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DOI: 10.1055/s-0038-1654926
Isolation and Purification of a Coagulant from Snake Venom of the Species Bothrops jararaca and the Study of its Properties
Publikationsverlauf
Publikationsdatum:
21. Juni 2018 (online)
Summary
1. A material active in coagulating fibrinogen has been purified thirty-fold from crude venom of the species Bothrops jararaca. This material exhibits clotting and esterase activities, but no measurable proteolytic activity if measured by its ability to digest denatured hemoglobin.
2. The clotting activity of the purified material (but not its esterase activity) is greatly enhanced by the addition of 2—3 μM of calcium ion; no other divalent metallic ion can duplicate the accelerating effect of Ca++ ion.
3. The purified material is stable to dialysis, standing at room temperature for 18—20 hours, or heating at 50° C for 10 minutes; it loses both its clotting and esterase activities if heated at 70° C for 25 minutes or at 80° C for 10 minutes
4. Although the powerful proteolytic enzyme inhibitors ovomucoid and soyabean trypsin inhibitor can block the clotting and esterase activities of thrombin, they are ineffective with respect to these properties of venom-coagulin. DFP, an inhibitor of far less specificity, can prevent the actions both of thrombin and of venom-coagulin
5. An amount of heparin sufficient to block the clotting activity of thrombin is unable to prevent the action of venom-coagulin on fibrinogen; a much higher concentration of heparin is needed. In both cases the addition of 2—3 μM of Ca++ ion necessitates the introduction of considerably more heparin in order to block the actions of thrombin and venom-coagulin.
6. While the antithrombin contained in serum can neutralize the clotting and esterase activities of thrombin, it has no effect on the actions of venom-coagulin.
* Present addresses: 1. Department of Biochemistry, North-Western University Medical School, Chicago, Illinois; 2. Department of Biochemistry, College of Physicians and Surgeons, New York, New York; 3. Department of Biochemistry, Rochester University Medical School, Rochester, New York.
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References
- 1 Eagle H. The coagulation of blood by snake venoms and its physiologic significance J. exp. Med 65: 613 1937;
- 2 Janzky B. The relation between the proteolytic and blood clotting activity of snake venoms. Arch. Biochem 28: 139 1950;
- 3 Michl H. The venom of Bothrops jararaca. Mh. Chem 85: 1240 1954;
- 4 Grasset E, Brechbuhler T, Schwartz D. E, Pongratz E. Comparative analysis and electrophoretic fractionations of snake venoms with special reference to Vipera Russelli and Vipera aspis venoms; in: Venoms, edited by Eleanor E. Buckley and Nandor Porges. 153 published by American Association for the Advancement of Science; Washington, D.C., USA: 1956
- 5 Banerjee R, Devi A, Sarkar N. K. Clotting activity versus proteolytic activity of various coagulants: in: Proc. of the Vllth Int. Congress on Haematology, held at Rome, Sept. 1958
- 6 Henriques O. B, Mandelbaum F. R, Henriques S. B. Blood-clotting activity of the venom of Bothrops jararaca. Nature 183: 114 1959;
- 7 Anson M. L. The estimation of pepsin, trypsin, papain and cathepsin with hemoglobin. J. gen. Physiol 22: 79 1938;
- 8 Sherry Sol, Troll W. The action of thrombin on synthetic substrates. J. biol. Chem 208: 95 1954;
- 9 Stormorken H. The reactivity of stored plasma to thrombin with reference to the fibrinogen conversion accelerator and heparinoid activity. Brit. J. Haemat 03: 299 1957;
- 10 Sakar N. K. Enzymes in blood clotting; in: Enzymes in Health and Disease. edited by Greenberg MDavid, Harper AHarold. published by Charles C. Thomas; Springfield, Illinois, USA: 359 1960