Molecular Mechanisms of P311 on White Adipogenesis

Background The obesity epidemic is a constant and chronic detriment to US as well as global health outcomes. Two‐thirds of the US population is either overweight or obese, and obesity can be linked to many chronic diseases, including diabetes mellitus, cardiovascular diseases, stroke and cancer. Diet and exercise remains the primary therapeutic approaches, but still obesity (40% of US adult population) incidence and prevalence continues to rise, prompting the development of new interventions. P311 is an 8 kDa protein shown to induce adipogenesis in an in vitro 3T3‐L1 cell culture model (Nunez et al. 2019). In the current study, we investigated the molecular mechanisms of P311 in white adipocyte biology. Methods Both male and female C57BL/6 control mice and P311 knockout (KO) mice were used for this study. Adipocytes were isolated from individual white adipose tissue depots and adipocyte number and size were quantified using LipidTox staining followed by Guava EasyCyte analysis. Additionally adipocyte cellular functions of P311 like apoptosis, lipophagy and adipose tissue macrophage numbers were verified in P311 KOs and compared with wild type control mice. Real‐time PCR, western blot and immunohistology studies were conducted as described by Badri et al. (2013) and Nunez et al. (2019) Results P311 was expressed in murine gonadal and subcutaneous white adipose tissue. White adipocytes isolated from 4‐month‐old mice had significantly higher levels of P311 compared to adipocytes isolated from the white subcutaneous adipose tissue of 1‐month‐old mice. However, progenitor cells (stromal vascular fraction) showed no (basal) expression of P311. P311 KO mice showed decreased PPARγ2 expression. P311 KO mice did not differ from wild type mice in subcutaneous or gonadal white adipose tissue weights, but they had fewer and enlarged adipocytes. Further, P311 KOs also showed decreased apoptosis and lipophagy along with decreased adipocyte macrophage numbers and browning of white adipose tissue. In addition, adult human visceral adipose tissue also showed the expression of P311 in adipocytes implicating a translational role for P311 in adipogenesis and obesity. Conclusions P311 plays a key role in white adipogenesis and browning of WAT partly through modulating PPARγ2 and also by regulating adipocyte cellular processes including adipocyte apoptosis, lipophagy, browning and macrophage numbers. Support or Funding Information • 2019 Medical Student Summer Research and Public Health Experience (Morehouse School of Medicine) • NIMHD/NIH grant funding through S21MD000101 (to Morehouse School of Medicine) • U54MD008621 (Hampton University, Hampton, VA)