Title : Crystal structure of hormone-bound atrial natriuretic
peptide receptor extracellular
domain : rotation mechanism for transmembrane signal transduction
Abstract :
- A cardiac hormone, atrial natriuretic peptide ( ANP ), plays a major role in blood pressure and volume regulation
- ANP activities are mediated by a single span transmembrane receptor carrying intrinsic guanylate cyclase activity
- ANP binding to its extracellular domain stimulates guanylate cyclase activity by an as yet unknown mechanism
- Here we report the crystal structure of dimerized extracellular hormone-binding domain in complex with ANP
- The structural comparison with the unliganded receptor reveals that hormone binding causes the two receptor monomers to undergo an intermolecular twist with little intramolecular conformational change
- This motion produces a Ferris wheel-like translocation of two juxtamembrane domains in the dimer with essentially no change in the interdomain distance
- This movement alters the relative orientation of the two domains by a shift equivalent to counterclockwise rotation of each by 24 degrees
- These results suggest that transmembrane signaling by the ANP receptor is initiated via a hormone-induced rotation mechanism
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