Obesity increases the risk of various diseases, and many studies have examined prevention and treatment strategies. Browning of white adipocytes promotes triglyceride (TG) metabolism and is the new focus for treating obesity. This study investigated the role of malonate-a modulator of mitochondrial function-in adipocyte browning, and its potential as a therapeutic agent in obesity. Our findings revealed that malonate increased oxygen consumption without inhibiting ATP synthesis. Malonate induced expression of PRDM16-an important transcription factor for browning-and uncoupling protein 1 (beige adipocyte marker), suggesting that malonate induces browning in white adipocytes. In an obesity mouse model induced by a high-fat diet, malonate significantly reduced body weight and white adipose tissue weight, as well as improved insulin resistance. Importantly, malonate stimulated browning in white adipose tissue and maintained the mass of brown adipose tissue in the high-fat diet-induced obesity mouse model. We propose that manipulation of mitochondrial function by malonate is a promising therapeutic approach for obesity.
Keywords: Beige adipocytes; Browning; Mitochondria; Obesity.
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