Abstract
ABSTRACT Sensory transmission in the monosynaptic stretch reflex (MSR) from proprioceptive Ia afferents to motoneurons is markedly inhibited by serotonin, providing a mechanism by which the brain gates spinal cord function. However, the main serotonin receptor subtype that modulates the MSR is the 5-HT1D receptor that is expressed almost exclusively on nociceptive C-fibres, suggesting an unexpected gating of proprioceptive transmission by regulation of nociceptive pathways. We demonstrate here that activation of C-fibres (electrically or pharmacologically by TRPM8 agonists) increases action potential propagation in proprioceptive Ia afferents by producing a very long-lasting tonic depolarization in Ia afferents (tonic primary afferent depolarization, tonic PAD). This tonic PAD is produced indirectly by C-fibres augmenting axoaxonic GABAergic input onto Ia afferents (bicuculline sensitive), which activates nodal GABAA receptors that aid sodium spike initiation. In contrast, activation of 5-HT1D receptors with the anti-migraine drug zolmitriptan inhibits C-fibre activity, which in turn reduces the GABAA receptor-mediated tonic PAD on Ia afferents, and reduces spike propagation to motoneurons. Overall, these findings demonstrate a mechanism by which brainstem derived serotonin not only inhibits ongoing nociceptive C-fibres activity, but also indirectly inhibits GABAergic neurons and sensory transmission in large proprioceptive sensory afferents, leading to reduced motoneuron activity. Furthermore, these findings suggest that spontaneous nociceptive C-fibres activity may provide a general increase in proprioception, opposite to the classical gating of nociceptive pathways by low threshold afferents, and impacting the clinical use of zolmitriptan.
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ABSTRACT
Sensory transmission in the monosynaptic stretch reflex (MSR) from proprioceptive Ia afferents to motoneurons is markedly inhibited by serotonin, providing a mechanism by which the brain gates spinal cord function. However, the main serotonin receptor subtype that modulates the MSR is the 5-HT1D receptor that is expressed almost exclusively on nociceptive C-fibres, suggesting an unexpected gating of proprioceptive transmission by regulation of nociceptive pathways. We demonstrate here that activation of C-fibres (electrically or pharmacologically by TRPM8 agonists) increases action potential propagation in proprioceptive Ia afferents by producing a very long-lasting tonic depolarization in Ia afferents (tonic primary afferent depolarization, tonic PAD). This tonic PAD is produced indirectly by C-fibres augmenting axoaxonic GABAergic input onto Ia afferents (bicuculline sensitive), which activates nodal GABAA receptors that aid sodium spike initiation. In contrast, activation of 5-HT1D receptors with the anti-migraine drug zolmitriptan inhibits C-fibre activity, which in turn reduces the GABAA receptor-mediated tonic PAD on Ia afferents, and reduces spike propagation to motoneurons. Overall, these findings demonstrate a mechanism by which brainstem derived serotonin not only inhibits ongoing nociceptive C-fibres activity, but also indirectly inhibits GABAergic neurons and sensory transmission in large proprioceptive sensory afferents, leading to reduced motoneuron activity. Furthermore, these findings suggest that spontaneous nociceptive C-fibres activity may provide a general increase in proprioception, opposite to the classical gating of nociceptive pathways by low threshold afferents, and impacting the clinical use of zolmitriptan.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
↵8 These authors jointly supervised this work.
We have added an author we omitted. We have also added a paragraph to the end of the Results section. No conceptual changes were made to the paper.
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