Clinical profiles of post-load glucose subgroups and their association with glycaemic traits over time: An IMI-DIRECT study.

AIM: To examine the hypothesis that, based on their glucose curves during a seven-point oral glucose tolerance test, people at elevated type 2 diabetes risk can be divided into subgroups with different clinical profiles at baseline and different degrees of subsequent glycaemic deterioration. METHODS: We included 2126 participants at elevated type 2 diabetes risk from the Diabetes Research on Patient Stratification (IMI-DIRECT) study. Latent class trajectory analysis was used to identify subgroups from a seven-point oral glucose tolerance test at baseline and follow-up. Linear models quantified the associations between the subgroups with glycaemic traits at baseline and 18 months. RESULTS: At baseline, we identified four glucose curve subgroups, labelled in order of increasing peak levels as 1-4. Participants in Subgroups 2-4, were more likely to have higher insulin resistance (homeostatic model assessment) and a lower Matsuda index, than those in Subgroup 1. Overall, participants in Subgroups 3 and 4, had higher glycaemic trait values, with the exception of the Matsuda and insulinogenic indices. At 18 months, change in homeostatic model assessment of insulin resistance was higher in Subgroup 4 (ß = 0.36, 95% CI 0.13-0.58), Subgroup 3 (ß = 0.30; 95% CI 0.10-0.50) and Subgroup 2 (ß = 0.18; 95% CI 0.04-0.32), compared to Subgroup 1. The same was observed for C-peptide and insulin. Five subgroups were identified at follow-up, and the majority of participants remained in the same subgroup or progressed to higher peak subgroups after 18 months. CONCLUSIONS: Using data from a frequently sampled oral glucose tolerance test, glucose curve patterns associated with different clinical characteristics and different rates of subsequent glycaemic deterioration can be identified.

Discovery of an orally active non-peptide fibrinogen receptor antagonist based on the hydantoin scaffold.

Antagonists of the platelet fibrinogen receptor (GP IIb/IIIa receptor) are expected to be a promising new class of antithrombotic agents. The binding of fibrinogen to the fibrinogen receptor depends on an Arg-Gly-Asp-Ser (RGDS) tetrapeptide recognition motif. Structural modifications of the RGDS lead have led to the discovery of a non-peptide RGD mimetic GP IIb/IIIa antagonist 44 (S 1197). Compound 44 inhibited, in a dose dependent and reversible manner, human and dog platelet aggregation as well as 125I-fibrinogen binding to ADP-activated human gel filtered platelets and isolated GP IIb/IIIa with K(i) values of 9 nM and 0.17 nM, respectively. A pharmacophore mapping procedure with QXP and a 3D-QSAR analysis applying the GRID/GOLPE methodology yielded a stable, rather predictive model and revealed structural features which are important for binding. Hydrophobic substitutions both at the hydantoin nucleus and at the C-terminus increase the affinity toward the fibrinogen receptor. The crystalline ethyl ester prodrug 48 (HMR 1794) is an orally active antithrombotic agent which is a promising drug candidate for the treatment of thrombotic diseases in humans.

Increase of Bmax-values of beta-adrenoceptor sites after chronic treatment with reserpine?

After treatment of rats with 5 x 0.5 mg/kg/d reserpine in membrane preparations from the parotid gland no increase in the total number of beta-adrenoceptors (Bmax) was observed using the antagonist ligand (-)3H-dihydroalprenolol. There occurred, however, a pronounced increase of the high affinity agonist binding component. Thus, it appears that not the absolute number of beta-adrenoceptor sites but the relative amount of high affinity sites is most sensitive against the sensitization process. The results are in contrast to those of other authors. We suspect that increases of Bmax-values after reserpine can be simulated by the loss of noradrenaline whereas in control membranes noradrenaline is still bound to the adrenoceptors thus preventing the radioactive ligand from access to these sites. We highly recommend to use preincubation methods prior to ligand binding studies in order to remove endogenous ligands still bound to the high affinity site of the beta-adrenoceptor.

Phosphorylation of focal adhesion vasodilator-stimulated phosphoprotein at Ser157 in intact human platelets correlates with fibrinogen receptor inhibition.

