Identification of a dual δ OR antagonist/μ OR agonist as a potential therapeutic for diarrhea-predominant Irritable Bowel Syndrome (IBS-d).

A small set of acyclic analogs 5 were prepared to explore their structure-activity relationships (SARs) relative to heterocyclic core, opioid receptor (OR) agonists 4. Compound 5l was found to have very favorable OR binding affinities at the δ and μ ORs (r K(i) δ=1.3 nM; r K(i) μ=0.

Triazinediones as prokineticin 1 receptor antagonists. Part 1: SAR, synthesis and biological evaluation.

A series of guanidine triazinediones were identified as potent PK1 receptor antagonists. A compound in this series inhibited the PK1 invoked prosecretory response in rat ileum tissue.

Synthesis and SAR of pyridazinone-substituted phenylalanine amide alpha4 integrin antagonists.

Structural modification and cellular adhesion inhibition activities of pyridazinone-substituted phenylalanine amide alpha(4) integrin antagonists are described. Functionality requirements for the arylamide moiety and the carboxylic acid group were demonstrated. The study also revealed novel structure-activity relationships (SAR) for arylated pyridazinones.

Synthesis and biological evaluation of novel pyridazinone-based alpha4 integrin receptor antagonists.

A novel series of pyridazinone-functionalized phenylalanine analogues was prepared and evaluated for inhibition of cellular adhesion mediated by alpha4beta1/VCAM-1 and alpha4beta7/MAdCAM-1 interactions. Concise syntheses were developed and applied for exploration of structure-activity relationships pertaining to the pyridazinone ring as well as the N-acyl phenylalanine scaffold. Potent dual antagonists of alpha4beta1 and alpha4beta7 were generated from an amide subseries; antagonists selective for alpha4beta7 were identified from urea and carbamate-based subseries.

Identification of potent phenyl imidazoles as opioid receptor agonists.

Using previously reported opioid receptor (OR) agonist analogs 4a-c as starting points, the structure-activity relationship (SAR) for their related series has been further refined. This SAR study has led to the identification of 2,6-di-Me-Tyr (DMT) analogs 4h and 4j as the most potent OR agonist within the series. In addition, it was discovered that 4-(aminocarbonyl)-2,6-dimethyl-Phe is a reasonable bioisostere surrogate for the DMT moiety, as supported by the OR activities of compounds 4x and 4y.