Activity-Based Probes for Glycosidases: Profiling and Other Applications

Chi-Lin Kuo; Eline van Meel; Kassiani Kytidou; Wouter Willem Kallemeijn; Martin Witte; Herman Stephen Overkleeft; Marta Elena Artola; Johannes Maria Aerts

doi:10.1016/bs.mie.2017.06.039

Activity-Based Probes for Glycosidases: Profiling and Other Applications

Chi-Lin Kuo, Eline van Meel, Kassiani Kytidou, Wouter Willem Kallemeijn, Martin Witte, Herman Stephen Overkleeft, Marta Elena Artola, Johannes Maria Aerts^*

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

20 Citations (Scopus)

Abstract

Glycosidases mediate the fragmentation of glycoconjugates in the body, including the vital recycling of endogenous molecules. Several inherited diseases in man concern deficiencies in lysosomal glycosidases degrading glycosphingolipids. Prominent is Gaucher disease caused by an impaired lysosomal beta-glucosidase (glucocerebrosidase, GBA) and resulting in pathological lysosomal storage of glucosylceramide (glucocerebroside) in tissue macrophages. GBA is a retaining glucosidase with a characteristic glycosyl-enzyme intermediate formed during catalysis. Using the natural suicide inhibitor cyclophellitol as a lead, we developed mechanism-based irreversible inhibitors of GBA equipped with a fluorescent reporter. These reagents covalently link to the catalytic nucleophile residue of GBA and permit specific and sensitive visualization of active enzyme molecules. The amphiphilic activity-based probes (ABPs) allow in situ detection of active GBA in cells and organisms. Furthermore, they may be used to biochemically confirm the diagnosis of Gaucher disease and they might assist in screening for small compounds interacting with the catalytic pocket. While the focus of this chapter is ABPs for beta-glucosidases and Gaucher disease, the described concept has meanwhile been extended to other retaining glycosidases and related disease conditions as well.

Original language	English
Title of host publication	CHEMICAL GLYCOBIOLOGY, PT B: MONITORING GLYCANS AND THEIR INTERACTIONS
Editors	B Imperiali
Publisher	Academic Press
Chapter	8
Pages	217-235
Number of pages	19
Volume	598
DOIs	https://doi.org/10.1016/bs.mie.2017.06.039
Publication status	Published - 2018
Externally published	Yes

Publication series

Name	Methods in Enzymology
Publisher	ELSEVIER ACADEMIC PRESS INC
Volume	598
ISSN (Print)	0076-6879

Keywords

GAUCHER-DISEASE
IN-SITU
GLUCOCEREBROSIDASE
ENZYME
CYCLOPHELLITOL
INHIBITORS
SPECTRUM
GLUCOSIDASES
MECHANISMS
PHENOTYPE

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Kuo, C.-L., van Meel, E., Kytidou, K., Kallemeijn, W. W., Witte, M., Overkleeft, H. S., Artola, M. E., & Aerts, J. M. (2018). Activity-Based Probes for Glycosidases: Profiling and Other Applications. In B. Imperiali (Ed.), CHEMICAL GLYCOBIOLOGY, PT B: MONITORING GLYCANS AND THEIR INTERACTIONS (Vol. 598, pp. 217-235). (Methods in Enzymology; Vol. 598). Academic Press. https://doi.org/10.1016/bs.mie.2017.06.039

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title = "Activity-Based Probes for Glycosidases: Profiling and Other Applications",

abstract = "Glycosidases mediate the fragmentation of glycoconjugates in the body, including the vital recycling of endogenous molecules. Several inherited diseases in man concern deficiencies in lysosomal glycosidases degrading glycosphingolipids. Prominent is Gaucher disease caused by an impaired lysosomal beta-glucosidase (glucocerebrosidase, GBA) and resulting in pathological lysosomal storage of glucosylceramide (glucocerebroside) in tissue macrophages. GBA is a retaining glucosidase with a characteristic glycosyl-enzyme intermediate formed during catalysis. Using the natural suicide inhibitor cyclophellitol as a lead, we developed mechanism-based irreversible inhibitors of GBA equipped with a fluorescent reporter. These reagents covalently link to the catalytic nucleophile residue of GBA and permit specific and sensitive visualization of active enzyme molecules. The amphiphilic activity-based probes (ABPs) allow in situ detection of active GBA in cells and organisms. Furthermore, they may be used to biochemically confirm the diagnosis of Gaucher disease and they might assist in screening for small compounds interacting with the catalytic pocket. While the focus of this chapter is ABPs for beta-glucosidases and Gaucher disease, the described concept has meanwhile been extended to other retaining glycosidases and related disease conditions as well.",

keywords = "GAUCHER-DISEASE, IN-SITU, GLUCOCEREBROSIDASE, ENZYME, CYCLOPHELLITOL, INHIBITORS, SPECTRUM, GLUCOSIDASES, MECHANISMS, PHENOTYPE",

author = "Chi-Lin Kuo and {van Meel}, Eline and Kassiani Kytidou and Kallemeijn, {Wouter Willem} and Martin Witte and Overkleeft, {Herman Stephen} and Artola, {Marta Elena} and Aerts, {Johannes Maria}",

