PAR1 thrombin receptor-G protein interactions. Separation of binding and coupling determinants in the galpha subunit |
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Authors: | Swift S Sheridan P J Covic L Kuliopulos A |
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Institution: | Molecular Cardiology Research Institute, Division of Hematology, New England Medical Center, Boston, Massachusetts 02111, USA. |
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Abstract: | Signal transfer between the protease-activated PAR1 thrombin receptor and membrane-associated heterotrimeric G proteins is mediated by protein-protein interactions. We constructed a yeast signaling system that resolves domain-specific functions of binding from coupling in the Galpha subunit. The endogenous yeast Galpha subunit, Gpa1, does not bind to PAR1 and served as a null structural template. N- and C-terminal portions of mammalian G(i2) and G(16) were substituted back into the Gpa1 template and gain-of-function assessed. The C-terminal third of G(16), but not of G(i2), provides sufficient interactions for coupling to occur with PAR1. The N-terminal two-thirds of G(i2) also contains sufficient determinants to bind and couple to PAR1 and overcome the otherwise negative or missing interactions supplied by the C-terminal third of Gpa1. Replacement of the N-terminal alpha-helix of G(i2), residues 1-34, with those of Gpa1 abolishes coupling but not binding to PAR1 or to betagamma subunits. These data support a model that the N-terminal alphaN helix of the Galpha subunit is physically interposed between PAR1 and the Gbeta subunit and directly assists in transferring the signal between agonist-activated receptor and G protein. |
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