UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The identification of an MCH R1 antagonist screening hit led to the optimization of a class of benzimidazole-based MCH R1 antagonists. Structure-activity relationships and efforts to optimize pharmacokinetic properties are detailed along with the demonstration of the effectiveness of an MCH R1 antagonist in an animal model of obesity.
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PMID:Novel benzimidazole-based MCH R1 antagonists. 1690 18

Obesity represents the most prevalent nutritional problem worldwide which in the long run predisposes to development of diabetes mellitus, hypertension, endometrial carcinoma, osteoarthritis, gall stones and cardiovascular diseases. Despite significant reductions in dietary fat consumption, the prevalence of obesity is on a rise and is taking on pandemic proportions. Obesity develops when energy intake exceeds energy expenditure over time. Recently, a close evolutionary relationship between the peripheral and hypothalamic neuropeptides has become apparent. The hypothalamus being the central feeding organ mediates regulation of short-term and long-term dietary intake via synthesis of various orexigenic and anorectic neuropeptides. The structure and function of many hypothalamic peptides (neuropeptide Y (NPY), melanocortins, agouti-related peptide (AGRP), cocaine and amphetamine regulated transcript (CART), melanin concentrating hormone (MCH), orexins have been characterized in rodent models The peripheral neuropeptides such as cholecystokinin (CCK), ghrelin, peptide YY (PYY3-36), amylin, bombesin regulate important gastrointestinal functions such as motility, secretion, absorption, provide feedback to the central nervous system on availability of nutrients and may play a part in regulating food intake. The pharmacological potential of several endogenous peripheral peptides released prior to, during and/or after feeding are being explored. Long-term regulation is provided by the main circulating hormones leptin and insulin. These systems implicated in hypothalamic appetite regulation provide potential targets for treatment of obesity which could potentially pass into clinical development in the next 5 years. This review summarizes various effects and interrelationship of these central and peripheral neuropeptides in metabolism, obesity and their potential role as targets for treatment of obesity.
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PMID:Role of neuropeptides in appetite regulation and obesity--a review. 1693 29

Since its discovery as the first receptor for the orexigenic neuropeptide melanin-concentrating hormone (MCH), the MCH receptor, MCHR1, has been actively pursued for therapeutic intervention in the treatment of obesity. Mice with targeted deletion of MCHR1 or its cognate ligand, MCH, generally have decreased body weight and fat mass and are resistant to diet-induced obesity compared with their wild-type counterparts. Mice treated via intracerebroventricular infusion with MCH, or that overexpress MCH or MCHR1, exhibit weight gain compared with control animals. MCHR1 is also a central target of leptin signaling and appears to be a mediator of insulin resistance. The distribution of MCH and MCHR1 in rat brain, outside of regions that control appetite and satiety, has led to the finding that MCH signaling participates in other functions such as emotion and stress. This review will describe in detail the biological studies that show how MCH and MCHR1 control numerous physiological functions. The current status of the development of MCHR1 antagonists for clinical use will also be assessed. Given the substantial link between obesity and its many associated afflictions, a single pharmaceutical agent that could be used to treat multiple pathologies would be welcome.
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PMID:Biological examination of melanin concentrating hormone receptor 1: multi-tasking from the hypothalamus. 1706 50

Palatability is one of the factors that regulates food and fluid intake and contributes to overconsumption in turn contributing to obesity. To elucidate the brain mechanisms of the palatability-induced ingestion, we explored the roles of six hypothalamic orexigenic neuropeptides, orexin, melanin-concentrating hormone (MCH), neuropeptide Y (NPY), agouti-related protein (AgRP), ghrelin and dynorphin, in the intake of a palatable solution, saccharin. Of the six peptides, intracerebroventricular (i.c.v.) administrations of orexin, MCH and NPY increased the intake of saccharin. Drinking of saccharin in turn elevated the mRNA levels of orexin and NPY, but not MCH. Pre-treatments of naloxone, an opioid antagonist, blocked the orexigenic effects of orexin and NPY. Specific gastric motor responses induced by central orexin-A and NPY are well known, however, MCH did not induce such responses. The i.c.v. administration of orexin-A facilitated gastric emptying. These results suggest that the overconsumption promoted by sweet and palatable tastes is attributed to the activation of orexigenic neuropeptides, such as orexin and NPY, and a downstream opioid system together with enhanced digestive functions.
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PMID:Involvement of specific orexigenic neuropeptides in sweetener-induced overconsumption in rats. 1701 Apr 51

