Thomas M. Connolly

An Antibody Against the Exosite of the Cloned Thrombin Receptor Inhibits Experimental Arterial Thrombosis in the African Green Monkey

BACKGROUNDnThrombin inhibitors have been shown to be efficacious in animal models of thrombosis and in initial human clinical trials. It is unknown if their efficacy is due to their prevention of thrombin-mediated fibrin formation or to an inhibitory effect on thrombin-stimulated platelet activation. Appropriate tools to address this question have not been available. Therefore, to evaluate the role of the platelet thrombin receptor in intravascular thrombus formation, a polyclonal antibody was raised against a peptide derived from the thrombin-binding exosite region of the cloned human thrombin receptor. This antibody serves as a selective inhibitor of the thrombin receptor for in vivo evaluation.nnnMETHODS AND RESULTSnThe immune IgG (IgG 9600) inhibited thrombin-stimulated aggregation and secretion of human platelets. In contrast, it had no effect on platelet activation induced by other agonists including ADP, collagen, or the thrombin receptor-derived peptide SFLLR-NH2. IgG 9600 also inhibited thrombin-induced aggregation of African Green monkey (AGM) platelets. By Western blot analysis, the IgG identified a protein of approximately 64 kD in homogenates of both human and AGM platelets. The effect of thrombin receptor blockade by this antibody on arterial thrombosis was evaluated in an in vivo model of platelet-dependent cyclic flow reductions (CFRs) in the carotid artery of the AGM. The intravenous administration of IgG 9600 (10 mg/kg) abolished CFRs in three monkeys and reduced CFR frequency by 50% in a fourth monkey. Ex vivo platelet aggregation in response to up to 100 nmol/L thrombin was completely inhibited during the 120-minute postbolus observation period in all four animals. There was a twofold increase in bleeding time, which was not statistically different from baseline, and ex vivo clotting time (APTT) was not changed. The glycoprotein IIb/IIIa receptor antagonist MK-0852 and the thrombin inhibitor recombinant hirudin also demonstrated inhibitory effects on CFRs at doses that did not significantly prolong template bleeding time. Control IgG had no effect on CFRs, ex vivo platelet aggregation, bleeding time, or APTT.nnnCONCLUSIONSnThese results demonstrate that blockade of the platelet thrombin receptor can prevent arterial thrombosis in this animal model without significantly altering hemostatic parameters and suggest that the thrombin receptor is an attractive antithrombotic target.

PLATELET AGGREGATION MONITORED IN A 96 WELL MICROPLATE READER IS USEFUL FOR EVALUATION OF PLATELET AGONISTS AND ANTAGONISTS.

Optimal conditions for a method to simultaneously measure aggregation in 96 samples using a microplate reader were developed. The temperature of the assay was set at 25 degrees C, the optimal platelet concentration range was determined to be from 1-3 x 10(8) per mL, the assay volume was determined to be best at 100 microL and an agitation rate of setting #5 on the vortex was found to yield the most reliable aggregation response. After these initial assay parameters were established, EC50 values for standard platelet agonists including ADP, thrombin, collagen and thrombin receptor activating peptides were determined using the plate assay and compared to those obtained by measuring light transmittance in an aggregometer. The results were quantitatively similar, and qualitatively the shapes of the aggregations as monitored by both methods were characteristic of those expected for each agonist. The use of this assay was then extended to quantitate the inhibition of aggregation by antagonists of the fibrinogen receptor as well as by an inactive thrombin receptor peptide and by antibodies against the thrombin receptor. This method provided useful data for characterization of both platelet agonists and antagonists and should be useful for future platelet aggregation studies.

Orally Efficacious NR2B-Selective NMDA Receptor Antagonists

A novel series of benzamidines was synthesized and shown to exhibit NR2B-subtype selective NMDA antagonist activity. Compound 31 is orally active in a carrageenan-induced rat hyperalgesia model of pain and shows no motor coordination side effects.

