We have previously reported that ATP-inhibitable K⁺ channels, in vesicles derived from the basolateral membrane of Necturus maculosus small intestinal cells, exhibit volume regulatory responses that resemble those found in the intact tissue after exposure to anisotonic solutions. We now report that increases in K⁺ channel activity can also be elicited by exposure of these vesicles to isotonic solutions containing glucose or alanine that equilibrate across these membranes. We also demonstrate that swelling after exposure to a hypotonic solution or an isotonic solution containing alanine or glucose reduces inhibition of channel activity by ATP and that this finding cannot be simply attributed to dilution of intravesicular ATP. We conclude that ATP-sensitive, stretch-activated K⁺ channels may be responsible for the well-established increase in basolateral membrane K⁺ conductance of Necturus small intestinal cells after the addition of sugars or amino acids to the solution perfusing the mucosal surface, and we propose that increases in cell volume, resulting in membrane stretch, decreases the sensitivity of these channels to ATP.