The toad urinary bladder and epithelial cell lines derived from the urinary bladder, including TBM, serve as model systems for the study of transepithelial Na+ transport. We examined biochemical characteristics of epithelial Na+ channels in toad urinary bladder and TBM cells and their cellular localization in the urinary bladder. The radiolabeled amiloride analogue [3H]benzamil bound to a single class of high-affinity binding sites in membrane vesicles from toad urinary bladder with a dissociation constant (Kd) of 10 nM. Photoactive benzamil analogues specifically labeled a 135,000-Da polypeptide in toad urinary bladder and TBM cells. A monoclonal anti-Na+ channel antibody directed against the amiloride-binding component of the channel specifically recognized a 135,000-Da polypeptide in TBM cells. Polyclonal anti-Na+ channel antibodies generated against purified bovine epithelial Na+ channel specifically recognized a 235,000-Da polypeptide in toad urinary bladder and localized Na+ channels to the apical plasma membrane of urinary bladder epithelial cells. The biochemical characteristics and the cellular localization of epithelial Na+ channels in toad urinary bladder are similar to those previously described in mammalian kidney and in the A6 cell line.