A Diverse Range of Bacterial and Eukaryotic Chitinases Hydrolyzes the LacNAc (Galβ1–4GlcNAc) and LacdiNAc (GalNAcβ1–4GlcNAc) Motifs Found on Vertebrate and Insect Cells

Rikki F Frederiksen,Yayoi Yoshimura,Birgit G Storgaard,Dafni K Paspaliari,Bent O Petersen,Kowa Chen,Tanja Larsen,Jens Ø Duus,Hanne Ingmer,Nicolai V Bovin,Ulrika Westerlind,Ola Blixt,Monica M Palcic,Jørgen J Leisner

doi:10.1074/jbc.m114.607291

Abstract

There is emerging evidence that chitinases have additional functions beyond degrading environmental chitin, such as involvement in innate and acquired immune responses, tissue remodeling, fibrosis, and serving as virulence factors of bacterial pathogens. We have recently shown that both the human chitotriosidase and a chitinase from Salmonella enterica serovar Typhimurium hydrolyze LacNAc from Galβ1-4GlcNAcβ-tetramethylrhodamine (LacNAc-TMR (Galβ1-4GlcNAcβ(CH2)8CONH(CH2)2NHCO-TMR)), a fluorescently labeled model substrate for glycans found in mammals. In this study we have examined the binding affinities of the Salmonella chitinase by carbohydrate microarray screening and found that it binds to a range of compounds, including five that contain LacNAc structures. We have further examined the hydrolytic specificity of this enzyme and chitinases from Sodalis glossinidius and Polysphondylium pallidum, which are phylogenetically related to the Salmonella chitinase, as well as unrelated chitinases from Listeria monocytogenes using the fluorescently labeled substrate analogs LacdiNAc-TMR (GalNAcβ1-4GlcNAcβ-TMR), LacNAc-TMR, and LacNAcβ1-6LacNAcβ-TMR. We found that all chitinases examined hydrolyzed LacdiNAc from the TMR aglycone to various degrees, whereas they were less active toward LacNAc-TMR conjugates. LacdiNAc is found in the mammalian glycome and is a common motif in invertebrate glycans. This substrate specificity was evident for chitinases of different phylogenetic origins. Three of the chitinases also hydrolyzed the β1-6 bond in LacNAcβ1-6LacNAcβ-TMR, an activity that is of potential importance in relation to mammalian glycans. The enzymatic affinities for these mammalian-like structures suggest additional functional roles of chitinases beyond chitin hydrolysis.

Highlights

The biological role(s) of chitinases other than hydrolysis/metabolism of chitin is currently not well understood
We have recently shown that both the human chitotriosidase and a chitinase from Salmonella enterica serovar Typhimurium hydrolyze LacNAc from Gal␤1– 4GlcNAc␤tetramethylrhodamine (LacNAc-TMR (Gal␤1–4GlcNAc␤(CH2)8CONH(CH2)2NHCO-TMR)), a fluorescently labeled model substrate for glycans found in mammals
In this study we have examined the binding affinities of the Salmonella chitinase by carbohydrate microarray screening and found that it binds to a range of compounds, including five that contain LacNAc structures

Summary

Background

The biological role(s) of chitinases other than hydrolysis/metabolism of chitin is currently not well understood. We have further examined the hydrolytic specificity of this enzyme and chitinases from Sodalis glossinidius and Polysphondylium pallidum, which are phylogenetically related to the Salmonella chitinase, as well as unrelated chitinases from Listeria monocytogenes using the fluorescently labeled substrate analogs LacdiNAc-TMR (GalNAc␤1– 4GlcNAc␤-TMR), LacNAc-. In this study we have cloned and characterized chitinases, which are phylogenetically related to the Salmonella enzyme StChiA, from the bacterial insect endosymbiont Sodalis glossinidius and the eukaryotic slime mold Polysphondylium pallidum (see Table 1 and Fig. 2). These three enzymes share the common characteristic that they lack a signal peptide but are still predicted to be secretory proteins [14]. We found that all enzymes surveyed (with one exception) hydrolyzed LacdiNAc from fluorescently labeled conjugates, whereas several of the enzymes hydrolyzed LacNAc from analogous conjugates that are substrate analogs of glycans found in mammals

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION