Structural basis of pharmacological chaperoning for human Î²-galactosidase.

[gm1 gangliosidosis]

GM 1 gangliosidosis and Morquio B disease are autosomal recessive diseases caused by the defect in the lysosomal Î²-galactosidase (Î²-Gal ), frequently related to misfolding and subsequent endoplasmic reticulum-associated degradation . Pharmacological chaperone (PC ) therapy is a newly developed molecular therapeutic approach by using small molecule ligands of the mutant enzyme that are able to promote the correct folding and prevent endoplasmic reticulum-associated degradation and promote trafficking to the lysosome . In this report , we describe the enzymological properties of purified recombinant human Î²-Gal (WT ) and two representative mutations in GM 1 gangliosidosis Japanese patients , Î²-Gal (R 201 C ) and Î²-Gal (I 51 T ). We have also evaluated the PC effect of two competitive inhibitors of Î²-Gal . Moreover , we provide a detailed atomic view of the recognition mechanism of these compounds in comparison with two structurally related analogues . All compounds bind to the active site of Î²-Gal with the sugar-mimicking moiety making hydrogen bonds to active site residues . Moreover , the binding affinity , the enzyme selectivity , and the PC potential are strongly affected by the mono- or bicyclic structure of the core as well as the orientation , nature , and length of the exocyclic substituent . These results provide understanding on the mechanism of action of Î²-Gal selective chaperoning by newly developed PC compounds .

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Diseases presenting "newly developed molecular therapeutic approach" symptom

gm1 gangliosidosis

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