Megumi Shimoyama scite author profile

We investigated the effects of gabapentin (GBP) on glutamatergic synaptic transmission in the dorsal horn of the rat spinal cord. Patch clamp whole cell recordings were made from superficial and deep dorsal horn neurons of rat spinal cord slices. In the majority of neurons in the superficial lamina, GBP decreased the amplitudes of evoked excitatory postsynaptic currents (evoked EPSCs) mediated by either non-NMDA or NMDA receptors. In contrast, neurons in the deep lamina showed variable effects, with a lower incidence of decrease in amplitude of evoked EPSCs and a subset of neurons showing an increase in amplitude of evoked NMDA receptor-mediated EPSCs. No enhancement of evoked non-NMDA receptor-mediated EPSCs was observed in either lamina. To determine whether the observed effects of GBP are presynaptic and/or postsynaptic, spontaneous miniature excitatory postsynaptic currents (mEPSCs) were studied. In neurons that showed a decrease in its frequency of mEPSCs by GBP, no change in the amplitude or shape accompanied the effect. On the other hand, in neurons that showed an increase in the frequency of NMDA receptor-mediated mEPSCs, the effect accompanied an increase in amplitude. These results suggest that GBP presynaptically inhibits glutamatergic synaptic transmission predominantly in the superficial lamina, while postsynaptically enhancing NMDA receptor-mediated transmission in some neurons of the deep lamina. The antinociceptive effects of GBP may involve the inhibition of the release of excitatory amino acids from presynaptic terminals.

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Spinal gabapentin is antinociceptive in the rat formalin test

Shimoyama

Davis

et al. 1997

Neuroscience Letters

137

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Megumi Shimoyama

The Physics of the B Factories

Gabapentin affects glutamatergic excitatory neurotransmission in the rat dorsal horn

Spinal gabapentin is antinociceptive in the rat formalin test

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