Charged residues in the M2 region of alpha-hENaC play a role in channel conductance |
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Authors: | Langloh A L Berdiev B Ji H L Keyser K Stanton B A Benos D J |
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Institution: | Department of Physiology and Biophysics, University of Alabama at Birmingham, Birmingham, Alabama 35294-0005, USA. |
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Abstract: | The epithelial Na+channel (ENaC) is a low-conductance channel that is highly selectivefor Na+ andLi+ overK+ and impermeable toanions. The molecular basis underlying these conductionproperties is not well known. Previous studies with the ENaC subunitsdemonstrated that the M2 region of -ENaC is critical to channelfunction. Here we examine the effects of reversing the negative chargesof highly conserved amino acids in -subunit human ENaC (-hENaC)M1 and M2 domains. Whole cell and single-channel currentmeasurements indicated that the M2 mutations E568R, E571R, and D575Rsignificantly decreased channel conductance but did not affectNa+:K+permeability. We observed no functional perturbations from the M1mutation E108R. Whole cell amiloride-sensitive current recorded fromoocytes injected with the M2 -hENaC mutants along with wild-type (wt) - and -hENaC was low (46-93 nA) compared with the wtchannel (1-3 µA). To determine whether this reduced macroscopiccurrent resulted from a decreased number of mutant channels at theplasma membrane, we coexpressed mutant -hENaC subunits with greenfluorescent protein-tagged - and -subunits. Confocal laserscanning microscopy of oocytes demonstrated that plasma membranelocalization of the mutant channels was the same as that of wt. Theseexperiments demonstrate that acidic residues in the secondtransmembrane domain of -hENaC affect ion permeation and are thuscritical components of the conductive pore of ENaC. |
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