Inhibition of NF-kappaB prevents mechanical allodynia induced by spinal ventral root transection and suppresses the re-expression of Nav1.3 in DRG neurons in vivo and in vitro

Activation of nucleus factor-kappaB (NF-κB) in the dorsal root ganglia (DRG) is critical for development of neuropathic pain. The underlying mechanisms, however, are largely unknown. In the present work we tested if the activation of NF-κB is required for re-expression of Nav1.3, which is important for development of neuropathic pain, in uninjured DRG neurons. We found that intrathecal injection of pyrrolidine dithiocarbamate (PDTC), a NF-κB inhibitor, completely blocked the mechanical allodynia induced by L5 ventral root transection (L5-VRT), when applied 30 min before or 8 h after operation, but at 7 d after L5-VRT the same manipulation had no effect on established allodynia. Pre-treatment with PDTC also prevented the re-expression of Nav1.3 induced by L5-VRT. As our previous work has shown that up-regulation of tumor necrosis factor-alpha (TNF-α) in DRG is responsible for the re-expression of Nav1.3 in uninjured DRG neurons following L5 ventral root injury, we investigated whether activation of NF-κB is essential for the up-regulation of Nav1.3 by TNF-α. Results showed that application of rat recombinant TNF-α (rrTNF) into the cultured normal adult rat DRG neurons increased the immunoreactive (IR) of Nav1.3 localized mainly around the cell membrane and pre-treatment with PDTC blocked the change dose-dependently. The data suggested that injury to ventral root might lead to neuropathic pain and the re-expression of Nav1.3 in primary sensory neurons by activation of NF-κB.

Research Highlights
► Blockade of NF-κB attenuates the mechanical allodynia induced by motor neuron injury.
► Blockade of NF-κB inhibits re-expression of Nav1.3 in DRG neurons following L5-VRT.
► Blockade of NF-κB inhibits the re-expression of Nav1.3 in cultured DRG neurons.