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K+ channel Kv4.1 is expressed in the nociceptors/secondary nociceptive neurons and participates in pain regulation.

European journal of pain (London, England) (2022-09-14)
Chi-Yuan Chiu, Meei-Ling Tsaur
RESUMEN

Kv4 channels are key components controlling neuronal excitability at membrane potentials below action potential thresholds. It remains elusive whether Kv4.1 participates in pain regulation. We raised a Kv4.1 antibody to map Kv4.1+ neurons in the superficial dorsal horn of the spinal cord and dorsal root ganglion (DRG) of rats. Behavioural, biochemical and immunohistochemical methods were used to examine whether the activity of Kv4.1+ neurons or Kv4.1 expression level is altered after peripheral nerve injury. In lamina I of the spinal cord, Kv4.1 immunoreactivity (IR) was detected in neurokinin-1 receptor positive (NK1R)+ projection neurons (the secondary nociceptive neurons) and NK1R+ excitatory interneurons. Kv4.1, KChIP2 and DPP10 were co-expressed in these neurons. Peripheral nerve injury evoked by lumbar spinal nerve ligation (SNL) immediately induced phosphorylated extracellular regulated protein kinase (pERK, an indicator of enhanced neuronal activity) in lamina I Kv4.1+ neurons and lamina II Kv4.2/Kv4.3+ neurons of the spinal cord. Furthermore, Kv4.1 appeared in 59.9% of DRG neurons with variable sizes. Kv4.1 mRNA and protein levels in DRG neurons were gradually decreased after SNL. Following intrathecal injection of Kv4.1 antisense oligodeoxynucleotide (ASO) into naive rats, Kv4.1 protein level was reduced in the DRG, and mechanical but not thermal hypersensitivity was induced. Kv4.1 appears in the secondary nociceptive neurons, and peripheral nerve injury increases the activity of these neurons. Kv4.1 expression in DRG neurons (including half of the nociceptors) is gradually reduced after peripheral nerve injury, and knockdown of Kv4.1 in DRG neurons induces pain. Thus, Kv4.1 participates in pain regulation. Based on the expression of Kv4.1 and Kv4.3 in the nociceptors, Kv4.1 in the secondary nociceptive neurons, Kv4.1 in spinal lamina I excitatory interneurons that regulate the activity of the secondary nociceptive neurons, as well as Kv4.2 and Kv4.3 in spinal lamina II excitatory interneurons that also regulate the activity of the secondary nociceptive neurons, developing Kv4 activators or genetic manipulation to increase Kv4 channel activity in these pain-related Kv4+ neurons will be useful in future pain therapeutics.

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Sigma-Aldrich
Anti-Neurofilament 145 kDa Antibody, CT, clone 3H11, clone 3H11, Chemicon®, from mouse