Abstract
GH (growth hormone) secretion/action is modulated by alterations in energy homeostasis, such as malnutrition and obesity. Recent data have uncovered the mechanism by which hypothalamic neurons sense nutrient bioavailability, with a relevant contribution of AMPK (AMP-activated protein kinase) and mTOR (mammalian Target of Rapamycin), as sensors of cellular energy status. However, whether central AMPK-mediated lipid signaling and mTOR participate in the regulation of pituitary GH secretion remains unexplored. We provide herein evidence for the involvement of hypothalamic AMPK signaling, but not hypothalamic lipid metabolism or CPT-1 (carnitine palmitoyltransferase I) activity, in the regulation of GH stimulatory responses to the two major elicitors of GH release in vivo, namely GHRH (growth hormone–releasing hormone) and ghrelin. This effect appeared to be GH-specific, as blocking of hypothalamic AMPK failed to influence GnRH (gonadotropin-releasing hormone)-induced LH (luteinizing hormone) secretion. Additionally, central mTOR inactivation did not alter GH responses to GHRH or ghrelin, nor this blockade affected LH responses to GnRH in vivo. In sum, we document here for the first time the indispensable and specific role of preserved central AMPK, but not mTOR, signaling, through a non-canonical lipid signaling pathway, for proper GH responses to GHRH and ghrelin in vivo.
Highlights
In addition to stimulating body growth, growth hormone (GH) plays an important role in metabolism
This study aimed to investigate whether GH secretion, either in basal conditions or after growth hormone–releasing hormone (GHRH) or ghrelin stimulation, is modulated by changes in central AMPK or mTOR signaling
Using the same experimental design [21], doses and routes of administration, we have previously reported the effects of ghrelin, compound C (CC), etomoxir and rapamycin on food intake as well as their effects on hypothalamic pAMPK (CC), CPT-1c and mTOR [15,18]
Summary
In addition to stimulating body growth, GH (growth hormone) plays an important role in metabolism. Data gleaned over the last few years have uncovered the mechanism by which cells sense nutrient bioavailability. These include specific transmembrane transporters as well as membrane receptors, which directly or indirectly influence the so-called cellular energy sensors that in turn modify different intracellular signal pathways. In this regard, work carried out throughout the last decade has highlighted the importance of AMPK (AMP-activated protein kinase) [2,3,4,5,6] and mTOR
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