Glycogen Storage Diseases

Cox, Timothy M.

doi:10.1002/9780470015902.a0002270.pub2

Encyclopedia of Life Sciences 2017

DOI: 10.1002/9780470015902.a0002270.pub2

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Glycogen Storage Diseases

Timothy M. Cox

Abstract: Glycogen is a dense repository of energy which is present mostly in animal tissues; with its highly arborised structure, the glycogen dendrimer is a source of readily accessible glucose units at low osmotic cost. Access to, and accretion of glycogen is subject to fine metabolic and hormonal regulation; indeed, glycogen biosynthesis is driven by high‐energy phosphate‐bond energy, requiring also the participation of several unique protein complexes. Seminal research by Carl and Gerty Cori into the pathophysiolog… Show more

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2018

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Competitive and Covalent Inhibitors of Human Lysosomal Retaining Exoglucosidases

Breen

Artola

et al. 2018

Encyclopedia of Life Sciences

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Deficiency in human acid glucosylceramidase (GBA1, a retaining β‐glucosidase) causes the lysosomal sphingolipid storage disorder Gaucher disease, whereas deficiency in human acid α‐glucosidase (GAA, a retaining α‐glucosidase) triggers the lysosomal glycogen storage disorder Pompe disease. Both enzymes process their substrate following a two‐step double‐displacement mechanism involving a covalent enzyme–substrate intermediate. Structural analysis of glycosidases complexed to substrates and inhibitors has provided insight into the reaction coordinates followed by glycosidases during catalytic hydrolysis and has assisted in the design of potent and selective inhibitors. Competitive and covalent inhibitors of both GBA1 and GAA have been developed in the past decades, for fundamental studies, as diagnostics tools, leads for drug development and therapeutic drugs for the clinical treatment of lysosomal storage diseases. Key Concepts The structural and functional diversity of glycoconjugates is reflected by the vast number of glycoprocessing enzymes encountered in all domains of life. Retaining glycosidases form a covalent intermediate during substrate processing, whereas inverting glycosidases do not. Competitive and covalent retaining glycosidase inhibitors exist, whereas inverting glycosidases can normally only be blocked by competitive inhibitors. Both covalent and competitive glycosidase inhibitors are found in nature and serve as inspiration for the design of synthetic inhibitors. Structural analysis of glycosidases complexed to substrates and inhibitors provides insight into the reaction coordinates followed by glycosidases during the catalytic cycle. Conformational analysis of the reaction coordinate of glycosidases is key in the design of potent and selective inhibitors. Glycosidase inhibitors may serve as leads for drug development. Activity‐based glycosidase probes can be applied in the discovery of glycosidase activities. Activity‐based probes are useful starting points for the development of diagnostics assays in disease areas in which glycosidase activities are involved. Genetic deficiency in glycosidases is the basis of numerous inherited disorders including Gaucher disease and Pompe disease.

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Competitive and Covalent Inhibitors of Human Lysosomal Retaining Exoglucosidases

Breen

Artola

et al. 2018

Encyclopedia of Life Sciences

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Glycogen Storage Diseases

Cited by 1 publication

References 54 publications

Competitive and Covalent Inhibitors of Human Lysosomal Retaining Exoglucosidases

Competitive and Covalent Inhibitors of Human Lysosomal Retaining Exoglucosidases

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