Cyclic AMP stimulation of Cl- secretion by the opercular epithelium: the apical membrane chloride conductance

Transport mechanisms of seawater teleost chloride cells: an inclusive model of a multifunctional cell

This review assembles recent information on seawater-type chloride cells of marine teleost fish and evaluates the secretion of Na+, Cl-, K+, H+ and NH4+ and the absorption of Ca2+. The evidence for the distribution (apical vs basolateral) and the abundance of the various ion pumps, cotransporters, channels and exchangers is assessed and an inclusive model is constructed. Relationships among the transport systems are presented to suggest that many, if not all, of these systems may be operating simultaneously in individual, multifunctional chloride cells.

Intracellular voltage recordings in the opercular epithelium of Fundus heteroclitus

Opercular epithelial cells of Fundus heteroclitus were investigated using conventional microelectrodes. The area of interest was the cells lining the inside of the opercular epithelium closest to the gill arches, an area with a high density of chloride cells. Only one cell type could be discerned from the values of 60 opercular cells measured with the opercular epithelium in open circuit conditions. A mean apical voltage of -18.0 +/- 0.6 mV was observed with intracellular values ranging from -10 to -30 mV. The predicted intracellular chloride content was 59 mM/liter. Apical fractional resistance (faR) was 0.78 +/- 0.02. The intracellular potential measurements were typically difficult to maintain for extended periods (longer than 3 min). The opercular cells depolarize with serosal isoproterenol treatment (10(-6) M) corresponding to the increase in opercular transepithelial potential. The opercular cell apical fR decreased with isoproterenol treatment. These data indicate the observed opercular cells were involved in opercular chloride transport.

Cyclic AMP stimulation of Cl- secretion by the opercular epithelium: the basolateral chloride uptake mechanism

The isolated, short-circuited opercular epithelium of Fundulus heteroclitus, secretes Cl- by a mechanism dependent on the presence of serosal Na+ and inhibited by bumetanide and furosemide. Under serosal Na+-free conditions the active Cl- secretion is abolished. However, subsequent elevations of intracellular cyclic AMP (cAMP) levels with isoproterenol or forskolin stimulated Cl- secretion markedly. This stimulation was unaffected by SITS, DIDS, methazolamide, and HCO-3-free solutions, but was blocked by furosemide and bumetanide. Determinations of relative intracellular 36Cl- levels showed a Na+ dependence of intracellular 36Cl- in epithelia not stimulated by isoproterenol and a Na+ independence of intracellular 36Cl- in isoproterenol stimulated epithelia. In both conditions, the intracellular 36Cl- was bumetanide sensitive. The results indicate that cAMP stimulation of Cl- secretion can occur by a Na+-independent, loop diuretic-inhibitable mechanism, which may be operative even in the presence of Na+. Whether this is a separate Cl- uptake mechanism or a cAMP-induced alteration in the normal Na+-dependent mechanism could not be determined. In either instance, an alternative to the Na+ gradient as a source of energy for Cl- uptake into the cell across the basolateral membrane is required.