Gender and epithelial sodium channel genotype influence the lung fluid response to hypoxic exercise (LB791)

Fluid clearance from the alveolar space is critically dependent on epithelial sodium channels (ENaC). A common polymorphism in the gene encoding the ENaC alpha subunit results in an alanine to threonine substitution (A663T), with higher ENaC channel activity. This variant influences ion and fluid regulation in the lung during exercise and in response to albuterol. We investigated the influence of the threonine variant (T663; AT/TT group) on the lung fluid response to exercise in conditions of normobaric hypoxia, which challenges lung fluid balance. Lung fluid balance was assessed using Exhaled Na + (ENa + ) and the diffusing capacity for carbon monoxide and nitric oxide (DLCO and DLNO, respectively) to determine alveolar‐capillary membrane conductance (Dm). 19 healthy subjects were grouped by ENaC genotype (n=8 vs. 11 for AA and AT/TT, %female=50 vs. 62%, age=27±1 vs. 28±2yrs., ht=171±3 vs. 173±2cm, wt=69±6 vs.72±3kg , BMI=23±1 vs.24±1kg/m 2 ) and completed two overnight visits in a hypoxic tent simulating just over 5,400m. The visits were randomized to inhaled placebo or inhaled amiloride (1.5mg in 5ml normal saline, used to inhibit ENaC activity) with ENa + , DLCO, and Dm assessed at baseline, following 12 hours of hypoxic exposure, and following hypoxic exercise at 65% peak power on a cycle ergometer. We found significant effects of the interaction between gender and ENaC genotype on DLCO, Dm, and Dm corrected for pulmonary capillary blood volume (p<0.05). Specifically, females with the more active T663 variant had a greater diffusing capacity and less ENa + under placebo conditions, suggesting a greater removal of Na + and fluid from the airspace. These results suggest that genetic variation of ENaC may influence lung fluid balance during hypoxia and hypoxic exercise. Grant Funding Source : Supported by HL71478, HL108962‐03, and HL007249