Cyclic AMP-and beta-agonist-activated chloride conductance of a toad skin epithelium
1. The control by intracellular cyclic AMP and beta-adrenergic stimulation of chloride conductance was studied in toad skin epithelium mounted in a chamber on the stage of an upright microscope. Impalement of identified principal cells from the serosal side with single-barrelled conventional or doub...
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Veröffentlicht in: | The Journal of physiology 1992-04, Vol.449 (1), p.641-653 |
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Zusammenfassung: | 1. The control by intracellular cyclic AMP and beta-adrenergic stimulation of chloride conductance was studied in toad skin
epithelium mounted in a chamber on the stage of an upright microscope. Impalement of identified principal cells from the serosal
side with single-barrelled conventional or double-barrelled Cl(-)-sensitive microelectrodes was performed at x500 magnification.
For blocking the active sodium current 50 microM-amiloride was present in the mucosal bath. 2. When clamped at transepithelial
potential difference V = 0 mV, the preparations generated clamping currents of 0.9 +/- 1 microA/cm2 (mean +/- S.E.M.; number
of observations n = 55). The intracellular potential of principal cells (Vb) was -96 +/- 2 mV with a fractional resistance
of the basolateral membrane (fRb) of 0.016 +/- 0.003 (n = 54), and an intracellular Cl- activity of 40 +/- 2 mM (n = 24).
3. At V = 0 mV, serosal application of a cyclic AMP analogue, dibutyryl cyclic AMP (500 microM) or a beta-adrenergic agonist,
isoprenaline (5 microM) resulted in a sixfold increase in transepithelial Cl- conductance identified by standard 36Cl- tracer
technique. 4. The clamping current at V = 0 mV was unaffected by cyclic AMP (short-circuit current Isc = 0.1 +/- 0.3 microA/cm2,
n = 16) indicating that subepidermal Cl(-)-secreting glands are not functioning in our preparations obtained by collagenase
treatment. 5. Cyclic AMP- or isoprenaline-induced chloride conductance (Gcl) activation (V = 0 mV) was not reflected in membrane
potential and intracellular Cl- activity in principal cells. Intracellular chloride activity was constant at approximately
40 mM at membrane potentials between -90 and -100 mV. Therefore, it can be concluded that the principal cells are not contributing
to activated Cl- currents. 6. At V = -100 mV where the voltage-dependent chloride conductance of mitochondria-rich (MR) cells
was already fully activated, GCl was unaffected by cyclic AMP or isoprenaline. The major effect of these treatments was a
rightward displacement of the MR cell-generated GCl-V relationship along the V axis. 7. Our results indicate that the beta-adrenergically
controlled cyclic AMP-mediated chloride conductance is localized to the mitochondria-rich cells. |
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ISSN: | 0022-3751 1469-7793 |
DOI: | 10.1113/jphysiol.1992.sp019106 |