论文信息 - Synthesis and in vitro profile of a novel series of catechol benzimidazoles. The discovery of potent, selective phosphodiesterase type IV inhibitors with greatly attenuated affinity for the [3H]rolipram binding site

Synthesis and in vitro profile of a novel series of catechol benzimidazoles. The discovery of potent, selective phosphodiesterase type IV inhibitors with greatly attenuated affinity for the [3H]rolipram binding site

Abstract The synthesis and biological properties of a novel series of potent and selective phosphodiesterase type IV (PDE IV) inhibitors are described. These catechol benzimidazoles were designed from rolipram and initial compounds reflected a similarly high affinity for the [ 3 H]rolipram b binding site (500 to 1000X greater affinity for the [ 3 H]rolipram binding site over the PDE IV inhibitory site). However, SAR studies on the 3-alkoxy position revealed that this [ 3 H]rolipram binding site affinity could be attenuated, while potentiating the PDE IV inhibitory activity. This resulted in the 2-indanyl analog 13 which is a potent, selective PDE IV inhibitor with a 15X differential in favor of PDE IV binding.

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