlights a role for PPARδ in T cell development.