Summary
The mammalian urinary bladder contains in its apical membrane and cytoplasmic vesicles, a cation-selective channel or activating fragment which seems to partition between the apical membrane and the luminal (or vesicular space). To determine whether it is an activating fragment or whole channel, we first demonstrate that solution known to contain this moiety can be concentrated and when added back to the bladder causes a conductance increase, with a percent recovery of 139±25%. Next, we show that using tip-dip bilayer techniques (at 21°C) and a patch-clamp recorder, the addition of concentrated solution resulted in the appearance of discrete current shots, consistent with the incorporation of a channel (as opposed to an activating fragment) into the bilayer. The residency time of the channel in the bilayer was best described by the sum of two exponentials, suggesting that the appearance of the channel involves an association of the channel with the membrane before insertion. The channel is cation selective and more conductive to K+ than Na+ (by a factor of 1.6). It has a linearI–V relationship, but a singlechannel conductance that saturates as KCl concentration is raised. This saturation is best described by the Michaelis-Menten equation with aK m of 160mm KCl and aG max of 20 pS. The kinetics of the channel are complex, showing at least two open and two closed states.
Since the characteristics of this channel are similar to a channel produced by the degradation of amiloride-sensitive Na+ channels by the proteolytic enzyme kallikrein (which is released by the cortical collecting duct of the kidney), we suggest that this channel then is not synthesized by the cell but is rather a degraded form of the epithelial Na+ channel.
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References
Colquhoun, D., Sigworth, F.J. 1983. Fitting and statistical analysis of single-channel records.In: Single Channel Recording. B. Sakmann and E. Neher, editors. pp. 191–263. Plenum, New York
Coronado, R., Latorre, R. 1983. Phospholipid bilayers made from monolayers on patch-clamp pipettes.Biophys. J. 43:231
Cooper, K.E., Tang, J.M., Rae, J.L., Eisenberg, R.S. 1986. A cation channel in frog lens epithelia responsive to pressure and calcium.J. Membrane Biol. 93:259–269
Gomperts, B.D. 1977. The Plasma Membrane: Models for Structure and Function. Ch. 3: “Inducing ion permeability.” pp. 109–179. Academic, New York
Hamamoto, T., Montal, M. 1986. Functional reconstitution of bacterial cytochrome oxidases in planar lipid bilayers.Meth. Enzymol. 126:123–138
Hillyard, S.D., Zeiske, W., Van Driessche, W. 1982. Poorly selective cation channels in the skin of the larval frog (stage<XIX).Pfluegers Arch. 394:287–293
Latorre, R., Miller, C. 1983. Conduction and selectivity in potassium channels.J. Membrane Biol. 71:11–30
Lewis, S.A. 1977. A reinvestigation of the function of the mammalian urinary bladder.Am. J. Physiol. 232:F187-F195
Lewis, S.A., Alles, W.P. 1986. Urinary kallikrein: A physiological regulator of epithelial Na absorption.Proc. Natl. Acad. Sci. USA 83:5345–5348
Lewis, S.A., Diamond, J.M. 1976. Na+ transport by rabbit urinary bladder, a tight epithelium.J. Membrane Biol. 28:1–40
Lewis, S.A., Ifshin, M.S., Loo, D.D.F., Diamond, J.M. 1984. Studies of sodium channels in rabbit urinary bladder by noise analysis.J. Membrane Biol. 80:135–151
Lewis, S.A., Moura, J.L.C. de 1982. Incorporation of cytoplasmic vesicles into the apical membrane of mammalian urinary bladder.Nature (London) 297:685–688
Margolius, H.S. 1984. The kallikrein-kinin system and the kidney.Annu. Rev. Physiol 46:309–326
Maruyama, Y., Moore, D., Petersen, O.H. 1985. Calcium activated cation channel in rat thyroid follicular cells.Biochim. Biophys. Acta 821:229–232
Palmer, L.R., Frindt, G. 1986. Amiloride-sensitive Na channels from rat cortical collecting tubule.Proc. Natl. Acad. Sci. USA 83:2767–2770
Sauve, R., Szabo, G. 1985. Interpretation ofllf fluctuations in ion conducting membranes.J. Theor. Biol. 113:501–516
Scicli, A.G., Carretero, O.A. 1986. Renal kallikrein-kinin system.Kidney Int. 29:120–130
Van Driessche, W., Zeiske, W. 1985. Ca sensitive, spontaneously fluctuating cation channels in the apical membrane of the adult frog skin epithelium.Pfluegers Arch. 405:250–259
Wills, N.K., Alles, W.P., Sandle, G.I., Binder, H.J. 1984. Apical membrane properties and amiloride binding kinetics of the human descending colon.Am. J. Physiol. 247:G749-G757
Zweifach, A., Lewis, S.A. 1987. Single channel recording of cation selective conductances that are unstable in the apical membrane of the rabbit urinary bladder.Fed. Proc. 46:1269
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Zweifach, A., Lewis, S.A. Characterization of a partially degraded Na+ channel from urinary tract epithelium. J. Membrain Biol. 101, 49–56 (1988). https://doi.org/10.1007/BF01872819
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DOI: https://doi.org/10.1007/BF01872819