The outflux of chloride through the isolated skin (JCl31) of the South American frog Leptodactylus ocellatus (L.) is carried by a mechanism that saturates at high concentration of chloride on the inside, and is stimulated by the presence of Cl- in the outer solution (trans side). The presence of Na+ on the outside, by itself, does not increase JCl31. However, when JCl31 is already increased by chloride on the trans side, the addition of Na+ produces a significant further increase. At low concentration of Cl- on the outside JCl31 is carried by an exchange diffusion mechanism. At high concentrations of Cl- outside, JCl31 proceeds through a route which involves changes in electrical parameters. The results suggest that both mechanisms are located on the cell membranes and, therefore, that the fluxes would cross through the cytoplasm of the cells. Na+ stimulates the second mechanism only.
During their flux through the skin of the frog Leptodactylus ocellatus, Na+ and Cl- interact with each other. This interaction gives rise to electrical phenomena which are studied in the present paper. The skin is mounted in Na2SO4 Ringer's with 115 mM Na+ on the inside, and a variety of outer solutions. The osmolarity of all solutions is kept constant at 237.8 mosmol by adding sucrose. When the main anion used on the outside is SO=4 the electrical potential difference (deltapsi) rises steadily with the concentration of sodium (Na+)0 up to 87 mV, which is reached at about 20 mM. Thereafter deltapsi remains constant. When the main anion is Cl- it is observed that deltapsi rises steadily with (NaCl)0 with a slope similar to the curve obtained with SO=4 (37 mV per decade), but with a lower intercept attributed to an inward Cl pumping which is characteristic of this frog species. At 2--9 mM (NaCl)0 a Cl-specific channel is activated. Further increases of (NaCl)0 produce a decrease of deltapsi. The specificity of the activation of this site by monovalent cations and its use by monovalent anions is also studied.
At low concentration (1 mM) of Cl- in the outer solution, the influx of chloride through the isolated skin (JCl13) of the South American frog Leptodactylus ocellatus (L.) seems to be carried by two mechanisms: (i) a passive one that exhibits the characteristics of an exchange diffusion process, and (ii) an active penetration. Studies of the influx and efflux of chloride (JCl13 and JCl31) indicate that the presence of a high (107 mM) concentration of Cl- in the outer solution activates the translocation of this ion through the cells. Studies of the unidirectional flux of Cl- across the outer barrier (JCl12) indicate that Na+ out stimulates the penetration of Cl- at this level. Cl- out, in turn, stimulates the JNa12, but this effect is only detected at low concentrations of Na+ out.
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