Abstract Mild traumatic brain injury (mTBI) commonly induces transient acute (APTH) or persistent (PPTH) post-traumatic headache (PTH) that often resembles migraine. As orexin B sensitizes male but not female murine, nonhuman primate, and human dorsal root ganglion neurons and supradural orexin B/orexin receptor 2 (OX2R) signaling elicits migraine-like pain in naïve male, but not female, mice we explored possible sexually dimorphic contributions of orexin B/OX2R to PTH. In mice of both sexes, mTBI-induced transient cephalic allodynia, a surrogate measure of APTH. After APTH resolution, allodynia was reinstated by exposure to normally innocuous stress or by inhalational delivery of a subthreshold concentration of umbellulone, a TRPA1 agonist, suggesting the expression of PPTH. In contrast to these nonselective stimuli, subthreshold supradural orexin B induced PPTH only in male mTBI mice. Intranasal delivery of a CRISPR/Cas9 plasmid to edit trigeminal OX2R expression prevented APTH and development of PPTH selectively in male mTBI mice. Daily oral suvorexant, a dual orexin receptor antagonist (DORA), beginning immediately after mTBI, prevented APTH as well as PPTH. Critically, starting suvorexant treatment after resolution of APTH also prevented stress- or umbellulone-induced PPTH. EEG/EMG-defined sleep architecture or immobility-defined sleep was not disrupted in this mTBI model suggesting that suvorexant benefits are unlikely related to sleep modulation. Our findings reveal a male-specific mechanism of PTH maintained by orexin B/OX2R signaling and suggest that approved DORAs may be beneficial in treating APTH and preventing transition to PPTH in men. Importantly, DORAs may also be effective in men with established PPTH.
Vizin et al. (Tue,) studied this question.