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Age-related ciliopathy: Obesogenic shortening of melanocortin-4 receptor-bearing neuronal primary cilia

Manami Oya, Yoshiki Miyasaka, Yoshiko Nakamura, Miyako Tanaka, Takayoshi Suganami, Tomoji Mashimo, Kazuhiro Nakamura

2024Cell Metabolism37 citationsDOIOpen Access PDF

Abstract

Obesity is often associated with aging. However, the mechanism of age-related obesity is unknown. The melanocortin-4 receptor (MC4R) mediates leptin-melanocortin anti-obesity signaling in the hypothalamus. Here, we discovered that MC4R-bearing primary cilia of hypothalamic neurons progressively shorten with age in rats, correlating with age-dependent metabolic decline and increased adiposity. This "age-related ciliopathy" is promoted by overnutrition-induced upregulation of leptin-melanocortin signaling and inhibited or reversed by dietary restriction or the knockdown of ciliogenesis-associated kinase 1 (CILK1). Forced shortening of MC4R-bearing cilia in hypothalamic neurons by genetic approaches impaired neuronal sensitivity to melanocortin and resulted in decreased brown fat thermogenesis and energy expenditure and increased appetite, finally developing obesity and leptin resistance. Therefore, despite its acute anti-obesity effect, chronic leptin-melanocortin signaling increases susceptibility to obesity by promoting the age-related shortening of MC4R-bearing cilia. This study provides a crucial mechanism for age-related obesity, which increases the risk of metabolic syndrome.

Topics & Concepts

MelanocortinCiliopathyInternal medicineMelanocortin 4 receptorEndocrinologyLeptin receptorBiologyLeptinCiliumThermogenesisObesityMedicineReceptorCell biologyGeneticsPhenotypeGeneRegulation of Appetite and ObesityGenetic and Kidney Cyst DiseasesCircadian rhythm and melatonin
Age-related ciliopathy: Obesogenic shortening of melanocortin-4 receptor-bearing neuronal primary cilia | Litcius