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Cathepsin G binding to human platelets. Evidence for a specific receptor.


ABSTRACT: We have shown previously that purified human neutrophil cathepsin G is a strong platelet agonist. We now demonstrate that cathepsin G exhibits saturable, reversible binding to human platelets which is characteristic of binding to a specific receptor. At room temperature, cathepsin G displayed apparent positive co-operativity of binding, as indicated by sigmoidal binding curves and a Hill coefficient greater than unity. By contrast, binding curves conducted with native enzyme at 0.5 degrees C displayed a much smaller degree of sigmoidicity, and binding studies performed with phenylmethanesulphonyl fluoride-treated enzyme at 22-25 degrees C exhibited hyperbolic binding curves. The concentrations of cathepsin G required to give half-saturation (S0.5) with inhibitor-treated enzyme or with native enzyme at either room temperature or 0.5 degrees C were all similar, suggesting that sigmoidal binding curves did not result from an alteration in the affinity of the binding sites for cathepsin G. However, platelets bound approximately twice as many molecules of native enzyme as molecules of phenylmethanesulphonyl fluoride-treated cathepsin G per cell. From these observations it can be inferred that the apparent positive co-operativity may in part reflect the exposure of binding sites due to the proteolytic activity of cathepsin G. However, this conclusion is not supported by experiments conducted with subsaturating cathepsin G concentrations, which demonstrated that ligand binding did not show an expected increase at longer time intervals. Measurement of Ca2+ mobilization and cathepsin G binding in the same platelet suspensions demonstrated that elevations in cytosolic free Ca2+ concentration had achieved near-maximal levels in the presence of 15 micrograms of cathepsin G/ml, whereas maximal binding was observed at approx. 35 micrograms/ml, indicating that only a fraction of the total binding sites need be occupied to elicit platelet activation. Pretreatment of platelets with forskolin or phorbol 12-myristate 13-acetate (PMA) decreased cathepsin G binding by approx. 60% and 40% respectively, indicating that the receptor may be desensitized or down-regulated by phosphorylation due to protein kinases. Since forskolin and PMA could diminish receptor availability by activating negative feedback mechanisms, inhibition of negative signal-transduction pathways could conversely play a role in the up-regulation of cathepsin G binding. In any event, these results show that cathepsin G is an agonist that must bind to platelets to initiate processes associated with cell activation, and suggest a role for cathepsin G in platelet function.

SUBMITTER: Selak MA 

PROVIDER: S-EPMC1131095 | biostudies-other | 1990 Feb

REPOSITORIES: biostudies-other

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