Two Parallel Signaling Pathways Couple 5HT1A Receptors to N- and L-Type Calcium Channels in C-Like Rat Dorsal Root Ganglion Cells

Abstract

Cardenas, Carla G., Lucinda P. Del Mar, and Reese S. Scroggs. Two parallel signaling pathways couple 5HT_1A receptors to N- and L-type calcium channels in C-like rat dorsal root ganglion cells. J. Neurophysiol. 77: 3284–3296, 1997. The coupling of serotonin receptors to Ca²⁺ channels was studied in a subpopulation of acutely isolated rat dorsal root ganglion (DRG) cell bodies (type 1 DRG cells), which have membrane properties similar to C-type nociceptive sensory neurons. In these cells, serotonin (5HT) inhibited high-threshold Ca²⁺ channel current and decreased action potential duration. The inhibitory effects of 5HT and the 5HT_1A agonist 8-OH-DPAT were shown to be antagonized by the 5HT_1A antagonists spiperone and pindolol, respectively, indicating involvement of a 5HT_1A receptor. Several observations suggest that 5HT_1A receptors couple to N- and L-type Ca²⁺ channels by two different signaling pathways in type 1 DRG cells. The inhibition of Ca²⁺ channel currents produced by 10 μM 5HT occurred in two phases, an initial slowing of current activation rate (kinetic slowing), which was complete within 10 s, and a simultaneous reduction in steady state current amplitude (steady state inhibition), which peaked in ∼1 min. The kinetic slowing, but not steady state inhibition, was reversed by a positive prepulse to +70 mV (prepulse). Blockade of N-type Ca²⁺ channels selectively reduced the kinetic slowing and its reversal by prepulses. Chelation of intracellular Ca²⁺ or blockade of L-type Ca²⁺ channels selectively reduced the steady state inhibition. Recordings using the cell-attached patch configuration suggest that steady state inhibition required a component that was diffusible in the cytosol, while kinetic slowing occurred via a membrane delimited pathway. The application of 5HT to the cell body outside the patch pipette reduced macroscopic Ca²⁺ channel currents in 33% of small-diameter DRG cells tested, indicating the participation of a cytosolic diffusible component. Application of 5HT (a membrane impermeant compound) outside the patch pipette produced steady state inhibition only, whereas similar application of membrane permeant 5HT_1A agonists, 8-OH-DPAT or 5-methoxy- N, N-dimethyl-tryptamine, produced kinetic slowing and steady state inhibition. Together these data suggest that 5HT_1A receptors couple negatively to Ca²⁺ channels via two pathways: a membrane-delimited pathway that couples to N-channels and actuates voltage-sensitive kinetic slowing and a pathway dependent on a cytosolic diffusible component and free intracellular Ca²⁺, which couples to L channels and actuates steady state inhibition.