Abstract
Fabry disease is an X-linked lysosomal storage disorder caused by the deficiency of the enzyme, α-galactosidase A that induces the accumulation of the substrate globotriaosylceramide. Currently approved enzyme replacement therapy using recombinant human α-galactosidase A improves patient symptoms but a majority of patients experience adverse events due to the multiple infusions required for full therapeutic efficacy. Our approach is to use medicinal chemistry and phylogenic comparisons to introduce mutations into the human enzyme to increase catalytic activity and/or stability to generate an improved therapeutic enzyme that may require fewer infusions. We designed mutations at three regions of the human α-galactosidase A: the active site, the dimer interface, and a site for glycosylation. The M208E mutation, adjacent to the Y207 active site residue, increased enzyme activity 3.01-fold. This mutation introduced a charged Glu residue that is adjacent to the Y207 active site residue and close to a site of N-glycosylation. The W277C mutation, designed to promote dimer stability, introduced a strong thiol-aromatic interaction (Cys-Phe) at the dimer interface and increased activity 2.31-fold. The W277C and M208E mutations modify the structure of the enzyme into forms with enhanced thermal stability 3.7- and 3.9-fold, respectively and positive cooperativity resulting in increased Hill coefficient from 1.0 to 4.60 and 3.47, respectively. Enhanced thermal stability and positive cooperativity predict improved in vivo activity and superior therapeutic properties. Our results demonstrate the value of in vitro mutagenesis for α-galactosidase A and support future perspectives to validate these results in Fabry disease patients.
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