Transglycosidase Activity of Chitotriosidase: Improved Enzymatic Assay for the Human Macrophage Chitinase

Overview

Journal J Biol Chem

Specialty Biochemistry

Date 2003 Aug 2

PMID 12890686

Citations 45

Authors

Begona Aguilera

Karen Ghauharali-van der Vlugt

Mariette T J Helmond

Jos M M Out

Wilma E Donker-Koopman

Johanna E M Groener

Rolf G Boot

G Herma Renkema

Gijs A van der Marel

Jacques H van Boom

Hermen S Overkleeft

Johannes M F G Aerts

Affiliations

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Abstract

Chitotriosidase is a chitinase that is massively expressed by lipid-laden tissue macrophages in man. Its enzymatic activity is markedly elevated in serum of patients suffering from lysosomal lipid storage disorders, sarcoidosis, thalassemia, and visceral Leishmaniasis. Monitoring of serum chitotriosidase activity in Gaucher disease patients during progression and therapeutic correction of their disease is useful to obtain insight in changes in body burden on pathological macrophages. However, accurate quantification of chitotriosidase levels by enzyme assay is complicated by apparent substrate inhibition, which prohibits the use of saturating substrate concentrations. We have therefore studied the catalytic features of chitotriosidase in more detail. It is demonstrated that the inhibition of enzyme activity at excess substrate concentration can be fully explained by transglycosylation of substrate molecules. The potential physiological consequences of the ability of chitotriosidase to hydrolyze as well as transglycosylate are discussed. The novel insight in transglycosidase activity of chitotriosidase has led to the design of a new substrate molecule, 4-methylumbelliferyl-(4-deoxy)chitobiose. With this substrate, which is no acceptor for transglycosylation, chitotriosidase shows normal Michaelis-Menten kinetics, resulting in major improvements in sensitivity and reproducibility of enzymatic activity measurements. The novel convenient chitotriosidase enzyme assay should facilitate the accurate monitoring of Gaucher disease patients receiving costly enzyme replacement therapy.

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