• J. Neurophysiol. · Jan 1996

    Role of GABA receptor subtypes in inhibition of primate spinothalamic tract neurons: difference between spinal and periaqueductal gray inhibition.

    • Q Lin, Y B Peng, and W D Willis.
    • Department of Anatomy and Neurosciences, University of Texas Medical Branch, Galveston 77555-1069, USA.
    • J. Neurophysiol. 1996 Jan 1;75(1):109-23.

    Abstract1. gamma-Aminobutyric acid (GABA) is thought to inhibit both pre- and postsynaptically the transfer of nociceptive signals from primary afferent fibers to spinal dorsal horn sensory cells, including spinothalamic tract (STT) neurons. The inhibition can be mediated by both GABAA and GABAB receptors. We now attempt to characterize the synaptic inhibition of STT cells by spinal GABAA and GABAB receptors in anesthetized monkeys and to analyze the roles of these two receptor subtypes in the inhibition of STT cellular activity produced by stimulation in the periaqueductal gray (PAG). 2. Iontophoretic release of GABA or muscimol (a selective GABAA receptor agonist) onto STT cells elicited a profound and dose-related inhibition of the responses of all cells tested to noxious cutaneous stimuli. Only four cells (16.7%) were found to be inhibited when baclofen (a selective GABAB receptor agonist) was applied iontophoretically. However, a strong and dose-dependent inhibition of the responses to cutaneous mechanical and thermal stimuli was obtained in all cells examined when baclofen was administered into the dorsal horn through a microdialysis fiber. The inhibitory effects were mainly on nociceptive inputs. 3. The inhibition of cellular activity by GABAA and GABAB agonists could be selectively antagonized by specific antagonists applied through a microdialysis fiber. 4. The excitatory responses evoked by pulsed release of glutamic acid (GLUT) were also inhibited in a dose-related manner by iontophoretic application of GABA and muscimol, but not by baclofen. A high dose of baclofen administered by microdialysis resulted in only a small decrease in GLUT-evoked excitatory responses. 5. Infusion of GABAA and GABAB antagonists into the dorsal horn by microdialysis caused an increase in both background activity and responses to cutaneous stimuli, suggesting that there is a tonic GABAergic inhibition of STT cells. 6. The inhibition of responses to mechanical and thermal stimulation of the cutaneous excitatory receptive field resulting from stimulation in PAG was significantly antagonized in most of the STT cells tested when the GABAA antagonist bicuculline was infused into the spinal dorsal horn through a microdialysis fiber. In contrast, the inhibition produced by PAG stimulation in most of the cells examined was not significantly antagonized by the GABAB antagonists phaclofen or 3-amino-propyl(diethoxymethyl)phophinic acid (CGP35348) administered into the spinal dorsal horn by microdialysis. 7. Our results support the contention that GABAergic mechanisms in the spinal dorsal horn normally exert a tonic modulation of nociceptive inputs through both GABAA and GABAB receptors. The evidence provided here indicates that GABAA receptors located on primate STT neurons contribute to a postsynaptic inhibitory effect on the transmission of peripheral nociceptive inputs. A possible presynaptic GABAA action was not investigated. Our finding of a GABAB-receptor-mediated inhibition is consistent with the view that both pre- and postsynaptic GABAB receptors are involved in inhibitory modulation of spinal nociceptive transmission. Finally, it is suggested from this study that primate spinal GABAA, but not GABAB receptors, are involved in mediating the descending inhibition induced by PAG stimulation.

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