Alexander E. Kogan

Mathematical Model for the Blood Coagulation Prothrombin Time Test

A mathematical model for the prothrombin time test is proposed. The time course of clotting factor activation during coagulation was calculated, and the sensitivity of the test to a decrease in the concentrations of coagulation proteins or their activities was studied. The model predicts that only severe coagulation disorders connected with a more than five-fold decrease in the concentrations or activities of the blood coagulation factors can be revealed by the test.

Analysis of the Activated Partial Thromboplastin Time Test Using Mathematical Modeling

Activated partial thromboplastin time (APTT) is a laboratory test for the diagnosis of blood coagulation disorders. The test consists of two stages: The first one is the preincubation of a plasma sample with negatively charged materials (kaolin, ellagic acid etc.) to activate factors XII and XI; the second stage begins after the addition of calcium ions that triggers a chain of calcium-dependent enzymatic reactions resulting in fibrinogen clotting. Mathematical modeling was used for the analysis of the APTT test. The process of coagulation was described by a set of coupled differential equations that were solved by the numerical method. It was found that as little as 2.3 x 10(-9) microM of factor XIIa (1/10000 of its plasma concentration) is enough to cause the complete activation of factor XII and prekallikrein (PK) during the first 20 s of the preincubation phase. By the end of this phase, kallikrein (K) is completely inhibited, residual activity of factor XIIa is 54%, and factor XI is activated by 26%. Once a clot is formed, factor II is activated by 4%, factor X by 5%, factor IX by 90%, and factor XI by 39%. Calculated clotting time using protein concentrations found in the blood of healthy people was 40.5 s. The most pronounced prolongation of APTT is caused by a decrease in factor X concentration.

Protein C activator from the venom of Agkistrodon blomhoffi ussuriensis retards thrombus formation in the arterio-venous shunt in rats.

Protein C (PC) is an anticoagulant protein which, being activated by thrombin, degrades factors V/Va and VIII/VIIIa and releases a tissue-type plasminogen activator. Some Agkistrodon snake venoms contain PC activators which, in experiments, exert an anticoagulant action. An antithrombotic effect of the PC activator from the venom of A. blomhoffi ussuriensis on the model of thrombus formation in the arterio-venous shunt in rats was under investigation. Administration of the PC activator resulted in a dose-dependent prolongation of the thrombus formation time and a decrease in plasma PC activity, which were accompanied by a decrease in factor V activity and APTT prolongation. No reliable changes in the t-PA level, ADP- and epinephrine-induced platelet aggregation were observed. Platelet adhesion to glass beads diminished. We assume that the antithrombotic effect of the PC activator from the A. blomhoffi venom in the platelet-dependent thrombosis model is caused by PC activation and subsequent factor V inactivation as well as by platelet adhesiveness reduction.

Thrombin-Mediated Degradation of Human Cardiac Troponin T

BACKGROUND Cardiac troponin T (cTnT) is an acknowledged biomarker of acute myocardial infarction (AMI) that is known to be prone to proteolytic degradation in serum. Such degradation is usually explained by the action of μ-calpain, although there could be other candidates for that role. In the current study, we explored the hypothesis that thrombin-mediated cTnT cleavage occurs as a result of the serum sample preparation. METHODS cTnT degradation was studied by using immunoblotting and mass spectrometry (MS) analysis. RESULTS The comparison of cTnT isolated from AMI heparin plasma and serum samples showed that cTnT in the plasma samples was mainly present as the full-sized molecule (approximately 35 kDa), while in serum samples it was present as a 29-kDa fragment. The incubation of recombinant cTnT, or native ternary cardiac troponin complex with thrombin or in normal human serum (NHS), resulted in the formation of a 29-kDa product that was similar to that detected in AMI serum samples. No cTnT degradation was observed when thrombin or NHS was pretreated with hirudin, a specific inhibitor of thrombin, or during incubation of troponin in normal heparin plasma. When the products of thrombin-mediated cTnT proteolysis were analyzed by MS, 2 fragments consisting of amino acid residues (aar) 2-68 and 69-288 were identified, which suggests that thrombin cleaves cTnT between R68 and S69. CONCLUSIONS The results of this study suggest that the 29-kDa fragment of cTnT in AMI serum samples mainly appears due to the cleavage by thrombin during serum sample preparation.

Anti–Cardiac Troponin Autoantibodies Are Specific to the Conformational Epitopes Formed by Cardiac Troponin I and Troponin T in the Ternary Troponin Complex

BACKGROUND Autoantibodies to cardiac troponins (TnAAbs) could negatively affect cardiac troponin I (cTnI) measurements by TnAAbs-sensitive immunoassays. We investigated the epitope specificity of TnAAbs and its influence on cTnI immunodetection in patients with acute myocardial infarction (AMI). METHODS The specificity of TnAAbs was studied in immunoassays and gel-filtration experiments. The influence of TnAAbs on endogenous troponin measurements was studied in 35 plasma samples from 15 patients with AMI. RESULTS The inhibitory effect of TnAAbs on the cTnI immunodetection was observed only for the ternary cardiac troponin complex (I-T-C) and not for the binary cardiac troponin complex (I-C) or free cTnI. In the same TnAAbs-containing samples, the immunodetection of cardiac troponin T (cTnT) added in the form of I-T-C (but not free cTnT) was also inhibited in the assays that used monoclonal antibodies (mAbs) specific to the 223-242 epitope. The negative effects of TnAAbs on the measurements of endogenous cTnI in AMI samples were less than on the measurements of isolated I-T-C and decreased with time after the onset of symptoms. Early AMI blood samples might contain a mixture of the I-T-C and I-C complexes with the ratio gradually changing with the progression of the disease in favor of I-C. CONCLUSIONS The investigated TnAAbs are specific to the structural epitopes formed by cTnI and cTnT molecules in the I-T-C complex. AMI blood samples contain a mixture of I-C and I-T-C complexes. The concentrations of total cTnI at the early stage of AMI could be underestimated in approximately 5%-10% of patients if measured by TnAAbs-sensitive immunoassays.

