Na+-independent,electrogenic Cl- uptake across the posterior gills of the Chinese crab (Eriocheir sinensis): Voltage-clamp and microelectrode studies

Summary Single gill lamellae from posterior gills of Chinese crabs (Eriocheir sinensis) were isolated, separated into halves and mounted in a modified Ussing chamber. Area-related short-circuit current (I_sc) and conductance (G_tot) of this preparation were measured. Epithelial cells were impaled with microelectrodes through the basolateral membrane and cellular potentials (V_i under open- and V_sc under short-circuit conditions) as well as the voltage divider ratios (F_i, F_o) were determined.With NaCl salines on both sides an outside positive PD_te (22±2 mV) and an I_sc (-64±13 A·cm^-2) with a polarity corresponding to an uptake of negative charges (inward negative) were obtained. Trough-like potential profiles were recorded across the preparation under open- as well as short-circuit conditions (V_o=-101±5 mV, external bath as reference; V_i=-78±2 mV, internal bath as reference; V_sc=-80±2 mV, extracellular space as reference). The voltage divider ratios of the external (apical membrane plus cuticle) and internal (basolateral membrane) barrier were F_o=0.92±0.01 and F_i=0.08±0.01, respectively. To investigate a Cl^--related contribution to the above parameters, Na⁺-free solutions in the external bath (basolateral NaCl-saline) were used. Inward negative I_sc under these conditions almost completely depended on external Cl^-. Elimination of Cl^- in the external bath reversed I_sc, and G_tot decreased substantially. Concomitantly, V_sc depolarised and F_o increased. Cl^--dependent current and conductance showed saturation kinetics with increasing external [Cl^-]. Addition of 20 mmol·1^-1 thiocyanate to the external bath had similar, although less pronounced, effects as Cl^- substitution. Equally, external SITS (1 mmol·1^-1) inhibited the current and, concomitantly, G_tot decreased substantially. Addition of 1 mmol·1^-1 acetazolamide to, and omission of NaHCO₃ from, the basolateral bath resulted in a decrease of I_sc while G_tot remained unchanged. The Cl^--channel blocker DPC inhibited I_sc almost completely when added to the basolateral saline, whereas G_tot decreased moderately; however, V_sc depolarised without significant change of F_i. Ouabain had no influence on I_sc and G_tot. Increasing the basolateral [K⁺] resulted in a decrease in I_sc, while G_tot was not affected. At the same time V_sc largely depolarised and F_i decreased. Addition of the K⁺-channel blocker Ba⁺⁺ (5 mmol·1^-1) to the basolateral solution resulted in a two-step alteration of the transepithelial (I_sc, Gtot) and cellular (V_sc, F_i) parameters. The results are discussed with regard to (i) the mechanisms responsible for active transbranchial Cl^- uptake, and (ii) the technical improvement of being able to perform transport studies with crab gill preparations in an Ussing chamber.Abbreviations DMSO dimethylsulfoxide - DPC diphenylamine-2-carboxylate - F_{o, i} voltage divider ratio for external (o) and internal (i) barrier, respectively - G_Cl conductance related to the external [Cl^-] - G_tot total tissue conductance - I_Cl short-circuit current related to the external [Cl^-] - I_sc short-circuit current - PD_te transepithelial potential difference - R_ME resistance of the microelectrode - SITS 4-acetamido-4-isothiocyanato-stilbene-2,2-disulfonic acid - V_{o, i} open-circuit voltage across the external (o) and internal (i) barrier, respectively - V_sc intracellular potential under short-circuit conditions