Disintegrin

Disintegrin

Structure of disintegrin heterodimer from Echis carinatus
Identifiers
Symbol Disintegrin
Pfam PF00200
InterPro IPR001762
PROSITE PDOC00351
SCOP 1kst
SUPERFAMILY 1kst
OPM superfamily 256
OPM protein 2ao7

Disintegrins are a family of small proteins (45–84 amino acids in length) from viper venoms that function as potent inhibitors of both platelet aggregation and integrin-dependent cell adhesion.[1][2]

Operation

Disintegrins work by countering the blood clotting steps, inhibiting the clumping of platelets. They interact with the beta-1 and -3 families of integrins receptors. Integrins are cell receptors involved in cell–cell and cell–extracellular matrix interactions, serving as the final common pathway leading to aggregation via formation of platelet–platelet bridges, which are essential in thrombosis and haemostasis. Disintegrins contain an RGD (Arg-Gly-Asp) or KGD (Lys-Gly-Asp) sequence motif that binds specifically to integrin IIb-IIIa receptors on the platelet surface, thereby blocking the binding of fibrinogen to the receptor–glycoprotein complex of activated platelets. Disintegrins act as receptor antagonists, inhibiting aggregation induced by ADP, thrombin, platelet-activating factor and collagen.[3] The role of disintegrin in preventing blood coagulation renders it of medical interest, particularly with regard to its use as an anti-coagulant.[4]

Types of disintegrin

Disintegrins from different snake species have been characterised: albolabrin, applagin, barbourin, batroxostatin, bitistatin, obtustatin,[5] schistatin,[6] echistatin,[7] elegantin, eristicophin, flavoridin,[8] halysin, kistrin, mojastin (Crotalus scutulatus), rubistatin (Crotalus ruber), tergeminin, salmosin[9] and triflavin.

Disintegrins are split into 5 classes: small, medium, large, dimeric, and snake venom metalloproteinases.[10]

Small Disintegrins: 49-51 amino acids, 4 disulfide bonds
Medium Disintegrins: 70 amino acids, 6 disulfide bonds
Large Disintegrins: 84 amino acids, 7 disulfide bonds
Dimeric Disintegrins: 67 amino acids, 4 intra-chain disulfide bonds
Snake Venom Metalloproteinases: 100 amino acids, 8 disulfide bond

Evolution of disintegrin family

Disintegrins evolved via gene duplication of an ancestral protein family, the ADAM family. Small, medium, large, and dimeric disintegrin family are found only in the Viperidae family, suggesting duplication and diversification about 12-20 million years ago. Snake venom metalloproteinases are found through the entire Colubroidea superfamily, suggesting that they evolved before Colubroidea diversified roughly 60 million years ago.[11]

Other sources of disintegrin proteins

Disintegrin-like proteins are found in various species ranging from slime mold to humans. Some other proteins known to contain a disintegrin domain are:

See also

References

  1. McLane MA, Sanchez EE, Wong A, Paquette-Straub C, Perez JC (2004). "Disintegrins". Curr Drug Targets Cardiovasc Haematol Disord. 4 (4): –. PMID 15578957.
  2. Lu X, Lu D, Scully MF, Kakkar VV (2005). "Snake venom metalloproteinase containing a disintegrin-like domain, its structure-activity relationships at interacting with integrins". Curr Med Chem Cardiovasc Hematol Agents. 3 (3): –. doi:10.2174/1568016054368205. PMID 15974889.
  3. Rahman S, Xu CS (2001). "Identification by Site-directed Mutagenesis of Amino Acid Residues Flanking RGD Motifs of Snake Venom Disintegrins for Their Structure and Function". Acta Biochim. Biophys. Sin. 33 (2): –. PMID 12050803.
  4. Lu X, Lu D, Scully MF, Kakkar VV (2006). "Integrins in drug targeting-RGD templates in toxins". Curr Pharm Des. 12 (22): –. doi:10.2174/138161206777947713. PMID 16918409.
  5. Calvete JJ, Monleon D, Celda B, Paz Moreno-Murciano M, Marcinkiewicz C (2003). "NMR solution structure of the non-RGD disintegrin obtustatin". J. Mol. Biol. 329 (1): –. doi:10.1016/S0022-2836(03)00371-1. PMID 12742023.
  6. Betzel C, Sharma S, Singh TP, Perbandt M, Yadav S, Kaur P, Bilgrami S (2005). "Crystal structure of the disintegrin heterodimer from saw-scaled viper (Echis carinatus) at 1.9 A resolution". Biochemistry. 44 (33): –. doi:10.1021/bi050849y. PMID 16101289.
  7. Calvete JJ, Kovacs H, Monleon D, Celda B, Esteve V (2005). "Conformation and concerted dynamics of the integrin-binding site and the C-terminal region of echistatin revealed by homonuclear NMR". Biochem J. 387 (Pt 1): –. doi:10.1042/BJ20041343. PMC 1134932Freely accessible. PMID 15535803.
  8. Mizuno H, Morita T, Fujii Y, Fujimoto Z, Horii K, Okuda D (2003). "Crystal structure of trimestatin, a disintegrin containing a cell adhesion recognition motif RGD". J. Mol. Biol. 332 (5): –. doi:10.1016/S0022-2836(03)00991-4. PMID 14499613.
  9. Lee W, Shin J, Kang I, Hong SY, Chung K, Jang Y, Kim DS (2003). "Solution structure of a novel disintegrin, salmosin, from Agkistrondon halys venom". Biochemistry. 42 (49): –. doi:10.1021/bi0300276. PMID 14661951.
  10. Calvete, J (2005). "Structure-function correlations of snake venom disintegrins". Curr Pharm Design. 11 (7): 825–835. doi:10.2174/1381612053381783.
  11. Juárez P, Comas I, González-Candelas F, Calvete JJ (2008). "Evolution of Snake Venom Disintegrins by Positive Darwinian Selection". Molecular Biology and Evolution. 25 (11): 2391–2407. doi:10.1093/molbev/msn179. PMID 18701431.
  12. Teixeira Cde F, Fernandes CM, Zuliani JP, Zamuner SF (2005). "Inflammatory effects of snake venom metalloproteinases". Mem. Inst. Oswaldo Cruz. 100: –. doi:10.1590/s0074-02762005000900031. PMID 15962120.
  13. Turck CW, Myles DG, Primakoff P, Blobel CP, Wolfsberg TG, White JM (1992). "A potential fusion peptide and an integrin ligand domain in a protein active in sperm-egg fusion". Nature. 356 (6366): 248–252. doi:10.1038/356248a0. PMID 1552944.
  14. Hall L, Jones R, Barker PJ, Perry AC (1992). "A mammalian epididymal protein with remarkable sequence similarity to snake venom haemorrhagic peptides". Biochem. J. 286: 671–675. PMC 1132955Freely accessible. PMID 1417724.

External links

This article incorporates text from the public domain Pfam and InterPro IPR001762

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