AIM: Although melanin-concentrating hormone (MCH) is believed to be an important regulator of feeding behavior, both its acute and chronic effects on food intake as well as its interaction with other brain peptides involved in the control of appetite remain unclear. Therefore, the acute effects of MCH on food intake and the chronic effect of MCH on food intake and the gene expression of various hypothalamic peptides involved in the control of appetite were studied in rats. METHODS AND RESULTS: Either the acute or the continuous intraventricular infusion of MCH for 12 days stimulated feeding in both Wistar or Sprague -Dawley rats. Removal of the hypothalamus at the end of the chronic infusion studies allowed measurement of the expression of mRNAs encoding for MCH, neuropeptide Y (NPY), orexin, agouti gene-related peptide, cocaine and amphetamine-related transcript and neurotensin -neuropeptides involved in the control of appetite. Chronic intraventricular infusion of MCH activated only NPY mRNA synthesis in Sprague -Dawley rats. The increase in food intake in response to MCH in Sprague -Dawley rats did not appear to be due to the release of NPY since combination studies demonstrated consistently additive effects of the two peptides on food intake at maximum or near maximum doses. CONCLUSIONS: These results strongly suggest that MCH is an orexigenic peptide involved in the control of both short-and long term food intake in satiated rats and further indicate that the MCH pathway is a possible target for the control of food intake and obesity.
AIM:The aim of this review is to critically assess available evidence that blockade of the actions of NPY at one of the five NPY receptor subtypes represents an attractive new drug discovery target for the development of an appetite suppressant drug. RESULTS: Blockade of the central actions of NPY using anti-NPY antibodies, antisense oligodeoxynucleotides against NPY and NPY receptor antagonists results in a decrease in food intake in energy-deprived animals. These results appear to show that endogenous NPY plays a role in the control of appetite. The fact that NPY receptors exist as at least five different subtypes raises the possibility that the actions of endogenous NPY on food intake can be adequately dissociated from other effects of the peptide. Current drug discovery has produced a number of highly selective NPY receptor antagonists which have been used to establish the NPY Y 1 receptor subtype as the most critical in regulating short-term food intake. However, additional studies are now needed to more clearly define the relative contribution of NPY acting through the NPY Y 2 and NPY Y 5 receptors in the complex sequence of physiological and behavioral events that underlie the long-term control of appetite. CONCLUSIONS: Blockade of the NPY receptor may produce appetite-suppressing drugs. However, it is too early to state with certainty whether a single subtype selective drug used alone or a combination of NPY receptor selective antagonists used in combination will be necessary to adequately influence appetite regulation.
AIM: These studies were performed to test the hypothesis that endogenous neuropeptide Y (NPY) acting on the NPY Y 5 receptor subtype contributes to the control of food intake. The hypothesis was tested using S 25585Fa newly synthesized NPY Y 5 receptor antagonist. METHODS AND RESULTS: S 25585 was shown to be a high-affinity antagonist of the NPY Y 5 receptor subtype (IC 50 5 nM) with no significant affinity toward other NPY receptor subtypes and over 40 other receptors, channels or uptake systems. S 25585 (7.5 mg/kg, i.p.) did not induce a conditioned taste aversion, significantly alter need-induced sodium appetite or induce pica, suggesting that at this dose the compound did not induce illness or malaise. In satiated rats, S 25585 (5.0 and 7.5 mg/kg, i.p.) significantly decreased the overfeeding induced by i.c.v. injection of NPY (1 mg) and the highly selective NPY Y 5 receptor agonist [hPP 1À17 , Ala 31 , Aib 32 ]NPY (0.7 mg). In rats fasted for 4 h immediately before the dark phase, analysis of the microstructure of feeding behavior revealed that S 25585 significantly increased latency to eat and significantly decreased the duration and size of the meals without altering the meal number or eating rate. Analysis of the behavioral satiety sequence at this time revealed that the animals passed through the normal pattern of feeding, grooming and resting. Although S 25585 appeared to be influencing a physiological system controlling appetite, this does not involve the NPY Y 5 receptor since the antagonist also markedly reduced food intake in the NPY Y 5 knockout mouse. CONCLUSIONS:The results presented do not support a role for the NPY Y 5 receptor in the control of food intake. The results further illustrate that it is imperative that the activity of any new NPY Y 5 antagonist be assessed in the NPY Y 5 knockout mouse before assuming that its effect on food intake is due to blockade of this receptor.
A new oral agent, S15261 (the L-isomer of 3-[2-[2-[4-[2-[alpha-fluorenyl acetyl amino ethyl] benzoyloxy] ethyl amino] 1-methoxy ethyl] trifluoromethyl-benzene), has been developed for the treatment of the so-called "insulin resistance syndrome". In obese, insulin-resistant ageing Sprague-Dawley rats, chronic treatment with S15261 (0.5-2.5 mg.kg-1.day-1 twice per day, for 14 days) resulted in dose-dependent decreases in plasma insulin (43%), and triglyceride levels (36%), and in an increase of the glucose disposal rate during an intravenous glucose tolerance test (IVGTT) (48.5%). An increase in peripheral insulin sensitivity produced by S15261 was revealed by the glucose clamp technique. Thus, the glucose infusion rate was increased by 20% whilst steady-state insulin levels decreased by 15%. At the higher doses S15261 led to a decrease in body weight (3%), plasma glucose (13%) and blood pressure (8 mm Hg) in mildly hypertensive animals. At the doses used to achieve these results, the compound has no hypoglycaemic activity in normoglycaemic animals. Acute administration of S15261 directly into the portal vein provoked a marked increase in glucose disappearance rate during an intravenous glucose tolerance test (60%) and also in the pancreatic response to the glucose challenge. Thus, acute administration of the compound has a direct effect on glucose metabolism. These data suggest that S15261 could be a useful agent for the treatment of the insulin resistance syndrome.
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