Changes in the ionic mechanisms of electrical excitability in the somatic membrane of rat dorsal root ganglion neurons during ontogenesis. Correlations between inward current densities

Correlations between densities of various types of inward currents in the somatic membrane of dorsal root ganglion neurons were studied in three different rat age groups: 5–9 days, 45 days, and 90 days. A linear relationship was found in neurons with "slow" tetrodotoxin-sensitive sodium current between the densities of high-threshold calcium current and "slow" sodium current (Bravias-Pearson's correlation coefficient: r=0.84 and 0.70 for n1=16 and n2=28, respectively). No such correlation was observed in neurons with low-threshold calcium inward current. Cells with only two types of channel — "fast" sodium and high-threshold calcium — present in their somatic membrane manifested an inverse correlation (r=−0.48, where n4=95) between the densities of transmembrane currents passing through these channels. No inverse relationship was observed in the density of "fast" sodium and high-threshold calcium currents in neurons with tetradotoxinresistant "slow" sodium and/or low threshold calcium channels.