Biology:Astacin

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Astacin
PDB 1qjj EBI.jpg
structure of astacin with a hydroxamic acid inhibitor
Identifiers
SymbolAstacin
PfamPF01400
Pfam clanCL0126
InterProIPR001506
PROSITEPDOC00129
MEROPSM12
SCOP21ast / SCOPe / SUPFAM
CDDcd04280
astacin
Identifiers
EC number3.4.24.21
CAS number143179-21-9
Databases
IntEnzIntEnz view
BRENDABRENDA entry
ExPASyNiceZyme view
KEGGKEGG entry
MetaCycmetabolic pathway
PRIAMprofile
PDB structuresRCSB PDB PDBe PDBsum
Gene OntologyAmiGO / QuickGO

Astacins are a family of multidomain metalloendopeptidases which are either secreted or membrane-anchored.[1] These metallopeptidases belong to the MEROPS peptidase family M12, subfamily M12A (astacin family, clan MA(M)). The protein fold of the peptidase domain for members of this family resembles that of thermolysin, the type example for clan MA and the predicted active site residues for members of this family and thermolysin occur in the motif HEXXH.[2]

The astacin family of metalloendopeptidases (EC 3.4.24.21) encompasses a range of proteins found in hydra to humans, in mature and developmental systems.[3] Their functions include activation of growth factors, degradation of polypeptides, and processing of extracellular proteins.[3] The proteins are synthesised with N-terminal signal and pro-enzyme sequences, and many contain multiple domains C-terminal to the protease domain. They are either secreted from cells, or are associated with the plasma membrane.

The astacin molecule adopts a kidney shape, with a deep active-site cleft between its N- and C-terminal domains.[4] The zinc ion, which lies at the bottom of the cleft, exhibits a unique penta-coordinated mode of binding, involving 3 histidine residues, a tyrosine and a water molecule (which is also bound to the carboxylate side chain of Glu93).[4] The N-terminal domain comprises 2 alpha-helices and a 5-stranded beta-sheet. The overall topology of this domain is shared by the archetypal zinc-endopeptidase thermolysin. Astacin protease domains also share common features with serralysins, matrix metalloendopeptidases, and snake venom proteases; they cleave peptide bonds in polypeptides such as insulin B chain and bradykinin, and in proteins such as casein and gelatin; and they have arylamidase activity.[3]

History

In 1965 R. Zwilling observed during his doctorate work that the oncosphaere of the mouse tapeworm Hymenolepis diminuta easily hatched in vitro in the presence of the digestive fluid of its intermediate host Tenebrio molitor (Meal beetle). After the digestion of its protein shell the oncosphaere started its typical hook movements. The same effect could not be achieved with bovine trypsin which raised the question, by what different proteases invertebrate animals might digest their protein diet. This was unknown at that time.[5] From the small Tenebrio beetles sufficient digestive fluid for extended studies could not be obtained. But from large crayfish cultures (Astacus astacus) it was possible to gather up to 100-200 ml gastric juice from the living animals by introducing a glass capillary through the proboscis into the cardia (stomach). From the resulting darkbrown fluid the proteolytic fractions were purified by gel-filtration, anion exchange chromatography and affinity chromatography to a high degree. The freeze-dried material obtained in this way has remained the basis for all further studies on crayfish astacin, including the elucidation of the amino acid sequence, genomic organization and spatial configuration. On the basis of its primary structure one proteolytic fraction from Astacus obviously represented an unknown protein and was named Astacin.[6][7] In addition to astacin the crayfish possesses an invertebrate trypsin, but no pepsin.[6][7] Soon afterwards Wozney et al.[8] have shown that the astacin sequence is inserted into the human bone morphogenetic protein (BMP) with significant homology.

Astacin family members

Proteins containing the astacin domain include:

References

  1. "Functional and structural insights into astacin metallopeptidases". Biological Chemistry 393 (10): 1027–41. October 2012. doi:10.1515/hsz-2012-0149. PMID 23092796. 
  2. "Evolutionary families of metallopeptidases". Proteolytic Enzymes: Aspartic and Metallo Peptidases. Methods in Enzymology. 248. 1995. pp. 183–228. doi:10.1016/0076-6879(95)48015-3. ISBN 9780121821494. 
  3. 3.0 3.1 3.2 "The astacin family of metalloendopeptidases". Protein Science 4 (7): 1247–61. July 1995. doi:10.1002/pro.5560040701. PMID 7670368. 
  4. 4.0 4.1 "Refined 1.8 A X-ray crystal structure of astacin, a zinc-endopeptidase from the crayfish Astacus astacus L. Structure determination, refinement, molecular structure and comparison with thermolysin". Journal of Molecular Biology 229 (4): 945–68. February 1993. doi:10.1006/jmbi.1993.1098. PMID 8445658. 
  5. "Das Schlüpfen der Oncosphaere von Hymenolepis dimunuta (Cestoda) unter dem Einfluß einer native Proteine hydrolysierenden Endopeptidase.". Zeitschrift für Naturforschung 23b: 287–288. 1968. doi:10.1515/znb-1968-0237. 
  6. 6.0 6.1 "Low molecular mass protease: evidence for a new family of proteolytic enzymes". FEBS Letters 127 (1): 75–8. May 1981. doi:10.1016/0014-5793(81)80344-4. PMID 6788602. 
  7. 7.0 7.1 "Amino acid sequence of a unique protease from the crayfish Astacus fluviatilis". Biochemistry 26 (1): 222–6. January 1987. doi:10.1021/bi00375a029. PMID 3548817. 
  8. "Novel regulators of bone formation: molecular clones and activities". Science 242 (4885): 1528–34. December 1988. doi:10.1126/science.3201241. PMID 3201241. Bibcode1988Sci...242.1528W. 

Further reading

  • The Astacins. Structure and Function of a New Protein Family.. Hamburg: Verlag Kovacs. 1997. p. 370. ISBN 3-86064-624-9. 

External links

This article incorporates text from the public domain Pfam and InterPro: IPR001506