Abstract
Although control of metabolism by leptin is primarily viewed as centrally mediated, leptin has also been shown to directly regulate adipocyte function. However, the impact of the peripheral effects of leptin on systemic metabolism, especially in the context of obesity, remains unclear. To address this question, we selectively restored adipocyte leptin receptor (LEPR) expression in obese male and female LEPR-conditional knockout mice. Adipocyte LEPR restoration did not affect body weight but selectively increased brown adipose tissue (BAT) mass in male mice. This was associated with increased energy expenditure, smaller BAT adipocytes, lower triglycerides content, and increased markers of browning and lipolysis exclusively in males. Additionally, adipocyte LEPR restoration enhanced the expression of markers of endothelial cells and angiogenesis in male mouse BAT, supporting increased local vascularization. Improved BAT function in males was also associated with lower HbA1c, better insulin sensitivity, reduced systolic blood pressure, decreased arterial stiffness, and improved endothelial function. Lastly, adipocyte LEPR restoration lowered circulating proinflammatory cytokines and reduced tissue inflammation in the aorta and heart, again in males only. These findings reveal a critical role for adipocyte leptin signaling in regulating BAT function and emphasize its importance in maintaining glycemic and cardiovascular health in males with obesity. ARTICLE HIGHLIGHTS: Leptin is known to enhance brown adipose tissue (BAT) activity through sympathetic stimulation. However, in vitro studies suggest leptin could also act directly on adipocytes to promote lipolysis. Whether these peripheral effects of leptin are relevant to systemic metabolic control in obesity remains unclear. We addressed this question by selectively restoring leptin receptor (LEPR) expression in adipocytes of obese LEPR-conditional knockout mice. LEPR restoration selectively enhanced BAT activity in male mice, which led to improved glycemic control and cardiovascular function. These findings reveal a crucial role for BAT leptin signaling in regulating energy expenditure and glycemic and cardiovascular health, primarily in males.