Discovery of a nonpeptidic small molecule antagonist of the human platelet thrombin receptor (PAR-1)

The synthesis and biological evaluation of a series of nonpeptidic small molecule antagonists of the human platelet thrombin receptor (PAR-1) are described. Optimization of the 5-amino-3-arylisoxazole lead resulted in an approximate 100-fold increase in potency. The most potent of these compounds (54) inhibits platelet activation with IC(50)s of 90 nM against the thrombin receptor agonist peptide (TRAP) and 510 nM against thrombin as the agonist. Further, antagonist 54 fully blocks platelet aggregation stimulated by 1 nM thrombin for 10 min.

Effect of inhibitors of factor Xa or platelet adhesion, heparin, and aspirin on platelet deposition in an atherosclerotic rabbit model of angioplasty injury

Acute thrombotic reocclusion and restenosis after successful coronary angioplasty are limitations of the procedure. Although the restenotic process is not completely understood, acute platelet deposition and thrombosis are considered important initiating mechanisms. The effort to identify pharmacologic agents capable of modifying acute platelet action following mechanical injury requires an animal model mimicking the clinical pathophysiology as closely as possible. We developed a model of angioplasty-induced injury in atherosclerotic rabbit femoral arteries. Acute 111indium-labelled platelet deposition and thrombosis were assessed four hours after balloon-injury in arteries subjected to prior endothelial damage (air desiccation) and cholesterol supplementation (one month). The effects of recombinant tick anticoagulant peptide (rTAP), a blood coagulation factor Xa (fXa) inhibitor and of recombinant leech antiplatelet protein (rLAPP), a platelet adhesion inhibitor, were compared to heparin (HEP) and aspirin (ASA). Recombinant TAP and HEP, but not rLAPP or ASA, successfully prevented thrombus formation and reduced platelet deposition in balloon-injured vessel segments to levels not significantly different from those observed in the contralateral atherosclerotic non-balloon-injured vessels. Therefore, this model, incorporating balloon catheter dilation of arteries exhibiting neointimal growth and atherosclerotic plaque formation, may be useful for evaluation of possible adjunctive therapies during angioplasty.

Discovery and initial structure-activity relationships of trisubstituted ureas as thrombin receptor (PAR-1) antagonists.

Thrombin is the most potent agonist of platelet activation, and its effects are predominantly mediated by platelet thrombin receptors. Therefore, antagonists of the thrombin receptor have potential utility for the treatment of thrombotic disorders. Screening of combinatorial libraries revealed 2 to be a potent antagonist of the thrombin receptor. Modifications of this structure produced 11k, which inhibits thrombin receptor stimulated secretion and aggregation of platelets.

Role of voltage-gated calcium channels in potassium-stimulated aldosterone secretion from rat adrenal zona glomerulosa cells.

The mineralocorticoid aldosterone plays an important role in the regulation of plasma electrolyte homeostasis. Exposure of acutely isolated rat adrenal zona glomerulosa cells to elevated K(+) activates voltage-gated calcium channels and initiates a calcium-dependent increase in aldosterone synthesis. We developed a novel 96-well format aldosterone secretion assay to rapidly evaluate the effect of known T- and L-type calcium channel antagonists on K(+)-stimulated aldosterone secretion and better define the role of voltage-gated calcium channels in this process. Reported T-type antagonists, mibefradil and Ni(2+), and selected L-type antagonist dihydropyridines, inhibited K(+)-stimulated aldosterone synthesis. Dihydropyridine-mediated inhibition occurred at concentrations which had no effect on rat alpha1H T-type Ca(2+) currents. In contrast, below 10 microM, the L-type antagonists verapamil and diltiazem showed only minimal inhibitory effects. To examine the selectivity of the calcium channel antagonist-mediated inhibition, we established an aldosterone secretion assay in which 8Br-cAMP stimulates aldosterone secretion independent of extracellular calcium. Mibefradil remained inhibitory in this assay, while the dihydropyridines had only limited effects. Taken together, these data demonstrate a role for the L-type calcium channel in K(+)-stimulated aldosterone secretion. Further, they confirm the need for selective T-type calcium channel antagonists to better address the role of T-type channels in K(+)-stimulated aldosterone secretion.