Abstract
Human chitotriosidase (HCHT) is involved in immune response to chitin-containing pathogens in humans. The enzyme is able to degrade chitooligosaccharides as well as crystalline chitin. The catalytic domain of HCHT is connected to the carbohydrate binding module (CBM) through a flexible hinge region. In humans, two active isoforms of HCHT are found–the full length enzyme and its truncated version lacking CBM and the hinge region. The active site architecture of HCHT is reminiscent to that of the reducing-end exo-acting processive chitinase ChiA from bacterium Serratia marcescens (SmChiA). However, the presence of flexible hinge region and occurrence of two active isoforms are reminiscent to that of non-processive endo-chitinase from S. marcescens, SmChiC. Although the studies on soluble chitin derivatives suggest the endo-character of HCHT, the mode of action of the enzyme on crystalline chitin is not known. Here, we made a thorough characterization of HCHT in terms of the mode of action, processivity, binding, and rate constants for the catalysis and dissociation using α-chitin as substrate. HCHT efficiently released the end-label from reducing-end labelled chitin and had also high probability (95%) of endo-mode initiation of processive run. These results qualify HCHT as an endo-processive enzyme. Processivity and the rate constant of dissociation of HCHT were found to be in-between those, characteristic to processive exo-enzymes, like SmChiA and randomly acting non-processive endo-enzymes, like SmChiC. Apart from increasing the affinity for chitin, CBM had no major effect on kinetic properties of HCHT.
Highlights
Chitin is an essential structural component of different fungi, nematodes, arthropodes, insects and crustaceans
We made a thorough characterization of HCHT in terms of the mode of action, processivity, binding, and rate constants for the catalysis and dissociation using α-chitin as substrate
We followed the hydrolysis of reducing-end anthranilic acid (AA) labeled Chitin nanowhiskers (CNWs) (AA-CNWs) by full-length HCHT and its 39 kDa isoform lacking the carbohydrate binding module (CBM)
Summary
Chitin is an essential structural component of different fungi, nematodes, arthropodes, insects and crustaceans. Chitin is composed of linear β-1-4-linked N-acetylglucosamine (NAG) units. The chitin chains are packed into crystals with intervening amorphous regions. In nature chitin is degraded by chitinases, hydrolytic enzymes that are synthesized by different bacteria, fungi and higher eukaryotes. Two chitinases are expressed, chitotriosidase (HCHT) and acidic mammalian chitinase (AMCase) [1,2]. While bacteria degrade chitin for energy supply, human chitinases are parts of innate immune system. Chitin is a good candidate for a PLOS ONE | DOI:10.1371/journal.pone.0171042. Chitin is a good candidate for a PLOS ONE | DOI:10.1371/journal.pone.0171042 January 27, 2017
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