Abstract
The melanocortin-2 (MC2) receptor is a G protein-coupled receptor that mediates responses to ACTH. The MC2 receptor acts in concert with the MC2 receptor accessory protein (MRAP) that is absolutely required for ACTH binding and signaling. MRAP has a single transmembrane domain and forms a highly unusual antiparallel homodimer that is stably associated with MC2 receptors at the plasma membrane. Despite the physiological importance of the interaction between the MC2 receptor and MRAP, there is little understanding of how the accessory protein works. The dual topology of MRAP has made it impossible to determine whether highly conserved and necessary regions of MRAP are required on the intracellular or extracellular face of the plasma membrane. The strategy used here was to fix the orientation of two antiparallel MRAP molecules and then introduce inactivating mutations on one side of the membrane or the other. This was achieved by engineering proteins containing tandem copies of MRAP fused to the amino terminus of the MC2 receptor. The data firmly establish that only the extracellular amino terminus (Nout) copy of MRAP, oriented with critical segments on the extracellular side of the membrane, is essential. The transmembrane domain of MRAP is also required in only the Nout orientation. Finally, activity of MRAP-MRAP-MC2-receptor fusion proteins with inactivating mutations in either MRAP or the receptor was rescued by co-expression of free wild-type MRAP or free wild-type receptor. These results show that the basic MRAP-MRAP-receptor signaling unit forms higher order complexes and that these multimers signal.
Highlights
Signaling by G protein-coupled melanocortin-2 receptors requires MC2 receptor accessory protein (MRAP), a transmembrane accessory protein that forms antiparallel homodimers
ACTH stimulated a robust increase in cAMP when the receptor was expressed with either MRAP or MRAP-MRAP (Fig. 1B), showing that the accessory protein is sufficiently flexible to interact with receptor in a tandem conformation
ACTH responses were indistinguishable when receptor was expressed with MRAP or tandem constructs containing Mouse MRAP (mMRAP)-mMRAP, mMRAP-hMRAP␣, and hMRAP␣-mMRAP
Summary
Signaling by G protein-coupled melanocortin-2 receptors requires MRAP, a transmembrane accessory protein that forms antiparallel homodimers. Results: Mutational analysis of MRAP-MRAP-receptor fusion proteins established that MRAP oriented with an extracellular amino terminus is essential. The strategy used here was to fix the orientation of two antiparallel MRAP molecules and introduce inactivating mutations on one side of the membrane or the other This was achieved by engineering proteins containing tandem copies of MRAP fused to the amino terminus of the MC2 receptor. Activity of MRAPMRAP-MC2-receptor fusion proteins with inactivating mutations in either MRAP or the receptor was rescued by co-expression of free wild-type MRAP or free wild-type receptor These results show that the basic MRAP-MRAP-receptor signaling unit forms higher order complexes and that these multimers signal
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