Integrins and other adhesion receptors are essential components for outside-in and inside-out signaling through the cell membrane. The platelet glycoprotein IIb-IIIa (also known as fibrinogen receptor or integrin alpha IIb beta 3) is activated by platelet agonists, inhibited by cyclic-nucleotide-elevating agents, and is involved in the activation of protein tyrosine kinases including the 125-kDa focal adhesion kinase (pp125FAK). However, the molecular details of glycoprotein IIb-IIIa regulation are not well understood. Here we report that in ADP-activated human platelets cAMP- and cGMP-dependent protein-kinase-mediated phosphorylation of the focal adhesion vasodilator-stimulated phosphoprotein (VASP) at Ser157 correlates well with glycoprotein IIb-IIIa inhibition. Human platelets contain similar concentrations of glycoprotein IIb-IIIa complexes (fibrinogen binding sites) and VASP. Using gel-filtered platelets, cAMP-elevating agents [e.g. prostaglandin E1 and the forskolin analog 6-(3-dimethylaminopropionyl)forskolin (NKH 477)] caused VASP Ser157 phosphorylation and inhibited glycoprotein IIb-IIIa activation up to 70-100%. NO-generating, cGMP-elevating agents [e.g. 3-morpholinosydnonimine hydrochloride (SIN1) and sodium nitroprusside] stimulated VASP Ser157 phosphorylation and inhibited glycoprotein IIb-IIIa activation up to a maximal extent of 30-50%. The effects of cAMP- and cGMP-elevating agents on VASP phosphorylation and fibrinogen binding were reversible and could be mimicked by membrane-permeant selective activators of platelet cAMP- or cGMP-dependent protein kinase, respectively. Using threshold concentrations, the nitrovasodilator SIN 1 potentiated the effects of the forskolin analog NKH 477 with respect to inhibition of platelet aggregation, VASP phosphorylation and glycoprotein IIb-IIIa inhibition. It is proposed that the inhibition of glycoprotein IIb-IIIa induced by cyclic nucleotide involves cAMP-and cGMP-dependent protein-kinase-mediated VASP phosphorylation at Ser157.

High doses of methylene blue/light treatment crosslink the A-alpha-subunit of fibrinogen: influence of this photooxidization on fibrinogen binding to platelets.

Irradiation in the presence of 1 microM methylene blue (MB) inactivates enveloped viruses in human plasma. This method is a useful tool to enhance the safety of human fresh-frozen plasma in blood donor banks. Via a photooxidative mechanism, viral structures as well as plasma proteins, especially fibrinogen, can be damaged. We investigated the effect of MB/light-induced photooxidative modification on the structure of fibrinogen and its function in the interaction with platelets in the concentration range of 150 microM MB. Densitometric scanning of reduced SDS-PAGE showed a decrease in the Aalpha-subunit of fibrinogen as well as an increase in high-molecular-weight (HMW) aggregates with increasing MB concentrations. The HMW aggregates may be due to covalent crosslinking of single Aalpha-subunits via photooxidation induced by MB/light treatment. Fibrinogen treated with high doses of MB (50 microM) showed a weaker binding to the fibrinogen receptor (GP IIb/IIIa) on the platelet surface and a decrease in platelet aggregation after stimulation with ADP and photooxidized fibrinogen. These effects were not detected in fibrinogen isolated from virus-inactivated plasma (1 microM MB). This was in agreement with normal binding of fibrinogen to GP IIb/IIIa on platelets.

Effects of converting enzyme inhibitors and the calcium antagonist nifedipine alone and in combination on precontracted isolated rabbit aortic rings.

The calcium antagonist nifedipine markedly relaxed intact rabbit aortic rings precontracted with low level potassium chloride while converting enzyme (CE) inhibitors, ramiprilat, enalaprilat, and captopril were only marginally effective. Either CE inhibitor combined with nifedipine, however, significantly accentuated this relaxation. The CE inhibitors increased vascular cyclic GMP content while nifedipine was not active. Thus, inhibition of potassium chloride-induced calcium influx by nifedipine may unmask the vasorelaxant potential of CE inhibitors that in turn may result from local accumulation of endothelium-derived bradykinin.

A new variant of Glanzmann's thrombasthenia with defective activation-dependent fibrinogen binding and altered expression of epitopes for several monoclonal antibodies against GP IIb-IIIa.

In a family, a moderate bleeding disorder in two patients has been specified as Glanzmann's thrombasthenia because of characteristic defects in platelet function. Analysis of platelet membrane glycoproteins revealed about a 50% decrease in the amount of GP IIb-IIIa complex (α(11b)ß(3) integrin), which appeared normal with respect to electrophoretic mobility, apparent M, and isoelectric behaviour of GP IIb and GP IIIa. Content of platelet fibrinogen (Fg) was normal. [(125)I]Fg binding to ADP-stimulated platelets was strongly reduced but K(d) values indicated a much higher affinity of the residual receptors for both [(125)I]Fg and RGD peptide. Fg bound to the isolated complex as detected by crossed immunoelectrophoresis and there was substantial expression of endogenous Fg on the surface of washed thrombin-stimulated platelets. RGD-peptide induced increased binding of conformation-specific monoclonal antibodies (Mabs) LIBS 1 and PMI-1. Flow cytometric analysis revealed defective binding of nine Mabs, among them two out of three tested antibodies specific for GP IIIa (C 17, AP 5). Results indicate a genetic variant of GP IIb-IIIa complex with the structural abnormality possibly related to defective conformational change upon activation.