Abstract
K(+)-dependent Na(+)/Ca(2+)-exchangers are broadly expressed in various tissues, and particularly enriched in neurons of the brain. The distinct physiological roles for the different members of this Ca(2+) transporter family are, however, not well described. Here we show that gene-targeted mice lacking the K(+)-dependent Na(+)/Ca(2+)-exchanger, NCKX4 (gene slc24a4 or Nckx4), display a remarkable anorexia with severe hypophagia and weight loss. Feeding and satiety are coordinated centrally by melanocortin-4 receptors (MC4R) in neurons of the hypothalamic paraventricular nucleus (PVN). The hypophagic response of Nckx4 knock-out mice is accompanied by hyperactivation of neurons in the PVN, evidenced by high levels of c-Fos expression. The activation of PVN neurons in both fasted Nckx4 knock-out and glucose-injected wild-type animals is blocked by Ca(2+) removal and MC4R antagonists. In cultured hypothalamic neurons, melanocyte stimulating hormone induces an MC4R-dependent and sustained Ca(2+) signal, which requires phospholipase C activity and plasma membrane Ca(2+) entry. The Ca(2+) signal is enhanced in hypothalamic neurons from Nckx4 knock-out animals, and is depressed in cells in which NCKX4 is overexpressed. Finally, MC4R-dependent oxytocin expression in the PVN, a key essential step in satiety, is prevented by blocking phospholipase C activation or Ca(2+) entry. These findings highlight an essential, and to our knowledge previously unknown, role for Ca(2+) signaling in the MC4R pathway that leads to satiety, and a novel non-redundant role for NCKX4-mediated Ca(2+) extrusion in controlling MC4R signaling and feeding behavior. Together, these findings highlight a novel pathway that potentially could be exploited to develop much needed new therapeutics to tackle eating disorders and obesity.
Highlights
The melanocortin-4 receptor, melanocortin-4 receptors (MC4R), regulates satiety, but the signaling mechanism is unknown
Ca2ϩ signaling is required for MC4R action, and its dysregulation in Nckx4Ϫ/Ϫ mice leads to anorexia
Nckx4Ϫ/Ϫ Mice Are Anorexic and Hypophagic—The expression of NCKX4 was disrupted constitutively using a conventional gene targeting approach directed to the slc24a4 (Nckx4) gene
Summary
The melanocortin-4 receptor, MC4R, regulates satiety, but the signaling mechanism is unknown. MC4R-dependent oxytocin expression in the PVN, a key essential step in satiety, is prevented by blocking phospholipase C activation or Ca2؉ entry These findings highlight an essential, and to our knowledge previously unknown, role for Ca2؉ signaling in the MC4R pathway that leads to satiety, and a novel non-redundant role for NCKX4mediated Ca2؉ extrusion in controlling MC4R signaling and feeding behavior. We demonstrate here that genetically targeted Nckx4Ϫ/Ϫ mice lacking the NCXK4 protein display a striking anorexic phenotype as a consequence of Ca2ϩ-dependent heightened sensitivity of MC4R in the PVN. These data demonstrate an essential role for Ca2ϩ signaling downstream from MC4R in mediating feeding behavior and satiety
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