Opioid receptor involvement in food deprivation-induced feeding: evaluation of selective antagonist and antisense oligodeoxynucleotide probe effects in mice and rats.

Central administration of general and selective opioid receptor subtype antagonists in the rat has revealed a substantial role for mu, a moderate role for kappa, and a minimal role for delta receptors in the mediation of deprivation-induced feeding. Antisense probes directed against the kappa opioid receptor (KOP), nociceptin opioid receptor (NOP), and delta opioid receptor (DOP) genes in rats result in reductions similar to kappa and delta antagonists, whereas antisense probes directed against the mu opioid receptor (MOP) gene produced modest reductions relative to mu antagonists, suggesting that isoforms of the MOP gene may mediate deprivation-induced feeding. Since these isoforms were initially identified in mice, the present study compared the effects of general and selective opioid receptor antagonists on deprivation-induced feeding in rats and mice and antisense probes directed against exons of the MOP, DOP, KOP, and NOP genes on deprivation-induced feeding in the mouse. Food-deprived (12 and 24 h) rats and mice displayed similar profiles of reductions in deprivation-induced feeding following general, mu, and kappa opioid antagonists. In contrast, mice, but not rats, displayed reductions in deprivation-induced intake following delta antagonism as well as DOP antisense probes, suggesting a species-specific role for the delta receptor. Antisense probes directed against the KOP and NOP genes also reduced deprivation-induced intake in mice in a manner similar to kappa antagonism. However, the significant reductions in deprivation-induced feeding following antisense probes directed against either exons 2, 4, 7, 8, or 13 of the MOP gene were modest compared with mu antagonism, suggesting a role for multiple mu-mediated mechanisms.

Feeding induced by food deprivation is differentially reduced by opioid receptor antisense oligodeoxynucleotide probes in rats.

The increases in food intake following 24 h of food deprivation are reduced by systemic and central administration of general opioid antagonists. The use of selective opioid antagonists revealed that mu-selective antagonists were more effective than kappa-selective antagonists in reducing deprivation-induced intake, whereas delta-selective antagonists were minimally effective. Antisense oligodeoxynucleotide (AS ODN) probes directed against different exons of the mu (MOP), delta (DOP), kappa (KOP) and nociceptin (NOP) opioid peptide receptor genes have been able to differentially alter feeding responses elicited by glucoprivation, lipoprivation and by different opioid peptides and receptor agonists. The present study examined whether lateral ventricular administration of AS ODN probes directed against different exons of the MOP, DOP, KOP or NOP opioid receptor genes altered food intake and body weight changes following 24 h of food deprivation in rats. Deprivation-induced feeding was significantly and maximally reduced by an AS ODN probe directed against exon 2, but not exons 1 or 3 of the KOP gene. This response was also significantly though modestly reduced by AS ODN probes directed against exons 2, 3 or 4 of the MOP gene, exon 1 of the DOP gene, or exon 1 of the NOP gene. Recovery of body weight following postdeprivation food reintroduction was significantly reduced by AS ODN probes directed against either exons 2, 3 or 4 of the MOP gene, exons 1 or 2 of the DOP gene, or exons 1, 2 or 3 of the KOP gene. The parallel patterns in the magnitude of alterations in deprivation-induced feeding by delta antagonists and DOP AS ODN probes on one hand, and by kappa antagonists and KOP AS ODN probes on the other, provide converging and complementary evidence for their relative involvement in this response. The modest reductions by MOP AS ODN probes relative to the more potent reductions induced by mu-selective antagonists suggest that the mu receptor-mediated actions upon deprivation-induced feeding may involve recently-identified splice variants or isoforms of the MOP gene.

Beta-endorphin-induced feeding: pharmacological characterization using selective opioid antagonists and antisense probes in rats.

Ventricular administration of the opioid beta END induces feeding in rats. Since its pharmacological characterization has not been fully identified, the present study examined whether equimolar doses of general and selective opioid antagonists as well as AS ODN opioid probes altered spontaneous daytime feeding over a 4-h time course elicited by beta END. beta END-induced feeding was significantly reduced by moderate (20--40-nmol, i.c.v.) doses of general (naltrexone) opioid antagonists, and lower (0.5--40-nmol) doses of selective mu (beta-funaltrexamine)-antagonists. Correspondingly, AS ODN probes directed against either exons 1, 3, or 4, but not exon 2, of the mu-opioid receptor clone reduced beta END-induced feeding; a missense ODN control probe was ineffective. The delta-antagonist Nti (20-40 nmol) reduced beta END-induced feeding to a lesser degree, and AS ODN probes targeting exon 1, but not 2 or 3, of the delta-opioid receptor clone significantly reduced beta END-induced feeding. Although the selective kappa(1)-receptor antagonist NBNI (20-40 nmol) significantly reduced beta END-induced feeding, this response was not altered by AS ODN probes directed against either exons 1, 2, or 3 of either the KOR-1 clone or the kappa(3)-like opioid receptor clone. These converging antagonist and AS ODN data firmly implicate the mu-opioid receptor in the mediation of beta END-induced feeding. The relative lack of convergence between the lesser effectiveness of Nti and NBNI in reducing beta END-induced feeding, and the lack of effectiveness of their corresponding AS ODN probes suggest that delta- and kappa-receptors play a minimal role in the mediation of this response.