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ID: ALA5038656
Journal: J Med Chem
Title: 5-C-Branched Deoxynojirimycin: Strategy for Designing a 1-Deoxynojirimycin-Based Pharmacological Chaperone with a Nanomolar Affinity for Pompe Disease.
Authors: Kato A, Nakagome I, Kanekiyo U, Lu TT, Li YX, Yoshimura K, Kishida M, Shinzawa K, Yoshida T, Tanaka N, Jia YM, Nash RJ, Fleet GWJ, Yu CY.
Abstract: In recent years, the function of pharmacological chaperones as a "thermodynamic stabilizer" has been attracting attention in combination therapy. The coadministration of a pharmacological chaperone and recombinant human acid α-glucosidase (rhGAA) leads to improved stability and maturation by binding to the folded state of the rhGAA and thereby promotes enzyme delivery. This study provides the first example of a strategy to design a high-affinity ligand toward lysosomal acid α-glucosidase (GAA) focusing on alkyl branches on 1-deoxynojirimycin (DNJ); 5-C-heptyl-DNJ produced a nanomolar affinity for GAA with a Ki value of 0.0047 μM, which is 13-fold more potent than DNJ. The protein thermal shift assay revealed that 10 μM 5-C-heptyl-DNJ increased the midpoint of the protein denaturation temperature (Tm) to 73.6 °C from 58.6 °C in the absence of the ligand, significantly improving the thermal stability of rhGAA. Furthermore, 5-C-heptyl-DNJ dose dependency increased intracellular GAA activities in Pompe patient's fibroblasts with the M519V mutation. The introduction of C5 alkyl branches on DNJ provides a new molecular strategy for pharmacological chaperone therapy for Pompe disease, which may lead to the development of higher-affinity and practically useful chaperones.
CiteXplore: 35072486