REAC RGN-AR treatment modulates adipogenic differentiation in adipose tissue-derived stem cells

Adipose tissue-derived stem cells (ADSCs) possess multipotent differentiation potential and significant immunomodulatory properties, making them valuable in regenerative medicine. However, their adipogenic differentiation can lead to triglyceride accumulation, chronic inflammation, and metabolic dysfunction. This study evaluated the effects of Radio Electric Asymmetric Conveyer (REAC) technology tissue optimization regenerative adipogenesis reprogramming (TO RGN-AR) on ADSC differentiation, focusing on its ability to preserve stemness, suppress adipogenesis, and promote beneficial phenotypes. REAC TO RGN-AR treatment significantly increased the expression of stemness-related genes (Oct-4, Sox2, and Nanog) while downregulating the expression of adipogenic markers (PPAR-gamma, LPL, and ACOT2). Additionally, REAC TO RGN-AR treated cells presented a phenotypic shift toward beige adipocytes, characterized by increased TMEM26 expression and reduced ASC-1 expression. These findings underscore the novelty of using REAC TO RGN-AR to modulate cellular endogenous bioelectrical activity, presenting a noninvasive and operator-independent approach to enhance ADSC-based therapies. This work highlights the potential of this treatment to address metabolic disorders and chronic inflammation while advancing regenerative medicine.