A convenient synthesis of novel pyranosyl homo-C-nucleosides and their antidiabetic activities

A series of pyranosyl homo-C-nucleosides have been synthesized by reaction of butenonyl C-glycosides ( 5a– 5j, and 8) and cyanoacetamide in presence of t-BuOK followed by further modifications. The reaction proceeds by Michael addition of cyanoacetamide to the butenonyl C-glycosides and subsequent dehydrative cyclization and oxidative aromatization to give glycosylmethyl pyridones ( 6a– 6j, 7a– 7j, 9, and 10). The glycosylmethyl pyridones ( 6a– 6e) on reaction with POCl 3 under reflux gave respective glycosylmethyl pyridines ( 11a– 11e and 12a– 12e) in good yields. The synthesized compounds were screened for their in vitro α-glucosidase, glucose-6-phosphatase and glycogen phosphorylase inhibitory activities. One of the pyridylmethyl homo-C-nucleoside, compound 11d, displayed 52% inhibition of glucose-6-phosphatase as compared to the standard drug sodium orthovanadate while compound 12a showed a significant antihyperglycemic effect of 17.1% in the diabetic rats as compared to the standard drug metformin.