There is a continuing demand of new inhibitors of HIV-1 Integrase (HIV-1 IN) due to mutations of HIV-1. This study aims to develop the synthesis of 3,6-diaryl 7-azaindoles and introspect the role of aryl groups on the strand transfer (ST) inhibition of HIV-1 IN. An efficient and chemo-selective one-pot method is established for the synthesis of the unexplored diverse C3 → C6 diaryl 7-azaindoles starting from 6-chloro-3-iodo--protected 7-azaindoles. Here we report Pddba/SPhos catalyzed synthesis of eight selective C3 monoaryl 7-azaindoles (-) and eight C3,C6-diaryl 7-azaindoles (-, ) with yields in the ranges of 67-93% and 43-88% respectively. The synthesized derivatives inhibit the strand transfer (ST) activity of HIV-1 IN enzyme at 10 μM dose with and exhibiting %ST inhibitions of 72% and 71%, respectively. SAR studies indicate the para-substitution on the C3 aryl ring and C6 aryl is essential for enhanced %ST inhibition. ,, -, and showed lower cytotoxicity (IC > 200 μM) against TZM-bl cells. Molecular docking of the diaryl 7-azaindoles and Raltegravir (), to the PFV-integrase revealed favorable binding interactions.
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| http://dx.doi.org/10.1021/acsomega.2c07372 | DOI Listing |
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