The h-NTPDases is an essential family of ectonucleotidases that consists of eight isozymes with various physiological functions. The undesired activity of the h-NTPDases leads to pathological conditions such as cancer, diabetes, inflammation, and thrombosis. In the present study, a series of thienopyrimidines was synthesized employing a sequential SNAr and Suzuki coupling to synthesize diverse aryl substituted thienopyrimidine glycinate derivatives. The synthesized compounds constituted electron donating, electron-deficient, heteroaryl, and fluorinated substituents. The thienopyrimidines were screened against h-NTPDases to determine the effect on the activity of the h-NTPDases-1, -2, -3, and -8. The compound 3j selectively blocked the isozyme h-NTPDases1, while the compounds 3e, 3m, and 4a were selective inhibitors of h-NTPDases2. The activity of the isozyme h-NTPDases3 was selectively reduced by inhibitor 3k whereas, the compound 3d was found as the most active inhibitor against isozyme h-NTPDase8. The molecular docking study interpreted the interactions of the potent inhibitors of the respective isozymes with important amino acid residues i.e., Asp54, Ser57, His59, Ser58, His59, Asp213, and Phe360 of h-NTPDases1 protein; residues Arg 392, Ala393, Ala347, Tye350 and Arg245 of h-NTPDases2; amino acids Arg67, Ser65, Ala323, Gly222, and Tyr375 of h-NTPDases3 whereas in case of h-NTPDases8, the residues Val436, Gln74, Gly179, and Val71 were involved in interaction with the inhibitors docked into the active sites of these isozymes.
Keywords: Human nucleoside triphosphate diphosphohydrolases (h-NTPDases); Molecular docking studies; Structure-activity relationship; Suzuki coupling; Thienopyrimidine.
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