Hypoxia inducible factor-dependent upregulation of Agrp in glomus type I cells of the carotid body

Abstract

Agouti-related peptide (AgRP) is a well-established potent orexigenic peptide primarily expressed in hypothalamic neurons. Nevertheless, the expression and functional significance of extrahypothalamic AgRP remain poorly understood. In this study, utilizing histological and molecular biology techniques, we have identified a significant expression of Agrp mRNA and AgRP peptide production in glomus type I cells within the mouse carotid body (CB). Furthermore, we have uncovered evidence supporting the expression of the AgRP receptor melanocortin receptor 3 (Mc3r) in adjacent sympathetic neurons, suggesting a potential local paracrine role for AgRP within the CB. Importantly, AgRP immunoreactivity was also identified in glomus type I cells of the human CB. Given the unexpected abundance of AgRP in glomus type I cells, a chemoreceptor cell specialized in oxygen sensing, we proceeded to investigate whether Agrp expression in the CB is regulated by hypoxemia and associated oxygen-sensing molecular mechanisms. In vitro luciferase assays reveal that hypoxia stimulates the human and mouse Agrp promoters in a Hypoxia Inducible Factor (HIF1/2)-dependent manner. Our in vivo experiments further demonstrate that exposure to environmental hypoxia (10%) robustly induces Agrp expression in type I glomus cells of mice. Furthermore, these findings collectively highlight the hitherto unknown source of AgRP in murine and human type I glomus cells and underscore the direct control of Agrp transcription by HIF signaling.