Identification of the roles of conserved charged residues in the extra cellular domain of an epithelial sodium channel (ENaC) subunit by alanine mutagenesis

Oded Edelheit, Israel Hanukoglu, Nathan Dascal, Aaron Hanukoglu

Research output: Contribution to journalArticlepeer-review

Abstract

Epithelial sodium channels (ENaC) are composed of three homologous subunits whose extracellular domains (ECD) form a funnel that directs ions from the lumen into the pore of ENaC. To examine the roles of conserved charged residues (Asp, Glu, Arg, and Lys) on ECD, we mutated 16 residues in human a-ENaC to alanine. The modified cRNAs were expressed in Xenopus laevis oocytes together with wild-type (3- and 7-ENaC. The effect of each mutation was examined on three parameters: amiloride-sensitive Na+ conductance (assayed by the two-electrode voltage-clamp method), Na+-dependent self-inhibition of ENaC, and oocyte cell surface expression of ENaC (quantitated by confocal microscopy of yellow fluorescent protein linked to 7-ENaC). Mutation of 13 of 16 residues reduced the ENaC Na+ conductance (to 40-80% of WT). Mutation of only six residues showed a significant effect on the Na+ self-inhibition time constant (t). All 16 mutants showed a strong correlation between ENaC activity and oocyte surface expression (r = 0.62). Exclusion of four mutants showing the greatest effect on self-inhibition kinetics (Glu250 and Arg350 with t = ~30% of WT, and Asp393 and Glu530 with t = ~170% of WT) increased the correlation to r = 0.87. In the ASIC1 homotrimeric model, the homologs of a-ENaC Asp400 and Asp446 are exposed on the protein surface far from the other two chains. The mutations of these two residues showed the strongest effect on cell surface expression but had no effect on self-inhibition. Control mutations to a homologous charged residue (e.g., Asp to Glu) did not significantly affect ENaC activity. Changes in the two parameters, Na+ self-inhibition and oocyte surface expression level, accounted for the magnitude of reduction in ENaC activity as a result of the mutation to Ala. These results establish that while some conserved charged residues are part of the structure responsible for Na+ self-inhibition, most are essential for transport to the oocyte cell surface.

Original languageEnglish
Pages (from-to)887-897
Number of pages11
JournalAmerican Journal of Physiology - Renal Physiology
Volume300
Issue number4
DOIs
StatePublished - 1 Apr 2011

Keywords

  • Cell surface
  • Membrane
  • Oocyte
  • Self-inhibition

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