Discovery, Structure–Activity Relationship, and Biological Evaluation of Noninhibitory Small Molecule Chaperones of Glucocerebrosidase

Samarjit Patnaik(National Institutes of Health), Wei Zheng(National Center for Advancing Translational Sciences), Jae Hyuk Choi(National Institutes of Health), Omid Motabar(National Institutes of Health), Noel Southall(National Center for Advancing Translational Sciences), Wendy Westbroek(National Institutes of Health), Wendy Lea(National Institutes of Health), Arash Velayati(National Institutes of Health), Ehud Goldin(National Human Genome Research Institute), Ellen Sidransky(National Institutes of Health), William Leister(National Center for Advancing Translational Sciences), Juan Marugán(National Center for Advancing Translational Sciences)
Journal of Medicinal Chemistry
May 30, 2012
10.1021/jm300063b
Cited by 132Open Access
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Abstract

A major challenge in the field of Gaucher disease has been the development of new therapeutic strategies including molecular chaperones. All previously described chaperones of glucocerebrosidase are enzyme inhibitors, which complicates their clinical development because their chaperone activity must be balanced against the functional inhibition of the enzyme. Using a novel high throughput screening methodology, we identified a chemical series that does not inhibit the enzyme but can still facilitate its translocation to the lysosome as measured by immunostaining of glucocerebrosidase in patient fibroblasts. These compounds provide the basis for the development of a novel approach toward small molecule treatment for patients with Gaucher disease.

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