Specific properties of sodium currents in multipotent striatal progenitor cells.

This study investigates the impact of intrinsic currents on early neural development. A rat striatal ST14A cell line immortalized by SV40 large T antigen was employed as a model system because these cells act as multipotent neural progenitors when maintained at a permissive temperature of 33 degrees C. The whole-cell patch-clamp, molecular and immunocytochemical experiments point to a unique role of sodium currents in the multipotential stage of neural development.

Functional significance of HCN2/3-mediated I(h) in striatal cells at early developmental stages.

Hyperpolarization-activated cAMP-gated cation currents (I(h)) were recently linked to pre- and postnatal developmental processes in several brain regions, including the ventral telencephalon. To evaluate the role of I(h) in striatal development, we used short-term cultured cells from the lateral ganglionic eminence at embryonic day 14 (E14) and postnatal days 1-3 (P1-3) as well as the embryonic striatal progenitor cell line ST14A. Western blot analysis of the I(h) underlying subunit proteins HCN1-4 revealed strong HCN2 expression in proliferating ST14A cells and weak expression in postmitotic ST14A cells and in cells from the developing brain.