SG Blanchard scite author profile

The murine agouti gene encodes for a novel 131 amino acid protein. The sequence includes a 22 residue putative secretion signal, an internal basic region, and a C-terminal domain containing 10 cysteines. Agouti has been found to antagonize the binding of certain pro-opiomelanocortin peptides, such as alpha-melanocyte stimulating hormone (alpha-MSH), to the murine melanocortin-1 receptor (MC1-R). We report the purification of a secreted murine agouti to homogeneity by a two-step procedure from baculovirus-infected Trichoplusia ni (T. ni). The protein is glycosylated and exhibits competitive, high-affinity antagonism (Ki = 0.8 nM) versus alpha-MSH in cell-based assays employing B16F10 cells. Association state analysis by analytical ultracentrifugation reveals that agouti exists in a monomer--dimer plus aggregate equilibrium at low micromolar concentrations. Data from secondary structure studies indicate that the protein is highly stable to thermal denaturation. Enzymatic digestion to probe disulfide bond arrangement yielded a discrete C-terminal (Val 83-Cys 131) domain. The isolated highly cysteine-rich C-terminal domain retains alpha-MSH antagonism equipotent with mature agouti. This bioactive domain contains all 10 cysteines which exhibit sequence homology when aligned with several conotoxins.

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N-(2-Benzoylphenyl)-l-tyrosine PPARγ Agonists. 2. Structure−Activity Relationship and Optimization of the Phenyl Alkyl Ether Moiety

Blanchard

et al. 1998

J. Med. Chem.

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We previously reported the identification of (2S)-((2-benzoylphenyl)amino)-3-¿4-[2-(5-methyl-2-phenyloxazol-4-y l)e thoxy]phenyl¿propanoic acid (2) (PPARgamma pKi = 8.94, PPARgamma pEC50 = 9.47) as a potent and selective PPARgamma agonist. We now report the expanded structure-activity relationship around the phenyl alkyl ether moiety by pursuing both a classical medicinal chemistry approach and a solid-phase chemistry approach for analogue synthesis. The solution-phase strategy focused on evaluating the effects of oxazole and phenyl ring replacements of the 2-(5-methyl-2-phenyloxazol-4-yl)ethyl side chain of 2 with several replacements providing potent and selective PPARgamma agonists with improved aqueous solubility. Specifically, replacement of the phenyl ring of the phenyloxazole moiety with a 4-pyridyl group to give 2(S)-((2-benzoylphenyl)amino)-3-¿4-[2-(5-methyl-2-pyridin-4-yloxazol+ ++- 4-yl)ethoxy]phenyl¿propionic acid (16) (PPARgamma pKi = 8.85, PPARgamma pEC50 = 8.74) or a 4-methylpiperazine to give 2(S)-((2-benzoylphenyl)amino)-3-(4-¿2-[5-methyl-2-(4-methylpiperazin+ ++- 1-yl)thiazol-4-yl]ethoxy¿phenyl)propionic acid (24) (PPARgamma pKi = 8.66, PPARgamma pEC50 = 8.89) provided two potent and selective PPARgamma agonists with increased solubility in pH 7.4 phosphate buffer and simulated gastric fluid as compared to 2. The second strategy took advantage of the speed and ease of parallel solid-phase analogue synthesis to generate a more diverse set of phenyl alkyl ethers which led to the identification of a number of novel, high-affinity PPARgamma ligands (PPARgamma pKi's 6.98-8.03). The combined structure-activity data derived from the two strategies provide valuable insight on the requirements for PPARgamma binding, functional activity, selectivity, and aqueous solubility.

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Effects of a potent melanocortin agonist on the diabetic/obese phenotype in yellow mice

et al. 1998

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OBJECTIVE: To test the hypothesis that a melanocortin agonist can reverse obesity and insulin resistance in mice overexpressing the agouti protein. EXPERIMENTAL MODEL: Mice overexpressing the agouti protein either by transgene introduction (b b-actin promotor) or by mutation (A y ). DESIGN: NDPMSH was tested for pharmacokinetic suitability. NDPMSH at various doses was administered subcutaneously twice a day for 2 ± 3 weeks. MEASUREMENTS: Fur pigmentation, various fatness parameters (core temperature, fat pad weight and body weight), blood glucose and hormones, fatty acid synthase measurement. RESULTS: NDPMSH caused fur pigmentation and core temperature changes, but failed to affect any metabolic parameters in agouti-dependent manner. CONCLUSION: NDPMSH, as a representation melanocortin agonist, does not compete with agouti in reversing agoutidependent metabolic effects. This suggests that 1) agouti works via a receptor other than a melanocortin receptor to mediate its metabolic effects, 2) agouti-dependent metabolic effects are mediated through melanocortin receptors but not via antagonism of these receptors, or 3) NDPMSH is pharmacodynamically an inappropriate molecule for these types of studies.

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SG Blanchard

Agouti structure and function: characterization of a potent .alpha.-melanocyte stimulating hormone receptor antagonist

N-(2-Benzoylphenyl)-l-tyrosine PPARγ Agonists. 2. Structure−Activity Relationship and Optimization of the Phenyl Alkyl Ether Moiety

Effects of a potent melanocortin agonist on the diabetic/obese phenotype in yellow mice

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