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Mammalian Chitinase (mammalian + chitinase)

Distribution by Scientific Domains
Chemistry80%

Selected Abstracts

Genetic polymorphisms of chitotriosidase in Caucasian children with bronchial asthma

INTERNATIONAL JOURNAL OF IMMUNOGENETICS, Issue 3 2006
S. Bierbaum
Summary In humans, two types of chitinases have been identified: chitotriosidase I (CHIT1) and acid mammalian chitinase (AMCase). They are enzymes that cleave chitin, a polysaccharide contained in many different human parasites. So far, only little is known about their function in human and especially in human diseases. Recently we have described association of polymorphisms of AMCase with bronchial asthma in a pediatric population. In this study we were interested in whether CHIT1 is also involved in the genetics of asthma. The amino acid variants Gly102Ser and Ala442Gly, as well as a 24 bp duplication within CHIT1, were typed by means of restriction fragment length polymorphisms on 322 children with asthma and 270 randomly chosen adult controls. Statistical analyses made use of the Armitage's trend test; haplotypes were calculated by famhap and fastehplus. The amino acid variants showed no association with bronchial asthma. The 24 bp duplication, previously shown to completely demolish CHIT1 activity, was also evenly distributed between asthmatics and controls. Finally, the haplotype showed no association with the disease. We conclude from our results that CHIT1 does not play a major role in the development of bronchial asthma in Caucasian children. The results might also imply that the two human chitinases that have been identified so far have quite distinct functions in human diseases even though they have the same substrate. [source]

Triad of polar residues implicated in pH specificity of acidic mammalian chitinase

PROTEIN SCIENCE, Issue 3 2009
Andrea M. Olland
Abstract Acidic mammalian chitinase (AMCase) is a mammalian chitinase that has been implicated in allergic asthma. One of only two active mammalian chinases, AMCase, is distinguished from other chitinases by several unique features. Here, we present the novel structure of the AMCase catalytic domain, both in the apo form and in complex with the inhibitor methylallosamidin, determined to high resolution by X-ray crystallography. These results provide a structural basis for understanding some of the unique characteristics of this enzyme, including the low pH optimum and the preference for the ,-anomer of the substrate. A triad of polar residues in the second-shell is found to modulate the highly conserved chitinase active site. As a novel target for asthma therapy, structural details of AMCase activity will help guide the future design of specific and potent AMCase inhibitors. [source]

Adjuvant effects of ambient particulate matter monitored by proteomics of bronchoalveolar lavage fluid

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 3 2010
Xuedong Kang
Abstract Ambient particulate matter (PM) from air pollution is associated with exacerbation of asthma. The immunological basis for the adjuvant effects of PM is still not well understood. The generation of ROS and the resulting oxidative stress has been identified as one of the major mechanisms. Using a new intranasal sensitization model in which ambient PM is used as an adjuvant to enhance allergic inflammation (Li et al., Environ. Health Perspect. 2009, 117, 1116,1123), a proteomics approach was applied to study the adjuvant effects of ambient PM. The enhanced in vivo adjuvant effect of ultrafine particles correlates with a higher in vitro oxidant potential and a higher content of redox-cycling organic chemicals. Bronchoalveolar lavage fluid proteins from normal and sensitized mice were resolved by 2-DE, and identified by MS. Polymeric immunoglobulin receptor, complement C3, neutrophil gelatinase-associated lipocalin, chitinase 3-like protein 3, chitinase 3-like protein 4, and acidic mammalian chitinase demonstrated significantly enhanced up-regulation by UFP with a polycyclic aromatic hydrocarbon content and a higher oxidant potential. These proteins may be the important specific elements targeted by PM in air pollution through the ability to generate ROS in the immune system, and may be involved in allergen sensitization and asthma pathogenesis. [source]