Influence of extracellular matrix proteins on membrane potentials and excitability in NG108-15 cells.

Previous studies have demonstrated that components of the extracellular matrix can induce neurite extension and cell adhesion in the neuroblastoma x glioma hybrid cell line, NG108-15. Using standard intracellular recording techniques, we examined the resting membrane potential (RMP) and membrane excitability of NG108-15 cells differentiated under serum-free media with representative extracellular matrix (ECM) protein components as the substrate. Surfaces coated with collagen IV and a laminin-1 synthetic peptide induced a significantly (P < 0.05) more hyperpolarized RMP than control polystyrene surfaces. For example, after > or =8 days in culture NG108-15 cells plated on polystyrene exhibited a RMP of -33.2+/-0.8 mV (mean+/-SEM, n=158 cells) whereas cells cultured on the laminin-1 peptide C16 and collagen IV showed a RMP of -37.6+/-0.7 mV (n=157) and -37.5+/-1.5 mV (n=68), respectively. Furthermore, the proportions of cells on ECM substrates showing membrane excitability, i.e. evoked action potentials (APs) and the capability for regular firing, were significantly greater compared to those cells cultured on polystyrene. Among excitable cells cultured on the different substrates, characteristics of the action potentials, such as AP duration, amplitude, and the maximum rate of rise, dV/dtMAX, were examined in detail. While little or no differences were observed between polystyrene and the laminin-1 peptide groups, significant differences in the AP parameters were apparent for collagen IV. For example, dV/dtMAX for polystyrene and the laminin-1 peptide C16 were only 71.7+/-24.5 V/s (n=11) and 59.0+/-8.9 V/s (n=9), respectively, whereas cells cultured on collagen IV surfaces exhibited a dV/dtMAX reaching 156.1+/-22.0 V/s (n=7). These data support a role for ECM components in the maintenance of the RMP and membrane excitability in NG108-15 cells.

Neuronal and glial epitopes and transmitter-synthesizing enzymes appear in parallel with membrane excitability during neuroblastoma x glioma hybrid differentiation.

The membrane excitability and the presence of neural proteins, including neuronal and glial markers and neurotransmitter-synthesizing enzymes, were examined in parallel while the NG108-15 cell line was maintained in a serum-free medium. Whole-cell recordings in voltage-clamp or current-clamp configurations were used to evaluate the membrane excitability, and immunostaining was done with a panel of well-characterized antibodies against NSE, NF150, S-100 beta, GFAP, ChAT and TH. Culture for 4 to 10 days led to a striking rise in neurite outgrowth, electrical excitability and expression of neural proteins in type I neuron-like cells, which were of both neuronal and glial character, and expressed both cholinergic and adrenergic traits. After about 2 weeks, type II cells which lack neurite processes began to emerge. The type II cells proliferated, as revealed by BrdU uptake, and gradually overgrew differentiated cell types. They exhibited little or no membrane excitability and absence of immunoreactivity for the neuronal and glial specific proteins tested. These measurements indicate that the presence of these neural proteins at crucial stages of membrane excitability development is an important characteristics of NG108-15 cell differentiation, providing insights into the neural development and the reversible nature of neoplasia in the nervous system.

Spontaneous firing of NG108-15 cells induced by transient exposure to ammonium chloride.

1. We report that NG108-15 (neuroblastoma x glioma) cells differentiated in defined serum-free media are capable of exhibiting stable automaticity (the spontaneous occurrence of regenerative action potentials) following exposure to extracellular perfusates containing NH4Cl. 2. Membrane depolarization (4-5 mV) concomitant with an increased pHi during NH4Cl exposure are followed by hyperpolarization (5-7 mV), sub-threshold oscillations, and spontaneous firing after the removal of NH4Cl. 3. Cells cultured in 10% serum did not exhibit automaticity. Cells cultured in serum-free media are twice as likely to show automaticity as those cultured in reduced (1.5%) serum media. 4. We have examined factors that contribute to the events following NH4Cl exposure, namely, membrane depolarization and hyperpolarization, subthreshold oscillations, and automaticity. The inward currents activated at more negative potentials and the ionic currents associated with pronounced afterhyperpolarization in NG108-15 cells cultured in serum-free media provide a basis for the repetitive activity in general and automaticity in particular.

Comparative electrophysiological properties of NG108-15 cells in serum-containing and serum-free media.

The electrophysiological properties of NG108-15 neuroblastoma x glioma hybrids were compared after culture in serum-containing medium (SCM) versus serum-free media (SFM) containing N2 or B27 supplements. The excitability of cells was media dependent (B27 > N2 > SCM). Action potential profiles of SFM cells were characterized by slower activation and prolonged after hyperpolarization which predisposed SFM cells to fire repetitively. The presence of three types of inward calcium currents was also revealed in SFM cells. These differential effects were primarily attributable to the media used with a secondary enhancement by the chemical differentiating agents used (dB-cAMP and forskolin).