Inactivation of bradykinin and kallidin by cathepsin G and mast cell chymase
CF Reilly, NB Schechter, J Travis - Biochemical and biophysical research …, 1985 - Elsevier
CF Reilly, NB Schechter, J Travis
Biochemical and biophysical research communications, 1985•ElsevierHuman neutrophil cathepsin G and human skin chymase can inactivate bradykinin by
cleavage at the carboxy terminal phenylalanyl-arginyl peptide bond of this polypeptide. The
mast cell enzyme is far more effective than cathepsin G, the rates of hydrolysis being
comparable to that found for angiotensin I to angiotensin II conversion (CF Reilly, D.
Tewksbury, N. Schechter, and J. Travis, J. Biological Chemistry 257: 8619–8622). This
ability to both inactivate bradykinin and accelerate the production of angiotensin II may be of …
cleavage at the carboxy terminal phenylalanyl-arginyl peptide bond of this polypeptide. The
mast cell enzyme is far more effective than cathepsin G, the rates of hydrolysis being
comparable to that found for angiotensin I to angiotensin II conversion (CF Reilly, D.
Tewksbury, N. Schechter, and J. Travis, J. Biological Chemistry 257: 8619–8622). This
ability to both inactivate bradykinin and accelerate the production of angiotensin II may be of …
Human neutrophil cathepsin G and human skin chymase can inactivate bradykinin by cleavage at the carboxy terminal phenylalanyl-arginyl peptide bond of this polypeptide. The mast cell enzyme is far more effective than cathepsin G, the rates of hydrolysis being comparable to that found for angiotensin I to angiotensin II conversion (C.F. Reilly, D. Tewksbury, N. Schechter, and J. Travis, J. Biological Chemistry 257: 8619–8622). This ability to both inactivate bradykinin and accelerate the production of angiotensin II may be of significance in the development of biochemical events associated with inflammation.
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