Synthesis and evaluation of azaindole-alpha-alkyloxyphenylpropionic acid analogues as PPARalpha/gamma agonists

A series of azaindole-alpha-alkyloxyphenylpropionic acid analogues was synthesized and evaluated for PPAR agonist activities. Structure-activity relationship was developed for PPARalpha/gamma dual agonism. One of the synthesized compound 7a was identified as a potent, selective PPARalpha/gamma dual agonist.     

Pyridine-2-propanoic acids: Discovery of dual PPARalpha/gamma agonists as antidiabetic agents

A series of novel pyridine-2-propanoic acids was synthesized. A structure-activity relationship study of these compounds led to the identification of potent dual PPARalpha/gamma agonists with varied isoform selectivity. Based on the results of efficacy studies in diabetic (db/db) mice, and the desired pharmacokinetic parameters, compound (S)-13 was selected for further profiling.     

Conversion of human-selective PPARalpha agonists to human/mouse dual agonists: a molecular modeling analysis

To understand the species selectivity in a series of alpha-methyl-alpha-phenoxy carboxylic acid PPARalpha/gamma dual agonists (1-11), structure-based molecular modeling was carried out in the ligand binding pockets of both human and mouse PPARalpha. This study suggested that interaction of both 4-phenoxy and phenyloxazole substituents of these ligands with F272 and M279 in mouse PPARalpha leads to the species-specific divergence in ligand binding. Insights obtained in the molecular modeling studies of these key interactions resulted in the ability to convert a human-selective PPARalpha agonist to a human and mouse dual agonist within the same platform.     

Design, synthesis, and evaluation of novel aryl-tetrahydropyridine PPARalpha/gamma dual agonists

Aryl-tetrahydropyridine derivatives were prepared and their PPARalpha/gamma dual agonistic activities were evaluated. Among them, compound (S)-5b was identified as a potent PPARalpha/gamma dual agonist with an EC(50) of 1.73 and 0.64 microM in hPPARalpha and gamma, respectively. In diabetic (db/db) mice, compound (S)-5b showed good glucose lowering efficacy and favorable pharmacokinetic properties.     

Design, synthesis, and evaluation of 2-alkoxydihydrocinnamates as PPAR agonists

A series of 2-alkoxydihydrocinnamates were synthesized as PPARgamma and PPARalpha dual agonists. In vitro studies in cell model showed that these compounds were efficacious. Compound 1g was found to be a potent PPARalpha/gamma dual agonist and will be further evaluated for the treatment of type II diabetes.     

Amphipathic 3-phenyl-7-propylbenzisoxazoles; human pPaR gamma,delta and alpha agonists

A series of amphipathic 3-phenylbenzisoxazoles were found to be potent agonists of human PPARalpha, gamma and delta. The optimization of acid proximal structure for in vitro and in vivo potency is described. Results of po dosed efficacy studies in the db/db mouse model of type 2 diabetes showed efficacy equal or superior to Rosiglitazone in correcting hyperglycemia and hypertriglyceridemia. Good functional receptor selectivity for PPARalpha and gamma over PPARdelta can be obtained.     

Discovery of azetidinone acids as conformationally-constrained dual PPARalpha/gamma agonists

A novel class of azetidinone acid-derived dual PPARalpha/gamma agonists has been synthesized for the treatment of diabetes and dyslipidemia. The preferred stereochemistry in this series for binding and functional agonist activity against both PPARalpha and PPARgamma receptors was shown to be 3S,4S. Synthesis, in vitro and in vivo activities of compounds in this series are described. A high-yielding method for N-arylation of azetidinone esters is also described.     

Design, synthesis, and structure-activity relationship of carbamate-tethered aryl propanoic acids as novel PPARalpha/gamma dual agonists

We have developed a new class of PPARalpha/gamma dual agonists, which show excellent agonistic activity in PPARalpha/gamma transactivation assay. In particular, (R)-9d was identified as a potent PPARalpha/gamma dual agonist with EC(50)s of 0.377 microM in PPARalpha and 0.136 microM in PPARgamma, respectively. Interestingly, the structure-activity relationship revealed that the stereochemistry of the identified PPARalpha/gamma dual agonists significantly affects their agonistic activities in PPARalpha than in PPARgamma.     

Design and synthesis of oxime ethers of alpha-acyl-beta-phenylpropanoic acids as PPAR dual agonists

Oxime ethers of alpha-acyl-beta-phenylpropanoic acids were prepared to apply as PPARalpha and gamma dual agonists. Among them, compound 11l proved to exhibit potent in vitro activities with EC(50) of 19 and 13nM in PPARalpha and gamma, respectively. It showed better glucose lowering effects than rosiglitazone 1 and ameliorated the lipid profile like plasma triglyceride in db/db mice model.     

Design, synthesis, and structure-activity relationships of piperidine and dehydropiperidine carboxylic acids as novel, potent dual PPARalpha/gamma agonists

Several series of substituted dehydropiperidine and piperidine-4-carboxylic acid analogs have been designed and synthesized as novel, potent dual PPARalpha/gamma agonists. The SAR of these series of analogs is discussed. A rare double bond migration occurred during the basic hydrolysis of the alpha,beta-unsaturated dehydropiperidine esters 12, and the structures of the migration products were confirmed through a series of 2D NMR experiments.     

Discovery of tertiary aminoacids as dual PPARalpha/gamma agonists-I

A novel series of potent dual agonists of PPARalpha and PPARgamma, the alkoxybenzylglycines, was identified and explored using a solution-phase library approach. The synthesis and structure-activity relationships of this series of dual PPARalpha/gamma agonists are described.     