Since its discovery as the first receptor for the orexigenic neuropeptide melanin-concentrating hormone (MCH), the MCH receptor, MCHR1, has been actively pursued for therapeutic intervention in the treatment of obesity. Mice with targeted deletion of MCHR1 or its cognate ligand, MCH, generally have decreased body weight and fat mass and are resistant to diet-induced obesity compared with their wild-type counterparts. Mice treated via intracerebroventricular infusion with MCH, or that overexpress MCH or MCHR1, exhibit weight gain compared with control animals. MCHR1 is also a central target of leptin signaling and appears to be a mediator of insulin resistance. The distribution of MCH and MCHR1 in rat brain, outside of regions that control appetite and satiety, has led to the finding that MCH signaling participates in other functions such as emotion and stress. This review will describe in detail the biological studies that show how MCH and MCHR1 control numerous physiological functions. The current status of the development of MCHR1 antagonists for clinical use will also be assessed. Given the substantial link between obesity and its many associated afflictions, a single pharmaceutical agent that could be used to treat multiple pathologies would be welcome.
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PMID:Biological examination of melanin concentrating hormone receptor 1: multi-tasking from the hypothalamus. 1694 Oct 49

The rising tide of obesity is one of the most pressing health issues of our time, yet existing medicines to combat the problem are disappointingly limited in number and effectiveness. Fortunately, a recent burgeoning of mechanistic insights into the neuroendocrine regulation of body weight provides an expanding list of molecular targets for novel, rationally designed antiobesity pharmaceuticals. In this review, we articulate a set of conceptual principles that we feel could help prioritize among these molecules in the development of obesity therapeutics, based on an understanding of energy homeostasis. We focus primarily on central targets, highlighting selected strategies to stimulate endogenous catabolic signals or inhibit anabolic signals. Examples of the former approach include methods to enhance central leptin signaling through intranasal leptin delivery, use of superpotent leptin-receptor agonists, and mechanisms to increase leptin sensitivity by manipulating SOCS-3, PTP-1B, ciliary neurotrophic factor, or simply by first losing weight with traditional interventions. Techniques to augment signaling by neurochemical mediators of leptin action that lie downstream of at least some levels of obesity-associated leptin resistance include activation of melanocortin receptors or 5-HT2C and 5-HT1B receptors. We also describe strategies to inhibit anabolic molecules, such as neuropeptide Y, melanin-concentrating hormone, ghrelin, and endocannabinoids. Modulation of gastrointestinal satiation and hunger signals is discussed as well. As scientists continue to provide fundamental insights into the mechanisms governing body weight, the future looks bright for development of new and better antiobesity medications to be used with diet and exercise to facilitate substantial weight loss.
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PMID:Emerging therapeutic strategies for obesity. 1712 57

The high expression of MCH in the hypothalamus with the lean hypophagic phenotype coupled with increased resting metabolic rate and resistance to high fat diet-induced obesity of MCH KO mice has spurred considerable efforts to develop small molecule MCHR1 antagonists. Starting from a lead thienopyrimidinone series, structure-activity studies at the 3- and 6-positions of the thienopyrimidinone core afforded potent and selective MCHR1 antagonists with representative examples having suitable pharmacokinetic properties. Based on structure-activity relationships, a structural model for MCHR1 was constructed to explain the binding mode of these antagonists. In general, a good correlation was observed between pKas and activity in the right-hand side of the template, with Asp123 playing an important role in the enhancement of binding affinity. A representative example when evaluated chronically in diet-induced obese mice resulted in good weight loss effects. These antagonists provide a viable lead series in the discovery of new therapies for the treatment of obesity.
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PMID:Potent, selective, and orally efficacious antagonists of melanin-concentrating hormone receptor 1. 1712 62

