F. van der Graaf scite author profile

A B S T R A C T Human plasma kallikrein is inactivated by plasma protease inhibitors. This study was designed to determine the nature of these protease inhibitors and to assess their relative importance in the inactivation of kallikrein. Therefore, the kinetics of kallikrein inactivation and the formation of kallikrein inhibitor complexes were studied in normal plasma and in plasma depleted of either a2-macroglobulin (a2M), CI inhibitor, or antithrombin (AT 1II). Prekallikrein was activated by incubation of plasma with dextran sulfate at 40C. After maximal activation, kallikrein was inactivated at 370C. Inhibition of kallikrein amidolytic activity in AT III-deficient plasma closely paralleled the inactivation rate of kallikrein in normal plasma. The inactivation rate of kallikrein in a2M-deficient plasma was slightly decreased compared with normal plasma, but in contrast to normal, CI inhibitordeficient, and AT III-deficient plasma, no kallikrein amidolytic activity remained after inactivation that was resistant to inhibition by soybean trypsin inhibitor. Suppression of kallikrein activity in CI inhibitor-deficient plasma was markedly decreased, and this was even more pronounced in plasma deficient in both CI inhibitor and a2M. The pseudo first-order rate constants for kallikrein inactivation in normal, AT Ill-deficient, a2M-deficient, CI inhibitor-deficient plasma, and plasma deficient in both a2M and CI inhibitor, were 0.68, 0.60, 0.43, 0.07, and 0.016 min-', respectively. Sodium dodecyl sulfate gradient polyacrylamide slab gel electrophoresis showed that during inactivation of kallikrein in plasma, high-Mr complexes were formed with Mr at 400,000-1,000,000, 185,000, and 125,000-135,000, which were identified as complexes of '251-kallikrein with a2M, CI inhibitor, and AT III, respectively. In addition, the presence of an unidentified kallikrein-inhibitor complex was observed in AT III-deficient plasma. 52% of the '251-kallikrein was associated with Cl-inhibitor, 35% with a2M, and Address all correspondence to Dr. van der Graaf. Received for publication 25 June 1982

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Strategies for the Safe and Effective Exclusion and Diagnosis of Deep Vein Thrombosis by the Sequential Use of Clinical Score, D-Dimer Testing, and Compression Ultrasonography

Michiels¹,

Freyburger²,

Graaf³

et al. 2000

Semin Thromb Hemost

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Patients with suspected deep vein thrombosis (DVT) are subjected to leg vein compression ultrasonography (CUS) that confirms DVT in only 20 to 30% of patients. A positive CUS is consistent with DVT irrespective of clinical score. The sequential use of a simple clinical score assessment, a rapid sensitive enzyme-linked immunosorbent assay (ELISA) D-dimer test and CUS to safely exclude DVT is promising. The clinical score is a validated clinical model of complaints, signs, and symptoms, on the basis of which a pretest clinical probability for DVT can be estimated as low, moderate, and high. The safe exclusion of DVT by a rapid sensitive D-dimer test in combination with clinical score or CUS necessitates a negative predictive value of more than 99%. The negative predictive value for DVT is determined by the sensitivity of the rapid ELISA D-dimer test and the prevalence of DVT in subgroups of outpatients with suspected DVT. The prevalence of DVT in outpatients with a low, moderate, and high clinical score varies widely from 3 to 10%, 15 to 30% and more than 70%, respectively. A negative rapid ELISA D-dimer and a low clinical score (prevalence DVT 3 to 5%) will have a very high negative predictive value of more than 99.5% to exclude DVT without the need of CUS testing. A negative ELISA D-dimer test and a first-negative CUS safely exclude DVT in patients with a moderate clinical score with a negative predictive value of more than 99.5%, therefore obviating the need to repeat CUS. The use of a rapid ELISA D-dimer testing in patients with a high clinical score is not recommended. A negative CUS, a low clinical score, and a positive ELISA D-dimer, even less than 1000 ng/mL exclude DVT with a nega tive predictive value of more than 99%. Patients with a negative CUS, but a positive ELISA D-dimer, and a moderate or high clinical score have a probability of DVT of 3 to 5% and 20 to 30%, respectively, and are thus candidates for repeated CUS testing. The proposed sequential use of the clinical score assessment, a rapid ELISA D-dimer test, and CUS will be the most cost-effective diagnostic strategy for DVT because of a significant reduction of CUS examinations and gain of time for the patient and physician in charge.

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Interaction of human plasma kallikrein and its light chain with C.hivin.1 inhibitor

Graaf¹,

Koedam²,

Griffin³

et al. 1983

Biochemistry

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The light chain of human plasma kallikrein contains the enzymatic active site. The inactivation of kallikrein and of its isolated light chain by C1 inhibitor was investigated to assess the functional contributions of the heavy-chain region of kallikrein and of high molecular weight kininogen to this reaction. The second-order rate constants for the inactivation of kallikrein or its light chain were respectively 2.7 X 10(6) and 4.0 X 10(6) M -1 min -1. High molecular weight kininogen did not influence the rate of kallikrein inactivation. The nature of the complexes formed between kallikrein or its light chain and C1 inhibitor was studied by using sodium dodecyl sulfate (SDS) gradient polyacrylamide slab gel electrophoresis. Kallikrein as well as its light chain combined with C1 inhibitor to form stable stoichiometric complexes that were not dissociated by SDS and that exhibited apparent molecular weights (Mr's) of 185 000 and 135 000, respectively, on nonreduced SDS gels. Reduction of the kallikrein-C1 inhibitor complex gave a band at Mr 135 000 that comigrated with the complex seen for the light chain-C1 inhibitor complex. During the inactivation of both kallikrein and its light chain, a Mr 94 000 fragment of C1 inhibitor was formed which was unable to inactivate or bind kallikrein or its light chain. Kallikrein inactivated by diisopropyl phosphofluoridate did not form SDS-stable complexes with C1 inhibitor. These results demonstrate that the functional binding site for C1 inhibitor is localized in the light chain of kallikrein.(ABSTRACT TRUNCATED AT 250 WORDS)

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Synaptic transmission in the rat dentate gyrus after adrenalectomy

et al. 1998

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F. van der Graaf

Inflammatory response in the acute phase of deep vein thrombosis

Inactivation of kallikrein in human plasma.

Strategies for the Safe and Effective Exclusion and Diagnosis of Deep Vein Thrombosis by the Sequential Use of Clinical Score, D-Dimer Testing, and Compression Ultrasonography

Interaction of human plasma kallikrein and its light chain with C.hivin.1 inhibitor

Synaptic transmission in the rat dentate gyrus after adrenalectomy

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