Comparison of soluble and placental transferrin receptors as standards for the determination of soluble transferrin receptor in humans

Transferrin receptor is a transmembrane protein that mediates iron transport from blood into cells. The extracellular part of this receptor circulates in blood as soluble transferrin receptor (sTfR) and the immunological determination of this parameter is widely used in clinical practice. This study aimed at comparing the properties of sTfR and placental TfR (pTfR) and to evaluate the validity of pTfR as a standard for the determination of sTfR in human serum. sTfR and pTfR were studied by immunofluorescent assay and fast protein liquid chromatography (FPLC) gel filtration. Serum sTfR levels were calculated using sTfR or pTfR as a standard. The immunological activity of pTfR was lower than that of sTfR in all anti‐TfR monoclonal antibody pairs. Upon FPLC gel filtration, pTfR eluted in a void volume of the column as a protein with a molecular weight (MW) of >1500 kDa, whereas the MW of sTfR corresponded to 237 kDa. This could be a result of micelle formation by pTfR because of its hydrophobic intracellular part. The serum sTfR levels calculated against sTfR were 2.5 times lower than those calculated against pTfR. Serum sTfR levels are overestimated when pTfR is used as the standard.

Anticoagulant effect of the protease from Agkistrodon venom mediated by protein C activation in rats

The present study was undertaken to elucidate the in vivo action of the protein C activator and its protective effects upon thromboplastin-induced thrombogenesis

Monoclonal antibodies with equal specificity to D-dimer and high-molecular-weight fibrin degradation products.

Fibrin degradation results in the formation of fibrin degradation products (FDPs) of different molecular weights, which include D-dimer. Commercial D-dimer assays recognize multiple forms of FDP with different specificity. As a result, the absence of an international D-dimer standard and the marked discrepancy in the D-dimer values in the same samples measured by assays from different manufacturers have become the primary problems that clinicians face in the D-dimer determination. We consider that an assay with equal specificity to all FDP forms regardless of their molecular weights could help to solve these problems. We aimed to produce mAbs that could equally recognize high-molecular-weight FDP (HMW FDP) and D-dimer. mAbs against D-dimer were produced. The HMW FDP/D-dimer ratios in plasma samples were analyzed following protein separation by gel filtration using the developed fluoroimmunoassay. A sandwich immunoassay with equal specificity to HMW FDP and D-dimer was developed and applied to determine HMW FDP/D-dimer ratios in patients with different diseases. Although the HMW FDP levels prevailed in thrombotic patients, the FDP and D-dimer levels were comparable in septic patients. Meanwhile, the D-dimer levels often exceeded the HMW FDP levels in patients who had undergone surgery. The ‘D-dimer’ levels that were detected by different assays also varied greatly depending on the assay specificities to FDP and D-dimer. Our findings show that the introduction of assays with equal specificities to FDP and D-dimer in clinical practice is a possible way of standardizing D-dimer measurements.

OLIGOMERIC ADIPONECTIN FORMS AND THEIR COMPLEXES IN THE BLOOD OF HEALTHY DONORS AND PATIENTS WITH TYPE 2 DIABETES MELLITUS

Adiponectin (Adn) is a protein that circulates in the blood in several oligomeric forms, namely low-, medium-, and high-molecular-weight forms. Adn may serve as a risk factor for type 2 diabetes mellitus (T2DM). The aims of this work were (1) to produce monoclonal antibodies (MAbs) specific to different Adn oligomeric forms, (2) to design immunoassays suitable for measuring the Adn forms present in human blood, and (3) to investigate the changes in Adn forms that occur in patients with T2DM. Gel filtration, fluoroimmunoassays, and Western blotting were utilized as major techniques in this study. MAbs recognizing various oligomeric forms of Adn were obtained. Complexes between Adn and complement component C1q and between the low molecular weight form of Adn and albumin were described in human blood. A decrease in the total Adn and Adn-albumin complex levels in the blood of patients with T2DM and no difference in the levels of the Adn-C1q complex in comparison with healthy volunteers were demonstrated. An Adn94-Adn63 fluoroimmunoassay was selected as the technique that most accurately measured the mass ratio of Adn oligomers in blood samples, and an Adn214-Adn27 assay that measured the low-molecular-weight form of Adn only.

Epitope Specificity of Anti–Cardiac Troponin I Monoclonal Antibody 8I-7

To the Editor: The monoclonal antibody (MAb)1 8I-7 (International Point of Care Inc.) has been considered a sensitive tool for the detection of human cardiac troponin I (cTnI) for at least 15 years (1). It has been used in several cTnI assays and in different cTnI studies (1–5). According to the manufacturers data, 8I-7 is specific to the epitope comprising amino acid residues 137–148 of the cTnI molecule. In the March issue of Clinical Chemistry , Savukoski et al. (2) presented a study dedicated to evaluating the epitope specificity of autoantibodies to cTnI (cTnAAbs). In this study, commercial anti-cTnI MAbs specific to different epitopes were used as capture antibodies in sandwich immunoassays with an anti–troponin C MAb used as a tracer. The authors estimated the inhibition of signal after spiking in cTnAAb-positive and cTnAAb-negative (as a control) samples with a ternary troponin complex. The study showed that the anti-TnI MAbs specific to the region located between residues 65 and 158 …