Study of the inhibition of four alpha amylases by acarbose and its 4IV-alpha-maltohexaosyl and 4IV-alpha-maltododecaosyl analogues

Abstract

Acarbose analogues, 4IV-maltohexaosyl acarbose (G6-Aca) and 4IV-maltododecaosyl acarbose (G12-Aca), were prepared by the reaction of cyclomaltodextrin glucanyltransferase with cyclomaltohexaose and acarbose. The inhibition kinetics of acarbose and the two acarbose analogues were studied for four different alpha-amylases: Aspergillus oryzae, Bacillus amyloliquefaciens, human salivary, and porcine pancreatic alpha-amylases. The three inhibitors showed mixed, noncompetitive inhibition, for all four alpha-amylases. The acarbose inhibition constants, Ki, for the four alpha-amylases were 270, 13, 1.27, and 0.80 microM, respectively; the Ki values for G6-Aca were 33, 37, 14, and 7 nM, respectively; and the G12-Aca Ki constants were 59, 81, 18, and 11 nM, respectively. The G6-Aca and G12-Aca analogues are the most potent alpha-amylase inhibitors observed, with Ki values one to three orders of magnitude more potent than acarbose, which itself was one to three orders of magnitude more potent than other known alpha-amylase inhibitors.