Characterization of a hyperpolarization-activated inward current in Cajal-Retzius cells in rat neonatal neocortex.

Cajal-Retzius cells are among the first neurons appearing during corticogenesis and play an important role in the establishment of cortical lamination. To characterize the hyperpolarization-activated inward current (I(h)) and to investigate whether I(h) contributes to the relatively positive resting membrane potential (RMP) of these cells, we analyzed the properties of I(h) in visually identified Cajal-Retzius cells in cortical slices from neonatal rats using the whole cell patch-clamp technique. Membrane hyperpolarization to -90 mV activated a prominent inward current that was inhibited by 1 mM Cs(+) and was insensitive to 1 mM Ba(2+). The activation time constant for I(h) was strongly voltage dependent. In Na(+)-free solution, I(h) was reduced, indicating a contribution of Na(+). An analysis of the tail currents revealed a reversal potential of -45.2 mV, corresponding to a permeability coefficient (pNa(+)/pK(+)) of 0. 13. While an increase in the extracellular K(+) concentration ([K(+)](e)) enhances I(h), it was reduced by a [K(+)](e) decrease. This [K(+)](e) dependence could not be explained by an effect on the electromotive force on K(+) but suggested an additional extracellular binding site for K(+) with an apparent dissociation constant of 7.2 mM. Complete Cl(-) substitution by Br(-), I(-), or NO(3)(-) had no significant effect on I(h), whereas a complete Cl(-) substitution by the organic compounds methylsulfate, isethionate, or gluconate reduced I(h) by approximately 40%. The I(h) reduction observed in gluconate could be abolished by the addition of Cl(-). The analysis of the [Cl(-)](e) dependence of I(h) revealed a dissociation constant of 9.8 mM and a Hill-coefficient of 2.5, while the assumption of a gluconate-dependent I(h) reduction required an unreasonably high Hill-coefficient >20. An internal perfusion with the lidocaine derivative lidocaine N-ethyl bromide blocks I(h) within 1 min after establishment of the whole cell configuration. An inhibition of I(h) by 1 mM Cs(+) was without an effect on RMP, action potential amplitude, threshold, width, or afterhyperpolarization. We conclude from these results that Cajal-Retzius cells express a prominent I(h) with characteristic properties that does not contribute to the RMP.