Neonatal and adult vertebrate respiration is facilitated by alveolar fluid and sodium (Na+) absorption driven by apical sodium channels (ENaC). ENaC are characterized in Xenopus laevis lung (XLL) epithelia using voltage clamping and fluctuation analysis to non-invasively examine macroscopic transepithelial current and resistance (I(SC), R(T)), single channel current (i(Na)) and total channel density (N(T)) responses to a beta adrenergic agonist (Terbutaline). Terbutaline addition to the basolateral bath of XLL increased Na entry to > 200% of control reflecting a doubling of open channel density (N(o). These data are consistent with the notion that XLL can serve as a useful model for investigation of distal lung ENaC response to agents of physiological interest.