Dual PPARalpha /gamma activation provides enhanced improvement of insulin sensitivity and glycemic control in ZDF rats

Improvement of insulin sensitivity and lipid and glucose metabolism by coactivation of both nuclear peroxisome proliferator-activated receptor (PPAR)gamma and PPARalpha potentially provides beneficial effects over existing PPARgamma and alpha preferential drugs, respectively, in treatment of type 2 diabetes. We examined the effects of the dual PPARalpha/gamma agonist ragaglitazar on hyperglycemia and whole body insulin sensitivity in early and late diabetes stages in Zucker diabetic fatty (ZDF) rats and compared them with treatment with the PPARgamma preferential agonist rosiglitazone. Despite normalization of hyperglycemia and Hb A(1c) and reduction of plasma triglycerides by both compounds in both prevention and early intervention studies, ragaglitazar treatment resulted in overall reduced circulating insulin and improved insulin sensitivity to a greater extent than after treatment with rosiglitazone. In late-intervention therapy, ragaglitazar reduced Hb A(1c) by 2.3% compared with 1.1% by rosiglitazone. Improvement of insulin sensitivity caused by the dual PPARalpha/gamma agonist ragaglitazar seemed to have beneficial impact over that of the PPARgamma-preferential activator rosiglitazone on glycemic control in frankly diabetic ZDF rats.     

Pyridine-3-propanoic acids: Discovery of dual PPARalpha/gamma agonists as antidiabetic agents

A series of novel pyridine-3-propanoic acids was synthesized. A structure-activity relationship study of these compounds led to the identification of potent dual PPARalpha/gamma agonists with varied isoform selectivity. Based on the results of efficacy studies in diabetic (db/db) mice, and the desired pharmacokinetic parameters, compounds (S)-14 and (S)-19 were selected for further profiling.     

Design and synthesis of novel PPARalpha/gamma/delta triple activators using a known PPARalpha/gamma dual activator as structural template

Using a known dual PPARalpha/gamma activator (5) as a structural template, SAR evaluations led to the identification of triple PPARalpha/gamma/delta activators (18-20) with equal potency and efficacy on all three receptors. These compounds could become useful tools for studying the combined biological effects of PPARalpha/gamma/delta activation.     

Design and synthesis of novel oxazole containing 1,3-dioxane-2-carboxylic acid derivatives as PPAR alpha/gamma dual agonists

A few novel 1,3-dioxane carboxylic acid derivatives were designed and synthesized to aid in the characterization of PPAR alpha/gamma dual agonists. Structural requirements for PPARalpha/gamma dual agonism of 1,3-dioxane carboxylic acid derivatives included the structural similarity with potent glitazones in fibric acid chemotype. The compounds with this pharmacophore and substituted oxazole as a lipophilic heterocyclic tail were synthesized and evaluated for their in vitro PPAR agonistic potential and in vivo hypoglycemic and hypolipidemic efficacy in animal models. Lead compound 2-methyl-c-5-[4-(5-methyl-2-(4-methylphenyl)-oxazol-4-ylmethoxy)-benzyl]-1,3-dioxane-r-2-carboxylic acid 13b exhibited potent hypoglycemic, hypolipidemic and insulin sensitizing effects in db/db mice and Zucker fa/fa rats.     

Discovery of a highly orally bioavailable c-5-[6-(4-Methanesulfonyloxyphenyl)hexyl]-2-methyl-1,3-dioxane-r-2-carboxylic acid as a potent hypoglycemic and hypolipidemic agent

A series of novel 1,3-dioxane-2-carboxylic acid derivatives containing alkyl chain tether and substituted phenyl group as a lipophilic tail have been prepared as agonists of PPARalpha and gamma. c-5-[6-(4-Methanesulfonyloxyphenyl)hexyl]-2-methyl-1,3-dioxane-r-2-carboxylic acid 13c exhibited potent hypoglycemic and lipid lowering activity with high oral bioavailability in animal models.     

Structure-based design of indole propionic acids as novel PPARalpha/gamma co-agonists

In the quest for novel PPARalpha/gamma co-agonists as putative drugs for the treatment of type 2 diabetes and dyslipidemia, we have used a structure-based design approach to identify propionic acids with a 1,5-disubstituted indole scaffold as potent PPARalpha/gamma activators. Compounds 13, 24, and 28 are examples of submicromolar dual agonists with different alpha/gamma EC50 ratios that are selective against the delta-isoform. Analysis of the X-ray complex structure of PPARgamma with the indole propionic acid 13 provides a rationalization for some of the observed SAR.     

Design, synthesis, and evaluation of potent, structurally novel peroxisome proliferator-activated receptor (PPAR) delta-selective agonists

A series of 3-(4-alkoxyphenyl)propanoic acid derivatives was prepared as candidate peroxisome proliferator-activated receptor (PPAR) delta-selective agonists, based on our previously discovered potent human PPARalpha/delta dual agonist TIPP-401 as a lead compound. Structure-activity relationship studies clearly indicated the importance of the chain length of the alkoxy group at the 4-position, and the n-butoxy compound exhibited the most potent PPARdelta transactivation activity and highest PPARdelta selectivity. The (S)-enantiomer of a representative compound exhibited extremely potent PPARdelta transactivation activity, comparable with or somewhat superior to that of the known PPARdelta-selective agonist, GW-501516. The representative compound regulated the expression of genes involved in lipid and glucose homeostasis, and should be useful not only as a chemical tool to study PPARdelta function, but also as a candidate drug for the treatment of metabolic syndrome.