year = "2018",

doi = "10.1016/bs.mie.2017.06.039",

language = "English",

volume = "598",

series = "Methods in Enzymology",

publisher = "Academic Press",

pages = "217--235",

editor = "B Imperiali",

booktitle = "CHEMICAL GLYCOBIOLOGY, PT B: MONITORING GLYCANS AND THEIR INTERACTIONS",

}

Kuo, C-L, van Meel, E, Kytidou, K, Kallemeijn, WW, Witte, M, Overkleeft, HS, Artola, ME & Aerts, JM 2018, Activity-Based Probes for Glycosidases: Profiling and Other Applications. in B Imperiali (ed.), CHEMICAL GLYCOBIOLOGY, PT B: MONITORING GLYCANS AND THEIR INTERACTIONS. vol. 598, Methods in Enzymology, vol. 598, Academic Press, pp. 217-235. https://doi.org/10.1016/bs.mie.2017.06.039

Activity-Based Probes for Glycosidases: Profiling and Other Applications. / Kuo, Chi-Lin; van Meel, Eline; Kytidou, Kassiani et al.
CHEMICAL GLYCOBIOLOGY, PT B: MONITORING GLYCANS AND THEIR INTERACTIONS. ed. / B Imperiali. Vol. 598 Academic Press, 2018. p. 217-235 (Methods in Enzymology; Vol. 598).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

TY - CHAP

T1 - Activity-Based Probes for Glycosidases

T2 - Profiling and Other Applications

AU - Kuo, Chi-Lin

AU - van Meel, Eline

AU - Kytidou, Kassiani

AU - Kallemeijn, Wouter Willem

AU - Witte, Martin

AU - Overkleeft, Herman Stephen

AU - Artola, Marta Elena

AU - Aerts, Johannes Maria

PY - 2018

Y1 - 2018

N2 - Glycosidases mediate the fragmentation of glycoconjugates in the body, including the vital recycling of endogenous molecules. Several inherited diseases in man concern deficiencies in lysosomal glycosidases degrading glycosphingolipids. Prominent is Gaucher disease caused by an impaired lysosomal beta-glucosidase (glucocerebrosidase, GBA) and resulting in pathological lysosomal storage of glucosylceramide (glucocerebroside) in tissue macrophages. GBA is a retaining glucosidase with a characteristic glycosyl-enzyme intermediate formed during catalysis. Using the natural suicide inhibitor cyclophellitol as a lead, we developed mechanism-based irreversible inhibitors of GBA equipped with a fluorescent reporter. These reagents covalently link to the catalytic nucleophile residue of GBA and permit specific and sensitive visualization of active enzyme molecules. The amphiphilic activity-based probes (ABPs) allow in situ detection of active GBA in cells and organisms. Furthermore, they may be used to biochemically confirm the diagnosis of Gaucher disease and they might assist in screening for small compounds interacting with the catalytic pocket. While the focus of this chapter is ABPs for beta-glucosidases and Gaucher disease, the described concept has meanwhile been extended to other retaining glycosidases and related disease conditions as well.

AB - Glycosidases mediate the fragmentation of glycoconjugates in the body, including the vital recycling of endogenous molecules. Several inherited diseases in man concern deficiencies in lysosomal glycosidases degrading glycosphingolipids. Prominent is Gaucher disease caused by an impaired lysosomal beta-glucosidase (glucocerebrosidase, GBA) and resulting in pathological lysosomal storage of glucosylceramide (glucocerebroside) in tissue macrophages. GBA is a retaining glucosidase with a characteristic glycosyl-enzyme intermediate formed during catalysis. Using the natural suicide inhibitor cyclophellitol as a lead, we developed mechanism-based irreversible inhibitors of GBA equipped with a fluorescent reporter. These reagents covalently link to the catalytic nucleophile residue of GBA and permit specific and sensitive visualization of active enzyme molecules. The amphiphilic activity-based probes (ABPs) allow in situ detection of active GBA in cells and organisms. Furthermore, they may be used to biochemically confirm the diagnosis of Gaucher disease and they might assist in screening for small compounds interacting with the catalytic pocket. While the focus of this chapter is ABPs for beta-glucosidases and Gaucher disease, the described concept has meanwhile been extended to other retaining glycosidases and related disease conditions as well.

KW - GAUCHER-DISEASE

KW - IN-SITU

KW - GLUCOCEREBROSIDASE

KW - ENZYME

KW - CYCLOPHELLITOL

KW - INHIBITORS

KW - SPECTRUM

KW - GLUCOSIDASES

KW - MECHANISMS

KW - PHENOTYPE

U2 - 10.1016/bs.mie.2017.06.039

DO - 10.1016/bs.mie.2017.06.039

M3 - Chapter

VL - 598

T3 - Methods in Enzymology

SP - 217

EP - 235

BT - CHEMICAL GLYCOBIOLOGY, PT B: MONITORING GLYCANS AND THEIR INTERACTIONS

A2 - Imperiali, B

PB - Academic Press

ER -

Activity-Based Probes for Glycosidases: Profiling and Other Applications

Abstract

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Keywords

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