MODULATION OF CARDIAC NAV CHANNEL FUNCTION AND ELECTROPHYSIOLOGY BY INTERACTING MOLECULES
$381,250R01FY2017HLNIH
Washington University, Saint Louis MO
Investigators
Linked publications & trials
Paper 37965565Paper 37034130Paper 35175690Paper 35076394Paper 34398881Paper 34347027Paper 34216406Paper 34156986Paper 32612253Paper 31709321Paper 31659116Paper 30566038Paper 29401425Paper 28898267Paper 28837385Paper 28720590
Abstract
Abstract In excitable cells, voltage-gated Na+ channels initiate the action potential. In recent years, it has been discovered that these channels are composed of many parts to form a macromolecular signaling complex. These different parts precisely tune the function of Na+ channels to the cells that they reside in. This proposal aims to begin to discover mechanisms of how one component, the ?-subunits, modulate the function and pharmacology of Na+ channels. If the proposed aims succeed, this new understanding could provide a route to more effective and precisely-directed therapies for excitability disorders such as arrhythmia and epilepsy.
View original record on NIH RePORTER →