Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

When human plasminogen (Glu-Pga) is activated by urokinase in the presence of pancreatic trypsin inhibitor, the plasmin produced (Glu-Pma) exclusively contains a heavy chain (Glu-Ha) derived intact from the original NH2 terminus of Glu-Pga. Similar activations, utilizing a low molecular weight synthetic plasmin acylating agent, p-nitrophenyl-p-(pyridiniummethyl) benzoate, still result in a plasmin molecule with approximately 50% of the plasmin heavy chain containing the intact NH2 terminus of the original Glu-Pga. Activations performed at high levels of urokinase in the absence of any inhibitors initially produce Glu-Pma. However, the final stable plasmin, Lys-Pmb, which is obtained contains a heavy chain (Lys-Hb) which arises by plasminolysis of a small peptide from the NH2 terminus of Glu-Ha. Alternatively, Lys-Pmb can be formed in a separate series of reactions initially involving plasminolysis of Glu-Pga to yield Lys-Pgb. The peptide removed in this step is identical to the peptide removed in the Glu-Ha to Lys-Hb reaction. Next, urokinase catalyzes the conversion of Lys-Pgb to Lys-Pmb without further loss of peptide material. This latter pathway involving Lys-Pgb is probably the major pathway for human Lys-Pmb generation. These studies support a mechanism of activation of human plasminogen which involves at least two bond cleavages in Glu-Pga. However, these same studies strongly indicate that the Nh2-terminal peptide need not be released from Glu-Pga prior to plasmin formation. Further, we feel that plasmin and not urokinase catalyzes cleavage of the NH2-terminal peptide bond from Glu-Pga and the Glu-Ha heavy chain of Glu-Pma.
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PMID:Mechanism of the urokinase-catalyzed activation of human plasminogen. 13 42