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Chitinase

 
Sci-Tech Dictionary: chitinase
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(′kīt·ən′ās)

(biochemistry) An externally secreted digestive enzyme produced by certain microorganisms and invertebrates that hydrolyzes chitin.

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Wikipedia: Chitinase
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Chitinase from barley seeds
chitinase, acidic
Identifiers
Symbol CHIA
Entrez 27159
HUGO 17432
OMIM 606080
RefSeq NM_001040623
UniProt Q9BZP6
Other data
Locus Chr. 1 p13.1-21.3
chitinase 1 (chitotriosidase)
Identifiers
Symbol CHIT1
Entrez 1118
HUGO 1936
OMIM 600031
RefSeq NM_003465
UniProt Q13231
Other data
Locus Chr. 1 q31-q32

Chitinases are digestive enzymes that break down glycosidic bonds in chitin.[1] Because chitin composes the cell walls of fungi and exoskeletal elements of some animals (including worms and arthropods), chitinases are generally found in organisms that either need to reshape their own chitin[2] or to dissolve and digest the chitin of fungi or animals.

Contents

Species distribution

Chitinivorous organisms include many bacteria[3] (Aeromonads, Bacillus, Vibrio,[4] among others), which may be pathogenic or detritivorous. They may attack arthropods, zooplankton or fungi; or they may degrade the remains of these organisms.

Fungi, such as Coccidioides immitis, are known to possess chitinases. This may be related to their typical role as detritivores and also to their potential as arthropod pathogens.

Plants may seem an unusual source for chitinase, but some of the archetypical chitinases have been characterized from plants (barley seed chitinase: PDB 1CNS, EC 3.2.1.14). Some plant chitinases are members of the pathogenesis related (PR) proteins which are induced after systemic acquired resistance induction (biotic and abiotic). Expression is mediated by the NPR1 gene and the salicylic acid pathway, both involved in resisting fungal and insect attack. Some may be required for creating fungal symbioses.[5]

Function

Chitin, like cellulose, has been thought of as abundant but difficult to digest.[6] It is typically considered unavailable carbohydrate in animal diets, though certain fish can digest chitin to sugar;[7] and dogma suggests that just as ruminants need bacteria to digest cellulose, chitin digestion would also require symbiosis and lengthy fermentations. As such, the discovery of animal, and particular mammalian and human chitinases is somewhat surprising. Actually, human chitinases appear in gastric juices.[8] This is likely to be digestive chitinase, for catabolic activity.

Further, chitinase activity can be detected systemically in humans, in the blood.[9][10][10] and possibly cartilage [11]. This is related, as is plant chitinase activity, to inflammation/pathogen resistance.[12][13].

Clinical signficance

As such, it is unsurprisingly related to allergies. What is surprising, perhaps, is that asthma in particular has been linked to enhanced chitinase expression levels.[14][15][16][17][18]

This may begin to explain some of the most common allergies (dust mites, mold spores - both chitin covered) and speak to the relationship between allergies and worm (helminth) infections, as part of one version of the hygiene hypothesis[19][20][21] (worms have chitinous mouthparts to hold the intestinal wall). Finally, the link between chitinases and salicytic acid in plants is well established - but there is a hypothetical link between salicytic acid and allergies in humans.[22] The link between chitinases and allergies being now established provides a tantalizing thread that can also connect these.

