-The peptide hormone ghrelin is released from a distinct group of gastrointestinal cells in response to caloric restriction, whereas its levels fall after eating. The mechanisms by which ghrelin secretion is regulated remain largely unknown. Here, we have used primary cultures of mouse gastric mucosal cells to investigate ghrelin secretion, with an emphasis on the role of glucose. Ghrelin secretion from these cells upon exposure to different D-glucose concentrations, the glucose antimetabolite 2-deoxy-D-glucose, and other potential secretagogues was assessed. The expression profile of proteins involved in glucose transport, metabolism, and utilization within highly enriched pools of mouse ghrelin cells and within cultured ghrelinoma cells was also determined. Ghrelin release negatively correlated with D-glucose concentration. Insulin blocked ghrelin release, but only in a low D-glucose environment. 2-Deoxy-D-glucose prevented the inhibitory effect of high D-glucose exposure on ghrelin release. mRNAs encoding several facilitative glucose transporters, hexokinases, the ATPsensitive potassium channel subunit Kir6.2, and sulfonylurea type 1 receptor were expressed highly within ghrelin cells, although neither tolbutamide nor diazoxide exerted direct effects on ghrelin secretion. These findings suggest that direct exposure of ghrelin cells to low ambient D-glucose stimulates ghrelin release, whereas high D-glucose and glucose metabolism within ghrelin cells block ghrelin release. Also, low D-glucose sensitizes ghrelin cells to insulin. Various glucose transporters, channels, and enzymes that mediate glucose responsiveness in other cell types may contribute to the ghrelin cell machinery involved in regulating ghrelin secretion under these different glucose environments, although their exact roles in ghrelin release remain uncertain. secretion THE PEPTIDE HORMONE GHRELIN is the endogenous ligand of the growth hormone secretagogue receptor (GHSR) and is named for its ability to stimulate growth hormone release (32, 59). Ghrelin also regulates gastrointestinal motility, chronic stressinduced mood-related behaviors, and alcohol-seeking behaviors, among many other actions (1,13,15,18,31,32,34,37). Perhaps best studied are ghrelin's actions in signaling and responding to states of energy insufficiency. Regarding its role in signaling energy-insufficient states, ghrelin levels are known to rise prior to set meals, following food deprivation, and after weight loss linked to exercise, cachexia, and anorexia nervosa (9,10,33,39,42,45,55,57,60). Several lines of evidence suggest that the rise in plasma ghrelin upon caloric restriction is likely related, at least in part, to binding of norepinephrine released from the sympathetic nervous system to  1 -adrenergic receptors embedded in the plasma membranes of ghrelin cells (14,28,41,63). Regarding ghrelin's role in responding to energy-insufficient states, infusions of ghrelin or GHSR agonists increase body weight via proorexigenic actions and/or decreases in energy expenditure (1...
