The Journal of biological chemistry
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Comparative Study
Chimeric vesicular monoamine transporters identify structural domains that influence substrate affinity and sensitivity to tetrabenazine.
The vesicular monoamine transporters (VMATs) 1 and 2 show close sequence similarity but substantial differences in apparent substrate affinity and drug sensitivity. To identify structural domains that determine these functional characteristics, chimeric transporters were constructed and their properties were analyzed in a heterologous expression system. The results implicate multiple regions in the recognition of serotonin and histamine and the sensitivity to tetrabenazine. ⋯ In addition, the extreme N terminus of VMAT2 alone suffices to confer a partial increase in substrate affinity and tetrabenazine sensitivity. Despite these similarities among the interactions with serotonin, histamine, and tetrabenazine, the region of VMAT2 from TMD3 through TMD4 increases serotonin affinity but not histamine affinity or tetrabenazine sensitivity, and whereas the region from TMD5 to TMD8 of VMAT2 increases serotonin affinity in the context of more C-terminal VMAT2 sequences, the region encompassing TMD5 through TMD7 reduces serotonin but not histamine affinity or tetrabenazine sensitivity in the context of more N-terminal VMAT2 sequences. Thus, the chimeric analysis also reveals differences between serotonin recognition and the recognition of both histamine and tetrabenazine that may account for the observed differences in their interaction with the transport protein.
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Distinctions between chemotaxis and haptotaxis of cells to extracellular matrix proteins have not been defined in terms of mechanisms or signaling pathways. Migration of A2058 human melanoma cells to soluble (chemotaxis) and substratum-bound (haptotaxis) vitronectin, mediated by alphav beta3, provided a system with which to address these questions. Both chemotaxis and haptotaxis were completely inhibited by treatment with RGD-containing peptides. ⋯ In contrast, soluble vitronectin (50-100 microg/ml) did not induce tyrosine phosphorylation of paxillin. The data suggest that soluble vitronectin stimulates chemotaxis predominantly through a G protein-mediated pathway that is functionally linked to alphavbeta3. Haptotaxis is analogous to directional cell spreading and requires alphavbeta3-mediated tyrosine phosphorylation of paxillin.
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Ra1A and Ra1B are GTPases of unknown function and are activated by proteins, Ra1GDS, that interact with the active form of another GTPase, Ras. To elucidate Ral function, we have searched for proteins interacting with an activated form of Ra1A using the two-hybrid method and a Jurkat cell library. We have identified a partial cDNA encoding a protein, RLIP1, which binds to activated Ra1A and this binding requires an intact effector domain of Ra1A. ⋯ The whole cDNA was cloned, and it encodes a 76-kDa polypeptide, RLIP76, which also binds RalA. The Rho pathway is involved in membrane and cytoskeleton modifications after mitogenic stimulation and acts in parallel to and synergistically with the Ras pathway. We propose that these pathways are linked through a cascade composed of Ras --> Ra1GDS --> Ra1 --> RLIP76 --> CDC42/Rac1/Rho, allowing modulation of the Rho pathway by the Ras pathway.
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Mouse mast cell protease 7 (mMCP-7) is a tryptase stored in the secretory granules of mast cells. At the granule pH of 5.5, mMCP-7 is fully active and is bound to heparin-containing serglycin proteoglycans. to understand the interaction of mMCP-7 with heparin inside and outside the mast cell, this trytase was first studied by comparative protein modeling. The "pro" form of mMCP-7 was then expressed in insect cells and studied by site-directed mutagenesis. ⋯ Because the binding requires positively charged His residues, native mMCP-7 is able to dissociate from the protease/proteoglycan macromolecular complex when the complex is exocytosed from bone marrow-derived mast cells into a neutral pH environment. Many hematopoietic effector cells store positively charged proteins in granules that contain serglycin proteoglycans. The heparin/mMCP-7 interaction, which depends on the tertiary structure of the tryptase, may be representative of a general control mechanism by which hematopoietic cells maximize storage of properly folded, enzymatically active proteins in their granules.
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Platelet integrin alpha IIb beta 3 (GPIIb-IIIa) plays important roles in platelet-mediated clot retraction. However, little is known about the mechanisms of clot retraction mediated by nucleated cells. In this report, we demonstrate that another member of the beta 3 integrin family, alpha v beta 3, is involved in clot retraction mediated by nucleated cells. ⋯ The beta 3-bearing transfectants were found to retract fibrin gels, which was specifically inhibited by anti-beta 3 antibody. In addition, a point mutation at Asp119 in the beta 3 ligand binding domain abolished the clot retractile activity of 293 transfectants, indicating the requirement of alpha v beta 3 ligand-binding activity. Our findings suggest that alpha v beta 3 is involved in mediating the interaction between the three-dimensional fibrin network and nucleated cells and in promoting "post-receptor occupancy" events.