Group Theory Applied to Chemistry

Chemists are more used to the operational de?nition of symmetry, which crystallographers have been using long before the advent of quantum chemistry. Their balland-stick models of molecules naturally exhibit the symmetry properties of macroscopic objects: they pass into congruent forms upon application of bodily rotations about proper and improper axes of symmetry. Needless to say, the practitioner of quantum chemistry and molecular modeling is not concerned with balls and sticks, but with subatomic particles, nuclei, and electrons. It is hard to see how bodily rotations, which leave all interparticle distances unaltered, could affect in any way the study of molecular phenomena that only depend on these internal distances. Hence, the purpose of the book will be to come to terms with the subtle metaphors that relate our macroscopic intuitive ideas about symmetry to the molecular world. In the end the reader should have acquired the skills to make use of the mathematicaltools of group theory for whatever chemical problems he/she will be confronted with in the course of his or her own research

Platelet inhibitory activity of prostacyclin in the presence of erythrocytes as studied with the impedance aggregometer

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Continuous inhibition of serotonin-induced platelet-aggregation during chronic ketanserin administration to man can be detected after plasma-ph control

Ketanserin is a well-known serotonin S2 receptor antagonist but its capacity to inhibit serotonin-induced aggregation ex vivo during chronic administration has been a matter of debate. In vitro evidence is presented that the inhibitory capacity of ketanserin is lowered by increasing plasma pH. Since the pH of plasma kept at the open air increases with time, we studied the effect of chronic administered ketanserin on serotonin-induced platelet aggregation in plasma kept at a lowered pH of 7.70, by replacing the air with 95% O2-5% CO2. Using this slightly modified technique, we could, in contrast to our previous studies, observe a complete inhibition of the serotonin-induced aggregation throughout the ketanserin treatment period.status: publishe

The hemostatic system

The hemostatic system comprises platelet aggregation, coagulation and fibrinolysis also termed primary, secondary and tertiary hemostasis. From the platelet transcriptome 6000 mRNA species and represent receptors, ion channels, signalling molecules, kinases, phosphatases, and structural, metabolic and regulatory proteins. This abundance of regulatory proteins points towards the importance of signal transduction in platelet function. First platelets adhere to collagen, this induces activation signals such as TXA(2) that induces further Ca(2+) increase. Consecutively, fibrinogen binds to the integrin alpha(IIb)beta(3) resulting in aggregation.This self-amplifying process is controlled by signals, from endothelial cells, to restrict the platelet plug to the site of vessel injury. Secondary hemostasis (coagulation) consists of an extrinsic and intrinsic pathway. Thrombin is generated via Factor Xa resulting from the extrinsic tenase reaction that is turned of by tissue factor pathway inhibitor. While thrombin generation is maintained via positive feedback mechanisms activating factors V, VIII and XI. Excess thrombin is inhibited by antithrombin or by autodownregulation via activation of protein C. Since minor injuries are common, platelets and plasma clotting factors constantly produce clots to stop bleeding. If clots remained after the tissue healing, the vascular bed would become obstructed with clots therefore this is regulated by fibrinolysis, tertiary hemostasis. Tissue-type plasminogen activator synthesised by the endothelium, converts plasminogen to plasmin, the clot lysis enzyme. Plasmin clears the blood vessels by degrading fibrin. Fibrinolysis is controlled by plasminogen activators inhibitor (PAI-1), alpha2-antiplasmin and alpha2-macroglobulin, and thrombin-activatable fibrinolysis inhibitor (TAFI).status: publishe

A monoclonal antibody recognizes a von Willebrand factor domain within the amino-terminal portion of the subunit that modulates the function of the glycoprotein IB- and IIB/IIIA-binding domains

We developed a monoclonal antibody, 1C1E7, against vWf that increases ristocetin-induced platelet aggregation in a dose-dependent manner and lowers the threshold concentration of ristocetin needed to obtain a full aggregatory response. The platelet aggregatory effect of asialo vWf (ASvWf) also is enhanced by 1C1E7, in the presence or absence of glycoprotein (GP) IIb/IIIa receptor antagonism. In the presence of ristocetin, both intact 1C1E7 and its Fab fragments enhance specific binding of 125I-vWf to platelets. With 1C1E7, the intermediate and higher molecular weight multimers of vWf are preferentially bound to both GP Ib and GP IIb/IIIa. Thrombin-induced 125I-vWf binding to GP IIb/IIIa also is increased by 1C1E7. Maximal binding of 1C1E7 to vWf corresponds to 0.97 mol/mol vWf monomer with a Kd of 4.7 x 10(-10) M. 1C1E7 reacts with a 34/36-kD tryptic fragment (III-T4) and a 34-kD plasmic fragment (P34), which localizes the epitope between amino acid residues 1 and 272; this was confirmed by NH2-terminal amino acid sequencing. Finally, platelet aggregation by ASvWf was associated with a sharp rise in intracellular Ca2+ only in the presence of 1C1E7. An antibody-mediated conformational change of vWf may result in an improved presentation of the GP Ib- and GP IIb/IIIa-binding domains of mainly the larger multimers; the increased density of vWf on the platelet surface leads to platelet activation. The antibody may thus recognize a domain of relevance for vWf physiology.status: publishe

Prolonging prostacyclin production by nafazatrom or dipyridamole

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Leukotriene B4 production by stimulated whole blood: comparative studies with isolated polymorphonuclear cells

A new method was developed to study leukotriene B4 (LTB4) production by stimulated whole blood. The calcium ionophore A23187 and serum-treated zymosan induced LTB4 production, measured by radioimmunoassay, in a dose- and time-dependent manner. The pattern of LTB4 production by whole blood differed markedly from that observed with isolated, purified polymorphonuclear leukocytes. Higher levels of LTB4 were reached and maintained in whole blood. The system allowed to detect drug effects on LTB4 synthesis in vitro. This new method to study the synthesis of LTB4 takes into account the complex interactions between different cell types which can modulate LTB4 metabolism.status: publishe

Lack of synergism between dazoxiben and dipyridamole following administration to man

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Intravenous ionic contrast media cause local prostacyclin release in man

The effect of intravenous administration of ionic contrast media on local release of prostacyclin (PGI2) was investigated in man. Iodamide and ioxaglate, high- and low-osmolality contrast media, respectively, both significantly increased PGI2 levels at the site of injection. Iodamide was the most active, whereas an identical volume of isotonic saline had no effect. This study suggests that local formation of PGI2 may adequately reflect the degree of endothelial irritation that is caused by contrast media and that depends in part on their osmolality.status: publishe

Continuous inhibition of the platelet S2-serotonergic receptors during the long term administration of ketanserin

status: publishe