As part of a program to explore structure-activity relationships for the extremely tight binding inhibition characteristics of coformycins to adenosine deaminase, a series of analogues (1a-1h) containing the imidazo[4,5-e][1,2,4]triazepine ring system has been synthesized and screened in vitro against a mammalian adenosine deaminase for inhibitory activity. While compounds 1a and 1b were synthesized in five steps starting from 4-nitroimidazole, others were derived from 1a through simple exchange reactions with the appropriate alcohols. The observed kinetics profiles and K(i) values suggest that the target compounds are competitive inhibitors that bind 6-9 orders of magnitude less tightly to the enzyme. Compounds 1c and 1d were the most active in the series with K(i)'s ranging from 12 to 15 microM.
Synthesis and adenosine deaminase (ADA) inhibitory activity of two analogues of coformycin, containing the imidazo[4,5-e][1,2,4]triazepine ring system, have been reported as part of the structure-activity relationship (SAR) studies to explore the factors responsible for the extremely tight-binding characteristics of coformycins to ADA.
With the goal of identifying small molecule modulators of protein-protein interactions, we developed a solid-phase synthesis method, which was then successfully utilized in a library generation of 164 aminoindoline-derived, natural-product-like compounds. This library and several other related intermediates synthesized during this project were then subjected to different biological assays in search of small molecule modulators of focal adhesion kinase (FAK)-mediated signaling pathways. This study included (i) an in vitro, full length FAK inhibition assay, (ii) a cell proliferation assay, and (iii) a wound healing assay. In FAK inhibition assay, eight library members (5-12) and three aminoindoline derivatives (13, 14, and 2) were identified as promising candidates. Compounds 13 and 2 inhibited the FAK activity by 25-45% at 10 microM. These two lead compounds also showed activity in a wound healing assay. To our knowledge, these aminoindoline-derived small molecules belong to a new family of FAK inhibitors.
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