The recently discovered rat neuropeptide Y (NPY) receptor, the Y5 subtype, has been proposed to mediate the NPY-induced feeding response and therefore plays a central role in the regulation of food intake. These conclusions were based on studies with peptidic agonists. We now report studies in which phosphothioate end-protected antisense oligodeoxynucleotides (ODNs) targeted to prepro NPY (prepro NPY antisense ODNs) or to the Y5 receptor (Y5 antisense ODNs) were used to assess the functional importance of this novel receptor subtype in vivo. NPY antisense ODNs given intracerebroventricularly to rats prevented the increase in hypothalamic NPY levels during food deprivation and inhibited fasting-induced food intake. Likewise, repeated intracerebroventricular injections of Y5 antisense ODNs prevented fasting-induced food intake in rats. Moreover, two Y5 antisense ODNs, targeted to different sequences of the receptor, significantly decreased basal food intake and inhibited the increase in food intake after intracerebroventricular injection of NPY. These effects proved to be selective, since the feeding response to galanin was not affected. Analysis of the structure of feeding behavior revealed that prepro NPY and Y5 receptor antisense ODNs reduced food intake by inducing decreases in meal size and meal duration analogous to the orexigenic effects of NPY that are mediated by increases in these parameters. Although changes in Y5 receptor density could not be measured, the results with Y5 antisense ODNs strongly suggest that this receptor subtype mediates the feeding response to exogenous and endogenous NPY. Selective Y5 antagonists may therefore be of therapeutic value for the treatment of obesity and eating disorders.
OBJECTIVE: These studies were designed to test the hypothesis that endogenous leptin, acting within the brain plays a physiologically important role in the control of food intake in lean rats. DESIGN: Antibodies directed against mouse leptin were raised in rabbits. The puri®ed IgG fractions prepared from pre-immune and immune sera were injected into the right lateral ventricle of lean Sprague-Dawley rats and obese Zucker fatty faafa rats. Changes in food intake were measured over the following 20 h period. RESULTS: The anti-leptin antibodies recognized a major epitope in the C-terminal region of the leptin molecule. The antibodies bound both mouse and rat leptin with high af®nity, but did not bind human leptin, or a selected range of other hormones and neurotransmitters known to affect food intake. In competition studies, the binding of mouse, but not human leptin to the human Ob-Rb receptor was prevented by the antibodies. This indicates that the antibodies can block the action of leptin by preventing its binding to the Ob-Rb receptor. Injection of the anti-leptin antibodies into the brain of lean rats led to an increase in food intake during the ®rst hour after injection which was not compensated during the following 19 h period. Injection of the anti-leptin antibodies did not affect food intake in Zucker fatty faafa rats which express an abnormal Ob-Rb receptor. CONCLUSION: Endogenous leptin acting within the brain plays a physiologically important role in the control of food intake in lean rats.
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