Transient Cl- and K+ Currents during the Action Potential in Chara inflata (Effects of External Sorbitol, Cations, and Ion Channel Blockers)

In voltage-clamp experiments, a two-pulse procedure was used to investigate the ionic currents underlying the action potential in Chara inflata. A prepulse hyperpolarized the membrane from a resting potential of about -100 to -200 mV. The prepulse was followed by a second pulse that changed the potential difference (p.d.) to -100 mV and less negative values in steps of 20 mV. This two-pulse procedure induces action potentials that have a reproducible time course, which is essential for any comparative investigation of the action potential. The two-pulse procedure reveals that in the charophyte C. inflata the electric current flowing across the cell membranes during positive voltage-clamp steps from the resting p.d. consists of a leak current flowing from the start of the pulse, followed by a transient inward-going current, Ii, commencing after a delay, and preceding a delayed transient outward current, Io. The characteristics of the current components and their response to various ion channel blockers and ionic treatments suggest that: (a) Ii, which is blocked by the external application of 9-anthracenecarboxylic acid, is carried by Cl- and (b) Io, which is blocked by the external application of the organic anions tetraethylammonium (TEA+) and nonyltriethylammonium, is carried mainly by K+. The magnitude and behavior of these K+ and Cl- currents could be modified by changes in the external concentration of CaCl2, LiCl, or NaCl but not sorbitol. Hence, it is concluded that NaCl-enhanced transient inward Cl- current, Ii, is due to ionic effects of NaCl rather than to its osmotic effects. The modification of the K+ current, Io, either by changing external K+ concentrations or by blocking the current with TEA+, also alters the Cl- currents Ii.