Abstract
Following the publications by Duffey et al. [Nature 294:451 (1981)] and Palant et al. [Am J Physiol 245: C203 (1983)] it is generally accepted that tight-junction tightness of Necturus gall bladder epithelium is up-regulated by cAMP-mediated and Ca(2+)-mediated stimulation. This conclusion was mainly based on observed increases in transepithelial resistance (Rt). However, since in leaky epithelia Rt cannot be simply equated with the tight junction resistance (Rj), but may include large contributions from the lateral space resistance (Rlis), we asked whether the observed increases in Rt resulted indeed from Rj or whether Rlis also increased. The experiments were performed on Necturus gall bladders using forskolin or the Ca2+ ionophore A23187 as stimulants. Forskolin (2 mumol/l) had a biphasic effect. In the first 5 min Rt decreased from 128 +/- 13 to 119 +/- 14 omega cm2 (P < 0.05, n = 10) which probably reflects stimulation of an apical cell membrane Cl- conductance (see accompanying paper). Subsequently Rt increased in approximately 30 min to 184 +/- 20 omega cm2 and then remained fairly constant. Simultaneously the lateral spaces collapsed. If the spaces were now transiently opened by passing mucosa-positive direct current across the epithelium, Rt fell transiently to 111 +/- 7 omega cm2, but returned gradually to its elevated level when the spaces collapsed again. When the spaces were constantly dilated by a serosa-positive hydrostatic pressure of 1 cm H2O, forskolin neither affected the space width nor increased Rt, and current passage was virtually ineffective, although the cells depolarized in response to forskolin as usual.(ABSTRACT TRUNCATED AT 250 WORDS)
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