Pain
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Comparative Study
Nociceptive thresholds are controlled through spinal β2-subunit-containing nicotinic acetylcholine receptors.
Although cholinergic drugs are known to modulate nociception, the role of endogenous acetylcholine in nociceptive processing remains unclear. In the current study, we evaluated the role of cholinergic transmission through spinal β(2)-subunit-containing nicotinic acetylcholine receptors in the control of nociceptive thresholds. We show that mechanical and thermal nociceptive thresholds are significantly lowered in β(2)(∗)-knockout (KO) mice. ⋯ Our results indicate that β(2)(∗)-nAChRs are implicated in the recruitment of inhibitory control of nociception, as shown by delayed recovery from capsaicin-induced allodynia, potentiated nociceptive response to inflammation and neuropathy, and by the loss of high-frequency transcutaneous electrical nerve stimulation (TENS)-induced analgesia in β(2)(∗)-KO mice. As high-frequency TENS induces analgesia through Aβ-fiber recruitment, these data suggest that β(2)(∗)-nAChRs may be critical for the gate control of nociceptive information by non-nociceptive sensory inputs. In conclusion, acetylcholine signaling through β(2)(∗)-nAChRs seems to be essential for setting nociceptive thresholds by controlling GABAergic inhibition in the spinal cord.