Effects of vasopressin on the somatic membrane of spinal ganglia neurons

Intracellular recording from the soma of 68 sensory neurons was performed during experiments on perfused cerebrospinal ganglia (CSG) isolated from 22- to 36-day-old rats. Application of vasopressin (VP) to the CSG produced a response in 59 cells (or 87.76%). Depolarization was noted in 67.8% of those responding, two-stage response in 16.95%, and hyperpolarization in 15.25%. All responses were dose-dependent and reversible. Membrane resistance (R_m) following depolarization declined but increased following hyperpolarization. Application of VP produced a lengthening of action potentials (AP) and a decline both in AP amplitude and after-hyperpolarization. A correlation was revealed between the biophysical properties of CSG neurons and the pattern of their response to VP. Neurons with a slow velocity of axonal conductance, protracted AP, and high R_m (small cells) had the lowest sensitivity threshold to VP at a concentration of 1·10^–11 M and responded with prolonged high-amplitude depolarizing potentials. Cells with a high velocity of axonal conductance, short-lasting AP, and low R_m responded to VP at a concentration of 1·10^–8 M, although response was occasionally lacking even at a concentration of 1·10^–6 M. Depolarization was more short-lived in these neurons and characterized by lower amplitude; cases of hyperpolarization were sometimes observed. Findings from our study would indicate that VP exerts an effect on the soma or primary sensory neurons, acting preferentially on small CSG cells.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 20, No. 6, pp. 801–808, November–December, 1988.