Identification of a calmodulin-binding domain in Sema4D that regulates its exodomain shedding in platelets.

Semaphorin 4D (Sema4D) is a transmembrane protein that supports contact-dependent amplification of platelet activation by collagen before being gradually cleaved by the metalloprotease ADAM17, as we have previously shown. Cleavage releases a soluble 120-kDa exodomain fragment for which receptors exist on platelets and endothelial cells. Here we have examined the mechanism that regulates Sema4D exodomain cleavage.

Hierarchical organization in the hemostatic response and its relationship to the platelet-signaling network.

Achieving hemostasis following vascular injury requires the rapid accumulation of platelets and fibrin. Here we used a combination of confocal intravital imaging, genetically engineered mice, and antiplatelet agents to determine how variations in the extent of platelet activation following vascular injury arise from the integration of different elements of the platelet-signaling network. Two forms of penetrating injury were used to evoke the hemostatic response.

Platelet signaling.

This chapter summarizes current ideas about the intracellular signaling that drives platelet responses to vascular injury. After a brief overview of platelet activation intended to place the signaling pathways into context, the first section considers the early events of platelet activation leading up to integrin activation and platelet aggregation. The focus is on the G protein-mediated events utilized by agonists such as thrombin and ADP, and the tyrosine kinase-based signaling triggered by collagen.

The role of semaphorins and their receptors in platelets: Lessons learned from neuronal and immune synapses.

During thrombus formation, activated platelets come into close and increasingly stable contact with each other. This produces a microenvironment in which soluble agonists can accumulate, and proteins on the surface of adjacent platelets can directly interact with each other, potentially modulating subsequent thrombus growth and stability. In some ways, this microenvironment resembles the synapses that support signal propagation between neurons and the exchange of information between T-cells, B-cells, and dendritic cells.

Deciphering the human platelet sheddome.

Activated platelets shed surface proteins, potentially modifying platelet function as well as providing a source of bioactive fragments. Previous studies have identified several constituents of the platelet sheddome, but the full extent of shedding is unknown. Here we have taken a global approach, analyzing protein fragments in the supernate of activated platelets using mass spectroscopy and looking for proteins originating from platelet membranes.

Diminished contact-dependent reinforcement of Syk activation underlies impaired thrombus growth in mice lacking Semaphorin 4D.

We recently reported that Semaphorin 4D (Sema4D) and its receptors are expressed on the platelet surface and showed that Sema4D((-/-)) mice have a selective defect in collagen-induced platelet aggregation and an impaired vascular injury response. Here we investigated the mechanisms involved, tested the role of platelet-platelet contacts in Sema4D-mediated events, and examined the relationship between Sema4D-dependent signaling and integrin α(IIb)β(3) outside-in signaling. The results show that spleen tyrosine kinase (Syk) activation, an early step in collagen signaling via the glycoprotein VI (GPVI)/FcRγ complex, is greatly reduced in Sema4D((-/-)) platelets and can be restored by adding soluble Sema4D.

Novel delta opioid receptor agonists exhibit differential stimulation of signaling pathways.

A novel family of 1,3,5-trisubstituted 1,2,4-triazoles was discovered as potent and selective ligands for the delta opioid receptor by rational design. Compound 5b exhibited low-nanomolar in vitro binding affinity (IC(50)=5.8 nM), excellent selectivity for the delta opioid receptor over the alternative mu and kappa opioid receptors, full agonist efficacy in receptor down-regulation and MAP kinase activation assays, and low-efficacy partial agonist activity in stimulation of GTPgammaS binding.

Purification and mass spectrometric analysis of the kappa opioid receptor.

A clonal human embryonic kidney (HEK) 293 cell line was established that stably expressed the rat kappa-opioid receptor (rKOR) with a FLAG epitope at the amino terminus. The Kd for [3H]diprenorphine was 1.1+/-0.

Search of the human proteome for endomorphin-1 and endomorphin-2 precursor proteins.

Based on the promising opioid pharmacological profile of the peptide, Tyr-Pro-Trp-Gly-NH(2) (Tyr-W-MIF), Zadina et al. [Zadina, J.E.

A select set of opioid ligands induce up-regulation by promoting the maturation and stability of the rat kappa-opioid receptor in human embryonic kidney 293 cells.

Ligand-induced regulation of the rat kappa-opioid receptor (rKOR) was investigated in human embryonic kidney 293 cells stably expressing the FLAG-tagged rKOR. Incubation of rKOR cells with naltrexone for 24 h increased the B(max) >3-fold, with no change in the affinity of [(3)H]diprenorphine. Two immunoreactive receptor species were present in cell lysates: naltrexone treatment caused a >3-fold increase in the 52-kDa species while decreasing the level of the 42-kDa species.