Neutrophil elastase activates near-silent epithelial Na+ channels and increases airway epithelial Na+ transport

doi:10.1152/ajplung.00435.2004

Neutrophil elastase activates near-silent epithelial Na⁺ channels and increases airway epithelial Na⁺ transport

Ray A. Caldwell, Richard C. Boucher, and M. Jackson Stutts

The Cystic Fibrosis/Pulmonary Research and Treatment Center, University of North Carolina, Chapel Hill, North Carolina

Submitted 19 November 2004 ; accepted in final form 5 January 2005

Neutrophil elastase is a serine protease that is abundant inthe airways of individuals with cystic fibrosis (CF), a geneticdisease manifested by excessive airway Na⁺ absorption and consequentdepletion of the airway surface liquid layer. Although endogenousepithelium-derived serine proteases regulate epithelial Na⁺transport, the effects of neutrophil elastase on epithelialNa⁺ transport and epithelial Na⁺ channel (ENaC) activity areunknown. Low micromolar concentrations of human neutrophil elastase(hNE) applied to the apical surface of a human bronchial cellline (16HBE14o-/ ${beta}$ ${gamma}$ ) increased Na⁺ transport about twofold. Similareffects were observed with trypsin, also a serine protease.Proteolytic inhibitors of hNE or trypsin selectively abolishedthe enzyme-induced increase of epithelial Na⁺ transport. Atthe level of the single channel, submicromolar concentrationsof hNE increased activity of near-silent ENaC $~$ 108-fold in patchesfrom NIH-3T3 cells expressing rat ${alpha}$ -, ${beta}$ -, and ${gamma}$ -ENaC subunits.However, no enzyme effects were observed on basally active ENaCs.Trypsin exposure following hNE revealed no additional increasein amiloride-sensitive short-circuit current or in ENaC activity,suggesting these enzymes share a common mode of action for increasingNa⁺ transport, likely through proteolytic activation of ENaC.The hNE-induced increase of near-silent ENaC activity in CFairways could contribute to Na⁺ hyperabsorption, reduced airwaysurface liquid height, and dehydrated mucus culminating in inefficientmucociliary clearance.

silent channels; cystic fibrosis; serine protease; elastase

Address for reprint requests and other correspondence: R. A. Caldwell, Cystic Fibrosis/Pulmonary Research, and Treatment Center, CB#7248, Univ. of North Carolina, Chapel Hill, NC 27599-7248 (E-mail: ray_caldwell{at}med.unc.edu)

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