Spinal cord injury (SCI) is a devastating neurologic disorder that often inflicts neuropathic pain, which further impacts negatively on the patient's quality of life. Endothelin peptides, which exert their effects via endothelin A (ETAR) and endothelin B (ETBR) receptors, can contribute to sensory changes associated with inflammatory and neuropathic pain, but their role in nociception following SCI is unknown. At different time points after subjecting male Wistar rats to surgery for compression-induced T10 level SCI, the spinal cord levels of ETAR and ETBR were assessed by Western blot and immunohistochemistry, and the corresponding mRNAs by real-time PCR, alongside recordings of behavioural responses to mechanical stimulation of the hind paws with von Frey hairs. SCI was associated with development of hind paw mechanical allodynia from day 14 onwards, and up-regulation of ETAR and ETBR mRNA in the spinal cord and dorsal root ganglia, and of ETAR protein in the spinal cord. SCI increased ETAR protein expression in spinal grey matter. Treatment on day 21 after surgery with the ETAR selective antagonist BQ-123 (40 and 90 pmol, intrathecally) or the dual ETAR/ETBR antagonist bosentan (30 and 100mg/kg, orally) transiently reduced SCI-induced mechanical allodynia, but the ETBR antagonist BQ-788 was ineffective. Altogether, these data show that SCI upregulates ETAR expression in the spinal cord, which appears to contribute to the hind paw mechanical allodynia associated with this condition. Therapies directed towards blockade of spinal ETAR may hold potential to limit SCI-induced neuropathic pain.
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