Structural snapshots illustrate the catalytic cycle of Î²-galactocerebrosidase, the defective enzyme in Krabbe disease.

[krabbe disease]

Glycosphingolipids are ubiquitous components of mammalian cell membranes , and defects in their catabolism by lysosomal enzymes cause a diverse array of diseases . Deficiencies in the enzyme Î²-galactocerebrosidase (GALC ) cause Krabbe disease , a devastating genetic disorder characterized by widespread demyelination and rapid , fatal neurodegeneration . Here , we present a series of high -resolution crystal structures that illustrate key steps in the catalytic cycle of GALC . We have captured a snapshot of the short -lived enzyme-substrate complex illustrating how wild-type GALC binds a bona fide substrate . We have extensively characterized the enzyme kinetics of GALC with this substrate and shown that the enzyme is active in crystallo by determining the structure of the enzyme-product complex following extended soaking of the crystals with this same substrate . We have also determined the structure of a covalent intermediate that , together with the enzyme-substrate and enzyme-product complexes , reveals conformational changes accompanying the catalytic steps and provides key mechanistic insights , laying the foundation for future design of pharmacological chaperones .