MCH-R1 Antagonist GPS18169, a Pseudopeptide, Is a Peripheral Anti-Obesity Agent in Mice.

Melanin-concentrating hormone (MCH) is a 19 amino acid long peptide found in the brain of animals, including fishes, batrachians, and mammals. MCH is implicated in appetite and/or energy homeostasis. Antagonists at its receptor (MCH-R1) could be major tools (or ultimately drugs) to understand the mechanism of MCH action and to fight the obesity syndrome that is a worldwide societal health problem. Ever since the deorphanisation of the MCH receptor, we cloned, expressed, and characterized the receptor MCH-R1 and started a vast medicinal chemistry program aiming at the discovery of such usable compounds. In the present final work, we describe GPS18169, a pseudopeptide antagonist at the MCH-R1 receptor with an affinity in the nanomolar range and a Ki for its antagonistic effect in the 20 picomolar range. Its metabolic stability is rather ameliorated compared to its initial parent compound, the antagonist S38151. We tested it in an in vivo experiment using high diet mice. GPS18169 was found to be active in limiting the accumulation of adipose tissues and, correlatively, we observed a normalization of the insulin level in the treated animals, while no change in food or water consumption was observed.

The human plasma-metabolome: Reference values in 800 French healthy volunteers; impact of cholesterol, gender and age.

Metabolomic approaches are increasingly used to identify new disease biomarkers, yet normal values of many plasma metabolites remain poorly defined. The aim of this study was to define the "normal" metabolome in healthy volunteers. We included 800 French volunteers aged between 18 and 86, equally distributed according to sex, free of any medication and considered healthy on the basis of their medical history, clinical examination and standard laboratory tests. We quantified 185 plasma metabolites, including amino acids, biogenic amines, acylcarnitines, phosphatidylcholines, sphingomyelins and hexose, using tandem mass spectrometry with the Biocrates AbsoluteIDQ p180 kit. Principal components analysis was applied to identify the main factors responsible for metabolome variability and orthogonal projection to latent structures analysis was employed to confirm the observed patterns and identify pattern-related metabolites. We established a plasma metabolite reference dataset for 144/185 metabolites. Total blood cholesterol, gender and age were identified as the principal factors explaining metabolome variability. High total blood cholesterol levels were associated with higher plasma sphingomyelins and phosphatidylcholines concentrations. Compared to women, men had higher concentrations of creatinine, branched-chain amino acids and lysophosphatidylcholines, and lower concentrations of sphingomyelins and phosphatidylcholines. Elderly healthy subjects had higher sphingomyelins and phosphatidylcholines plasma levels than young subjects. We established reference human metabolome values in a large and well-defined population of French healthy volunteers. This study provides an essential baseline for defining the "normal" metabolome and its main sources of variation.

Prevalence of factor V Leiden and prothrombin G20210A mutation in a large French population selected for nonthrombotic history: geographical and age distribution.

Among inherited risk factors for venous thrombosis, the most common are the FV-G1691A and FII-G20210A polymorphisms. The FV-G1691A polymorphism is preferentially observed in Europe, with differences between European countries. The FII-G20210A polymorphism is observed all over the world. The study was designed to compare the prevalence of the FV-G1691A and FII-G20210A polymorphisms in a large French population of unrelated individuals with no thrombotic disease history and to determine the age and geographical distributions. Over a period of 18 months, 6154 individuals were included throughout France and FV-G1691A and FII-G20210A polymorphisms were determined. The FV-G1691A prevalence was 3.84% (95% confidence interval 3.35-4.33) and the FII-G20210A prevalence was 3.07% (95% CI 2.63-3.51). A north-east/south-west gradient was observed in the FV-G1691A geographical distribution. No difference was observed in the geographical distribution of FII-G20210A polymorphism nor in the age distribution of the two polymorphisms. The prevalence of the two polymorphisms was similar whatever the blood group (O or non-O). Plasma D-dimers were significantly higher in healthy individuals with FV-G1691A but not in individuals with FII-G20210A. Thirty percent of variation in plasma prothrombin level was explained by environmental factors (serum cholesterol, age, oral contraception, hormonal replacement therapy, body mass index, sex) and genetic factors (FII-G20210A). As expected, individuals with FII-G20210A displayed higher plasma prothrombin level compared with individuals with wild type. However, this was not associated with a modification of the fibrin clot elastic modulus. This study shows a differential distribution of the two polymorphisms among the French territory. These polymorphisms confer a very mild hypercoagulable state as shown by the limited increased in basal D-dimers in mutated FV-G1691A populations and only a trend that does not reach statistical significance for FII-G20210A population.

[Targets of antithrombotic drugs]. / Cibles des médicaments antithrombotiques.

New antithrombotic agents are being developed not only to improve efficacy, but also to increase safety in comparison with widely used conventional agents such as the oral anticoagulants. New anticoagulant, antiplatelet, and profibrinolytic compounds are currently under study in drug development programs, and most of those in phase II or III of development are derived from the observation of natural phenomena and merely mimic processes developed by mammalians, including humans, to avoid thrombosis, or by blood-sucking insects or animals to prevent coagulation of the blood their are feeding on. By contrast, drug candidates identified by means of rigorous research and designed to target new pathways and achieve direct and specific inhibition of factors that are presumed to play an important role in thrombogenesis have generally failed to show any benefit and sometimes even induce deleterious effects. The clinical development of new drugs, even those mimicking natural phenomena, improves our knowledge of the pathogenesis of thrombosis and sheds light, retrospectively, on previous conceptual errors. The improvement in our basic knowledge and the development of new types of drugs suggest that, in contrast to the current antithrombotic compounds that are used in a broad range of clinical settings, use of new drugs should be restricted to specific situations in which their mechanisms of action are predicted to deliver the highest medical benefit. A major obstacle resides in the fact that current drug development programs are still required to comply with long obsolete guidelines based on the characteristics of first-generation antithrombotic agents, and that do not take into account the specific mechanisms of action of new drugs. This situation should change, however, and new antithrombotic drugs should soon be able to benefit from adapted development programs that will make it possible to determine their optimal risk-benefit ratio.

Association between a genomic polymorphism within the CD14 locus and septic shock susceptibility and mortality rate.

OBJECTIVE: Genetic differences in immune responses may affect susceptibility to and outcome of septic shock. CD14 seems to be an important part of the innate immune system, initiating antimicrobial response. We evaluated the frequency of a recently discovered CD14 promoter gene polymorphism (C to T transition at base pair -159) among patients with septic shock compared with those in a control group. DESIGN: Multiple-center study. SETTING: Hospital research department. PATIENTS: Ninety consecutive white patients with septic shock were included. The control group consisted of 122 age- and gender-matched white subjects. INTERVENTIONS: In both groups, the C-159T CD14 promoter genetic polymorphism was determined by using polymerase chain reaction and subsequent Hae III restriction enzyme digestion of the polymerase chain reaction products. MEASUREMENTS AND MAIN RESULTS: The C-159T polymorphism and the TT genotype were significantly overrepresented among septic shock patients compared with controls. Within the septic shock group, the mortality of patients with TT genotype (71%) was significantly higher than in patients with other genotypes (48%; Pearson chi-square, p =.008). In a multiple logistic regression model, the TT genotype was independently associated with an increased relative risk of death (odds ratio, 5.30; 95% confidence interval, 1.20-22.50, p =.02). CONCLUSIONS: The C-159T polymorphism affects susceptibility to septic shock and seems to be a new genetic risk factor for death.