Epinephrine (epi) activates transient Cl secretion (sec) and sustained K sec across isolated distal colonic mucosa of guinea pig. The Ca-activated Cl channel inhibitor CaCCinh-A01 [30μM] reduced electrogenic K sec, detected as short-circuit current (Isc), consistent with basolateral Cl channels providing an exit pathway for Cl entering via Na/K/2Cl-cotransporters. CaCCinh-A01 inhibited both Isc and transepithelial conductance in a concentration dependent manner, IC50 = 6.3μM. GlyH-101, another Cl channel inhibitor, also reduced K secretory Isc (IC50 = 9.4μM). Epi activated whole-cell Cl current in isolated intact colonic crypts. This epi-activated Cl current also was inhibited by CaCCinh-A01 or GlyH-101. In contrast to K sec, CaCCinh-A01 augmented epi-activated Cl secretory Isc as well as PGE2-activated Cl sec. Synergistic Cl sec activated by cholinergic/PGE2 stimulation was insensitive to CaCCinh-A01. Colonic expression of Tmem16A, a Ca-activated Cl channel, was supported by RT-PCR of Tmem16A-mRNA, immuno-blot with Tmem16A-antibodies, and immuno-reactivity in lateral membranes of epithelial cells. Alternative splices of Tmem16A were detected for exons involved in channel activation. Inhibition of K sec and augmentation of Cl sec by CaCCinh-A01 supports a common colonic cell model for these two ion secretory processes with basolateral membrane Cl channels that contribute to production of electrogenic K sec and limiting Cl sec. Maximal Cl sec occurs only for synergistic activation mechanisms that inactivate these basolateral membrane Cl channels. [NIH DK65845]