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RESEARCH PRODUCT

A new actor involved in hypothalamic glucose detection : the Transient Receptor Potential Canonical (TRPC) channels

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Hyperglycemia is detected and integrated by the mediobasal hypothalamus (MBH) which, in turn, inhibits food intake and triggers insulin secretion. The MBH houses specialized glucose-sensitive (GS) neurons, which directly or indirectly modulate their electrical activity in response to changes in glucose level. In a first study, we hypothesized that indirect detection of glucose by MBH GS neurons involves the secretion of endozepine by astrocytes, a gliotransmitter known to inhibit food intake in response to hyperglycemia. The present work shows that endozepines selectively activate anorexigenic MBH pro-opiomelanotortine (POMC) neurons. In the second study, we show that the direct detection of increased glucose level involves hypothalamic glucose-excited (HGE) neurons. Using pharmacological and genetic approaches, we demonstrate that the redox-sensitive Transient Receptor Potential Canonical 3 et 4 (TRPC3/4) channels are involved in MBH HGE response to glucose in vitro and increased insulin secretion and decreased food intake in response to cerebral hyperglycemia in vivo. We also obtained evidences that MBH TRPC3 channel is a critical new player for energy homeostasis. This thesis work identifies two new mechanisms involved in hypothalamic detection of hyperglycemia: the first based on the involvement of TRPC3/4 channels in HGE neurons and the second highlighting the astroglial endozepines as a relay of the “glucose” signal to POMC neurons.