Properties of the Sodium Extrusion Mechanism Controlled by Nerve Growth Factor in Chick Embryo Dorsal Root Ganglionic Cells

Abstract: Cell dissociates from embryonic chick dorsal root ganglia, incubated for 6 h with ²²Na⁺, accumulated four to six times more radioactivity in the absence than in the presence of Nerve Growth Factor (NGF). The accumulation of radioactivity paralleled the external Na⁺ concentration, indicating that the cells may have been reaching equilibrium with the medium. Delayed presentation of NGF to ²²Na⁺-loaded cells caused a rapid loss of radioactivity, even with extracellular ²²Na⁺ still present, demonstrating that NGF caused an overall efflux of Na⁺ rather than an accelerated equilibration. The Na⁺ exclusion from ²²Na⁺-loaded cells was dependent upon NGF concentration. Use of nutrient-rich medium, serum, and certain hormones and other proteins did not prevent the Na+ accumulation in the absence of NGF or its reversion by delayed NGF administration. Incubation of the ganglionic cells with ouabain or dinitrophenol during the ²²Na⁺ loading period (no NGF) increased the rate, but not the magnitude, of loading. The same incubation carried out in a Na+-free medium and followed by ²²Na⁺ presentation resulted in fast radioactive loading that was identical to that occurring in drug-free, NGF-deprived cells and was not prevented by presentation of NGF together with the ²²Na⁺. These data are consistent with a model in which NGF acts through a Na⁺ pump rather than by restricting Na+ influxes.