Adiponectin is a peptide hormone involved in glucose metabolism, fatty acid regulation, insulin sensitivity, vascular signaling, and communication between adipose tissue and metabolic organs. The hormone functions as an important endocrine regulator supporting metabolic flexibility and efficient nutrient utilization.
Adiponectin enhances fatty acid oxidation, supports glucose uptake, improves insulin-responsive metabolic signaling, and contributes to anti-inflammatory vascular adaptation pathways. The hormone also participates in regulation of endothelial function, mitochondrial metabolism, hepatic nutrient handling, and skeletal muscle energy utilization. Through these actions, adiponectin coordinates communication among adipose tissue, liver, skeletal muscle, vascular tissues, and endocrine metabolic systems.
Adiponectin is produced primarily by adipocytes within adipose tissue. Unlike several other adipose-derived signaling hormones, circulating adiponectin concentrations often decline with increasing visceral adiposity and metabolic dysfunction.
The hormone is synthesized in multiple molecular forms with differing biological activities and tissue interactions. Adipose tissue continuously releases adiponectin into circulation where it acts on numerous metabolic target organs.
Adiponectin secretion is regulated mainly by adipose tissue physiology, inflammatory signaling, nutrient balance, oxidative stress pathways, and metabolic state. Healthy adipocyte function generally supports greater secretion, while inflammatory adipose remodeling can suppress production.
The hormone acts through adiponectin receptor systems linked to AMP-activated protein kinase pathways, fatty acid oxidation mechanisms, mitochondrial signaling networks, and glucose-metabolism pathways. Receptor activation influences hepatic glucose production, skeletal muscle metabolism, endothelial signaling, and cellular energy regulation. Through these integrated metabolic-endocrine systems, adiponectin coordinates insulin sensitivity, lipid metabolism, vascular adaptation, and whole-body metabolic homeostasis.
Adiponectin influences fuel selection, supports fatty acid use, and helps coordinate metabolic energy regulation.
