Bulletin of the Korean Chemical Society

Korean Chemical Society (대한화학회)
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Urokinase Conjugated with Water-Soluble Dextran

  • Kim Nam Deuk (Department of Biological Science & Engineering, The Korea Advanced Institute of Science & Technology) ;
  • Kim Hyun-Pyo (Department of Biological Science & Engineering, The Korea Advanced Institute of Science & Technology) ;
  • Byun Si Myung (Department of Biological Science & Engineering, The Korea Advanced Institute of Science & Technology) ;
  • Kim Sung Wan (Department of Pharmaceutics, University of Utah)
  • Published : 1985.08.20
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Abstract

Urokinase, a plasminogen activator, was conjugated with dextran by the cyanogen bromide activation-coupling method. The resulting water-soluble conjugate was purified by gel permeation chromatography on Sephadex G-200. The maximal activity was obtained when the ratio of urokinase/dextran was 1/20 for the coupling. The final preparation showed 5 CTA units/mg conjugate, 300 CTA units/mg protein, 8.4 % activity retention, and 47 % protein retention. The urokinase-dextran conjugate had good thermal, pH and storage stabilities. In addition, it showed greater resistance to the inhibitory effect of human plasma than native urokinase. Also in vitro biological half-life of urokinase increased 40 times by this conjugation. In view of activity, excellent stability and increased half-life, the conjugate can be a potential fibrinolytic agent in an injectable form.

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References

  1. Proteinases in Mammalian cells and Tissue Plasminogen activators J. K. Christman;S. C. Silverstein;A. Acs;A. M. Barett(ed.)
  2. Hematology(2nd Ed.) Mechanism of fibrinolysis S. Shery;W. J. Williams(ed.);E. Butler(ed.);A. J. Erslev(ed.);R. W. Rundles(ed.)
  3. Eur. J. Biochem. v.36 B. Wilman;P. Wallen
  4. Blood and Vessel (Japan) v.9 T. Oshiro;A. Sugitachi;S. D. Hong;K. Mukai;F. Murakami;G. Kosaki;S. Motoi
  5. Blut v.37 A. Sugitachi;T. Kawahara;J. Kodama;Y. Kikkawa;K. Takagi
  6. Int. J. Artif. Organs v.4 T. Oshiro;G. Kosaki
  7. Thromb. Haemostasis v.39 A. Sugitachi;K. Takagi;S. Imaoka;G. Kosaki
  8. Int. J. Artif. Organs v.1 A. Sugitachi;K. Takagi
  9. J. Pharm. Sci. v.72 H. P. Kim;S. M. Byun;Y. I. Yeom;S. W. Kim
  10. Am. J. Med. Sci. v.223 J. S. Wilson;J. V. Warren
  11. Progress in Chemical Fibrinolysis and Thrombolysis v.1 F. Harvekate;P. Brakman
  12. J. Biol. Chem. v.193 O. H. Lowry;N. J. Rosebrough;A. L. Farr;R. J. Randall
  13. Anal. Chem. v.28 M. Dubois;K. A. Gilles;J. K. Hamilton;P. A. Robers;F. Smith
  14. J. Biol. Chem. v.251 J. J. Marshall;M. L. Rabinowitz
  15. Meth. Enzymol. v.26 K. Weber;J. R. Pringl;M. Osborn
  16. J. Chromat. v.90 L. Sundberg;J. Porath
  17. Anal. Biochem. v.93 A. M. Klibanov
  18. Scand. J. Clin. Lab. Invest. v.31 P. Brakman;T. Astrup
  19. Tromb. Haemostasis v.47 J. E. Walker;D. Ogston
  20. Thromb. Diath. Haemorrh. v.21 A. J. Johnson;D. L. Kline;N. Alkjaersig