Curr Opin Lipidol. 2026 Feb 19. doi: 10.1097/MOL.0000000000001025. Online ahead of print.

ABSTRACT

PURPOSE OF REVIEW: Growth differentiation factor-15 (GDF15) is widely described as a hormone that conveys somatic distress to the brain, yet this framework does not explain why GDF15 is elevated in many common metabolic states. Recent work shows that GDF15 rises most consistently when fatty acid availability exceeds mitochondrial and endoplasmic reticulum capacity. This review synthesizes emerging evidence that positions GDF15 as an endocrine sensor of lipid load rather than a general stress signal.

RECENT FINDINGS: Across acute dietary lipid exposure, endogenous lipolysis during fasting, chronic overnutrition, ketogenic feeding, and mitochondrial dysfunction, free fatty acids activate lipid-sensitive transcriptional pathways that induce GDF15 expression in kidney, liver, intestine, and adipose tissue macrophages. Once elevated, GDF15 engages hindbrain glial-cell-derived neurotrophic factor family receptor α-like (GFRAL) signaling to increase sympathetic outflow, promote whole-body fatty acid oxidation, redistribute lipid burden, and improve metabolic flexibility. These effects occur independently of reduced food intake and reflect coordinated actions across liver, adipose tissue, and skeletal muscle.

SUMMARY: Viewing GDF15 as a lipid-responsive hormonal signal reshapes our understanding of its physiological role and provides new insight into metabolic adaptations to lipid overload. This pattern suggests that GDF15 is part of a feedback system that attempts to match fatty acid oxidation with supply, analogous to how carbohydrate ingestion stimulates insulin to promote glucose oxidation and suppress hepatic glucose production to restore euglycemia. Within this framework, individual tissues respond in complementary ways to reduce lipid burden and maintain metabolic balance. Understanding this coordinated lipid-responsive network highlights opportunities to target the GDF15 pathway in disorders characterized by impaired fatty acid handling including obesity, type 2 diabetes, cardiovascular disease, cancer cachexia and metabolic dysfunction-associated steatotic liver disease (MASLD).

PMID:41762751 | DOI:10.1097/MOL.0000000000001025

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