Measurement of the effective thickness of the mucosal unstirred layer in Necturus gallbladder epithelium.
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Abstract:
The effective thickness of the unstirred fluid layer (USL) adjacent to an epithelial barrier can be estimated from the time course for the accumulation or depletion of a solute at the membrane surface. In 1985 we reported an unstirred layer thickness of approximately 70 microns for Necturus gallbladder epithelium. In our earlier studies the delay caused by noninstantaneous bulk solution mixing was not taken into account and thus the USL thickness was systematically overestimated. In the present studies we describe an analysis of the time course of solute arrival at the membrane surface that takes into account noninstantaneous bulk solution mixing. We also describe a simple technique to monitor the accumulation or depletion of a solute at the membrane surface. The time course for the change in the concentration of either tetramethylammonium (TMA+) or tetrabutylammonium (TBA+) upon elevation of bulk solution concentration is sensed at the membrane surface with an ion-sensitive microelectrode. Because of the high selectivity of the ion-sensitive resin for TMA+ or TBA+ over other monovalent cations in the solution (Na+ and K+), a low concentration (1-2 mM) of the probe can be used. By measuring the time course of the arrival of first one probe and then the other, under identical superfusion conditions, sufficient information is obtained to eliminate multiple fits to the data, obtained when only one probe is used. Neglecting bulk solution mixing caused an error greater than 50% in estimated apparent USL thickness. The effective thickness of the USL depends critically upon chamber geometry, flow rate, and the position of superfusion and suction pipettes. Under our experimental conditions the effective USL at the mucosal surface of Necturus gallbladder epithelium was approximately 40 microns.Keywords:
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Eight cations were reversibly and isosmotically substituted for sodium (45 m<i>M</i>) in peritubular circulation of the proximal tubule of the doubly perfused Necturus kidney. Li, choline and tetramethylammonium produced small shifts in peritubular potential difference with no change in conductance. Tris- and tetraethylammonium depolarized the membrane by about 10 mV without affecting its conductance. Rb and Cs produced a decrease of membrane permeability to potassium. Potassium for sodium substitution depolarized the membrane (3.1 mV) and increased its conductance. It is concluded that none among the cations tested may be considered as readily less permeant than sodium across the peritubular membrane.
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