References

  1. ^ Jollès P, Muzzarelli RAA (1999). Chitin and Chitinases. Basel: Birkhäuser. ISBN 3764358157. 
  2. ^ Sámi L, Pusztahelyi T, Emri T, Varecza Z, Fekete A, Grallert A, Karanyi Z, Kiss L, Pócsi I (August 2001). "Autolysis and aging of Penicillium chrysogenum cultures under carbon starvation: Chitinase production and antifungal effect of allosamidin". The Journal of General and Applied Microbiology 47 (4): 201–211. doi:10.2323/jgam.47.201. PMID 12483620. 
  3. ^ Xiao X, Yin X, Lin J, Sun L, You Z, Wang P, Wang F (December 2005). "Chitinase genes in lake sediments of Ardley Island, Antarctica". Applied and Environmental Microbiology 71 (12): 7904–9. doi:10.1128/AEM.71.12.7904-7909.2005. PMID 16332766. 
  4. ^ Hunt DE, Gevers D, Vahora NM, Polz MF (January 2008). "Conservation of the chitin utilization pathway in the Vibrionaceae". Applied and Environmental Microbiology 74 (1): 44–51. doi:10.1128/AEM.01412-07. PMID 17933912. 
  5. ^ Salzer P, Bonanomi A, Beyer K, Vögeli-Lange R, Aeschbacher RA, Lange J, Wiemken A, Kim D, Cook DR, Boller T (July 2000). "Differential expression of eight chitinase genes in Medicago truncatula roots during mycorrhiza formation, nodulation, and pathogen infection". Molecular Plant-Microbe Interactions : MPMI 13 (7): 763–77. doi:10.1094/MPMI.2000.13.7.763. PMID 10875337. 
  6. ^ Akaki C, Duke GE (2005). "Apparent chitin digestibilities in the Eastern screech owl (Otus asio) and the American kestrel (Falco sparverius)". Journal of Experimental Zoology 283 (4-5): 387–393. doi:10.1002/(SICI)1097-010X(19990301/01)283:4/5<387::AID-JEZ8>3.0.CO;2-W. 
  7. ^ Gutowska MA, Drazen JC, Robison BH (November 2004). "Digestive chitinolytic activity in marine fishes of Monterey Bay, California". Comparative biochemistry and physiology. Part A, Molecular & Integrative Physiology 139 (3): 351–8. doi:10.1016/j.cbpb.2004.09.020. PMID 15556391. 
  8. ^ Paoletti MG, Norberto L, Damini R, Musumeci S (2007). "Human gastric juice contains chitinase that can degrade chitin". Annals of Nutrition & Metabolism 51 (3): 244–51. doi:10.1159/000104144. PMID 17587796. 
  9. ^ Renkema GH, Boot RG, Muijsers AO, Donker-Koopman WE, Aerts JM (February 1995). "Purification and characterization of human chitotriosidase, a novel member of the chitinase family of proteins". The Journal of Biological Chemistry 270 (5): 2198–202. doi:10.1074/jbc.270.5.2198. PMID 7836450. 
  10. ^ a b Escott GM, Adams DJ (December 1995). "Chitinase activity in human serum and leukocytes". Infection and Immunity 63 (12): 4770–3. PMID 7591134. PMC: 173683. http://iai.asm.org/cgi/pmidlookup?view=long&pmid=7591134. 
  11. ^ Hakala BE, White C, Recklies AD (1993). "Human cartilage gp-39, a major secretory product of articular chondrocytes and synovial cells, is a mammalian member of a chitinase protein family". The Journal of Biological Chemistry 268 (34): 25803–25810. 
  12. ^ Recklies AD, White C, Ling H (July 2002). "The chitinase 3-like protein human cartilage glycoprotein 39 (HC-gp39) stimulates proliferation of human connective-tissue cells and activates both extracellular signal-regulated kinase- and protein kinase B-mediated signalling pathways". The Biochemical Journal 365 (Pt 1): 119–26. doi:10.1042/BJ20020075. PMID 12071845. 
  13. ^ van Eijk M, van Roomen CPAA, Renkema GH, Bussink AP, Andrews L, Blommaart EFC, Sugar A, Verhoeven AJ, Boot RG, Aerts JMFG (2005). "Characterization of human phagocyte-derived chitotriosidase, a component of innate immunity". International Immunology 17 (11): 1505–1512. doi:10.1093/intimm/dxh328. PMID 16214810. 
  14. ^ Bierbaum S, Nickel R, Koch A, Lau S, Deichmann KA, Wahn U, Superti-Furga A, Heinzmann A (December 2005). "Polymorphisms and haplotypes of acid mammalian chitinase are associated with bronchial asthma". American Journal of Respiratory and Critical Care Medicine 172 (12): 1505–9. doi:10.1164/rccm.200506-890OC. PMID 16179638. 
  15. ^ Zhao J, Zhu H, Wong CH, Leung KY, Wong WS (July 2005). "Increased lungkine and chitinase levels in allergic airway inflammation: a proteomics approach". Proteomics 5 (11): 2799–807. doi:10.1002/pmic.200401169. PMID 15996009. 
  16. ^ Elias JA, Homer RJ, Hamid Q, Lee CG (September 2005). "Chitinases and chitinase-like proteins in T(H)2 inflammation and asthma". The Journal of Allergy and Clinical Immunology 116 (3): 497–500. doi:10.1016/j.jaci.2005.06.028. PMID 16159614. 
  17. ^ Zhu Z, Zheng T, Homer RJ, Kim YK, Chen NY, Cohn L, Hamid Q, Elias JA (June 2004). "Acidic mammalian chitinase in asthmatic Th2 inflammation and IL-13 pathway activation". Science (New York, N.Y.) 304 (5677): 1678–82. doi:10.1126/science.1095336. PMID 15192232. 
  18. ^ Chupp GL, Lee CG, Jarjour N, Shim YM, Holm CT, He S, Dziura JD, Reed J, Coyle AJ, Kiener P, Cullen M, Grandsaigne M, Dombret MC, Aubier M, Pretolani M, Elias JA (2005). "A Chitinase-like Protein in the Lung and Circulation of Patients with Severe Asthma". The New England Journal of Medicine 357 (20): 2016–2027. doi:10.1056/NEJMoa073600. PMID 18003958. 
  19. ^ Maizels RM (December 2005). "Infections and allergy — helminths, hygiene and host immune regulation". Current Opinion in Immunology 17 (6): 656–61. doi:10.1016/j.coi.2005.09.001. PMID 16202576. 
  20. ^ Hunter MM, McKay DM (January 2004). "Review article: helminths as therapeutic agents for inflammatory bowel disease". Alimentary Pharmacology & Therapeutics 19 (2): 167–77. doi:10.1111/j.0269-2813.2004.01803.x. PMID 14723608. 
  21. ^ Palmas C, Gabriele F, Conchedda M, Bortoletti G, Ecca AR (June 2003). "Causality or coincidence: may the slow disappearance of helminths be responsible for the imbalances in immune control mechanisms?". Journal of Helminthology 77 (2): 147–53. doi:10.1079/JOH2003176. PMID 12756068. 
  22. ^ Feingold BF (March 1975). "Food additives in clinical medicine". International Journal of Dermatology 14 (2): 112–4. doi:10.1111/j.1365-4362.1975.tb01426.x. PMID 1123257. 

See also

Chitin

External links

v  d  e
Hydrolase: sugar hydrolases (EC 3.2)
3.2.1: Glycoside hydrolases
Other
3.2.2: Hydrolysing
N-Glycosyl compounds

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