Genetic manipulation studies in mice at both the MCH receptor 1 (MCHR1) as well as the MCH peptide levels have implicated MCHR1 as a key player in energy homeostasis. The phenotype exhibited by these studies, that is, increased metabolic rate, resistance to high fat diet, and subsequent weight loss, has spurred considerable efforts to develop antagonists of MCHR1. In continuation of efforts directed toward this goal, the present work capitalizes on the putative binding mode of an MCH antagonist, resulting in the identification of several novel chemotypes that are potent and selective MCHR1 antagonists. In addition, the favorable pharmacokinetics of representative examples has allowed for the evaluation of an MCHR1 antagonist in a high fat diet-induced obese rodent model of obesity. The tolerability of the right-hand side of the template for diverse chemotypes accompanied by favorable effects on weight loss enhances the attractiveness of this template in the pursuit toward development of effective anti-obesity agents.
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PMID:6-(4-chlorophenyl)-3-substituted-thieno[3,2-d]pyrimidin-4(3H)-one-based melanin-concentrating hormone receptor 1 antagonist. 1712 63

Excessive weight gain is directly related to a positive energy balance which is due to both a decreased physical activity and overeating. Obesity prevalence is increasing since thirty years and the treatment of obesities is particularly necessary to solve this public health and economical problem. The receptors of numerous hypothalamic neuropeptides are potential targets for such drug treatments. Hormones of the gastro-intestinal tract or produced by the adipose tissue directly interact with these central pathways to regulate feeding behavior. The use of leptin, an adipose tissue hormone that inhibits food intake, has not been conclusive because of the development of leptin resistance in obese subjects. Similar disappointing results have been obtained with antagonists of neuropeptide Y (NPY), one of the most potent orexigenic peptide. This was linked to the complexity and redundancy of the circuits involved in feeding regulation. Consequently, a multitherapy targeting several pathways simultaneously is probably the best option to cure obesity. Among these pathways, PYY 3-36 has been tested in man and some encouraging data have been obtained in animals with antagonists of some other orexigenic peptides such as orexins and melanin-concentrating hormone. A few gene therapy trials in the rat brain have restored interest for the leptin and NPY pathways. Their general use is however not planed in a next future. According to the type of obesity, these new treatments might be associated with either current (or almost current) drugs acting either on serotoninergic/catecholaminergic or cannabinoid pathways, or with surgery. Behavioral changes (food intake, exercise) and preventive actions during early life (in utero, young children) will remain for a while the best solutions to limit overweight development. The new treatments will help obese people to adhere to these behavioral changes by improving their efficiency to induce weight loss.
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PMID:[Feeding regulatory peptides: hopes and limits for the treatment of obesities]. 1714 57

Following our report of a linkage at 12q24 with a phenotype of obesity under antipsychotics, we tested the pro-melanin-concentrating hormone (PMCH) candidate gene for a possible association in humans with the body mass index (BMI; kg/m2) in unrelated schizophrenic patients (SZ) receiving antipsychotics (N = 300) and in controls (CTL; N = 150). Subjects were classified in obese (OB) (BMI > or = 30 kg/m2), overweight (25 < or = BMI < 30 kg/m2), and normal weight (BMI < 25 kg/m2) groups. Single nucleotide polymorphisms (SNP) rs7973796 and rs11111201, located 5' at -4.5 kb and 3' at +1.8 kb, respectively, of PMCH were genotyped. Interaction effects of genotypes and antipsychotic treatment on BMI were tested in a covariance analysis with age and gender as covariates. Interaction effects on the prevalence of obesity were tested in a logistic regression analysis. For subjects under 50 years, the effect of the rs7973796 genotype on BMI differed between the SZ patients taking olanzapine and CTL group (interaction P = 0.025). Olanzapine-treated SZ patients carrying the ancestral homozygote genotype showed a higher BMI for rs7973796 (P = 0.016 with the LSMeans t-test) than the variant homozygotes. Accordingly, the ORs for obesity associated with rs7973796 genotypes differed in the SZ patients taking olanzapine compared to the CTL group (interaction P = 0.0094). The G allele was associated with an increase in the odds of obesity in SZ patients taking olanzapine. No association was observed for those over 50 years, or for rs11111201. These results suggest that the common allele of PMCH rs7973796 may be associated with a greater BMI in olanzapine-treated SZ patients.
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PMID:Possible association of the pro-melanin-concentrating hormone gene with a greater body mass index as a side effect of the antipsychotic olanzapine. 1754 84

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