Abstract
The effects of 5-hydroxytryptamine (5-HT) on lateral horn cells contained in thin in vitro slices of neonatal rat spinal cord were investigated by means of intracellular recording techniques. Superfusion of 5-HT (1–100 μM) to lateral horn cells caused a concentration-dependent membrane depolarization leading to, in some instances, repetitive cell discharges. A number of lateral horn cells could be activated antidromically by stimulating the ventral rootlets. The conduction velocity of the antidromic spikes was estimated to be 0.3–2 m/s which corresponds to that of the axons of rat sympathetic preganglionic neurons reported by others. The 5-HT depolarization evoked in neurons that could be activated antidromically was similar to that elicited from unindentified lateral horn cells. The depolarization induced by 5-HT could be partially eliminated by low Ca/high Mg solution or tetrodotoxin in a portion of lateral horn cells and was accompanied by an increase in membrane resistance. The response was nullified near the membrane potential at which the spike afterhyperpolarization was abolished; a clear reversal of polarity was not observed at a more negative potential level. The 5-HT depolarization was reversibly blocked by methysergide and cyproheptadine and enhanced by fluoxetine, a 5-HT-uptake inhibitor. The results indicate that the indoleamine primarily exerted an excitatory action on lateral horn cells, including those tentatively identified as sympathetic preganglionic neurons, by a direct depolarization which appears to be mediated by decrease of a voltage-sensitive K conductance and partly by an indirect effect via the release of an excitatory substance(s).
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