Whole cell voltage clamp experiments were performed in a mouse cortical collecting duct principal cell line using patch pipettes back-filled with a solution containing phosphatidylinositol 3,4,5-trisphosphate (PIP 3 ). PIP 3 significantly increased amiloridesensitive current in control cells but not in the cells prestimulated by aldosterone. Additionally, aldosterone stimulated amiloridesensitive current in control cells, but not in the cells that expressed a PIP 3 -binding protein (Grp1-PH), which sequestered intracellular PIP 3 . 12 amino acids from the N-terminal tail (APGEKIKAKIKK) of ␥-epithelial sodium channel (␥-ENaC) were truncated by PCRbased mutagenesis (␥ T -ENaC). Whole cell and confocal microscopy experiments were conducted in Madin-Darby canine kidney cells co-expressing ␣-and -ENaC only or with either ␥-ENaC or ␥ T -ENaC. The data demonstrated that the N-terminal tail truncation significantly decreased amiloride-sensitive current and that both the N-terminal tail truncation and LY-294002 (a PI3K inhibitor) prevented ENaC translocation to the plasma membrane. These data suggest that PIP 3 mediates aldosterone-induced ENaC activity and trafficking and that the N-terminal tail of ␥-ENaC is necessary for channel trafficking, probably channel gating as well. Additionally, we demonstrated a novel interaction between ␥-ENaC and PIP 3 .
ENaC2 is a member of the ENaC/Deg superfamily of ion channels responsible for sodium transport across the apical membrane of a variety of epithelia including the colon, lung, and kidney (reviewed in Ref. 1). Since 1994, when ENaC was initially cloned from rat colon (2), the biophysical properties and molecular structure of ENaC have been extensively studied. Several lines of evidence suggest that ENaC is composed of three subunits, ␣, , and ␥, and that all three subunits are required to form a functional ␣␥-ENaC channel complex (2-9).Studying the mechanisms that regulate ENaC function is important because abnormal channel activity leads to several severe diseases. Constitutive activation of any component of ENaC subunits can cause Liddle's syndrome, an autosomal dominant inherited disease that causes excessive sodium retention and hypertension. Conversely, loss of function mutations in ␣-, -, or ␥-ENaC causes pseudohypoaldosteronism type I, a hypotensive condition characterized by an inability to retain salt. These syndromes highlight the importance of normal ENaC activity in the kidney to maintain fluid and sodium homeostasis. The proper regulation of ENaC activity is also very important in the lung, because transgenic mice lacking functional channels die within 40 h of birth from fluid filled airways (10). Additionally, increases in intracellular Cl Ϫ concentrations that secondarily lead to changes in ENaC activity play an important role in the pathophysiology of cystic fibrosis (11).Anionic phospholipids, such as phosphatidylinositol 4,5-bisphosphate (PIP 2 ) and phosphatidylinositol 3,4,5-trisphosphate (PIP 3 ), are normally located in the inner leaflet of the plas...
