Epithelial transport pathways of rat colon determined in vivo by impulse response analysis.

1. A method is described for studying transepithelial pathways for the movement of different solutes and water. Using the blood and the secretory curves of changing tracer activity following an intravenous bolus, the rate of transit of molecules together with their impulse response functions, which reflect the transfer processes can be examined. 2. Movements of Na, Cl, I, urea and water from blood to lumen across rat colonic epithelium were all consistent with simple diffusion through a paracellular route. Most of the secreted K, however, passed through a K selective route associated with a significant K epithelial pool. 3. Adding cyanide to the luminal solution caused a reversible fall of transepithelial potential difference associated with changes in the impulse response functions of water, urea and K indicating reduction of the restriction on diffusion. Cellular K content was unaffected. 4. K entered the bulk of the epithelial cellular K almost exclusively from the blood side. A small epithelial K pool, identified by studies with a miniature GM counter, had kinetic characteristics like those of the K selective pathway observed in the studies of impulse response functions.