Oxytocin shortens spreading depolarization-induced periorbital allodynia

Andrea M. Harriott, Melih Kaya, Cenk Ayata
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Abstract

Migraine is among the most prevalent and burdensome neurological disorders in the United States based on disability-adjusted life years. Cortical spreading depolarization (SD) is the most likely electrophysiological cause of migraine aura and may be linked to trigeminal nociception. We previously demonstrated, using a minimally invasive optogenetic approach of SD induction (opto-SD), that opto-SD triggers acute periorbital mechanical allodynia that is reversed by 5HT1B/1D receptor agonists, supporting SD-induced activation of migraine-relevant trigeminal pain pathways in mice. Recent data highlight hypothalamic neural circuits in migraine, and SD may activate hypothalamic neurons. Furthermore, neuroanatomical, electrophysiological, and behavioral data suggest a homeostatic analgesic function of hypothalamic neuropeptide hormone, oxytocin. We, therefore, examined the role of hypothalamic paraventricular nucleus (PVN) and oxytocinergic (OXT) signaling in opto-SD-induced trigeminal pain behavior. We induced a single opto-SD in adult male and female Thy1-ChR2-YFP transgenic mice and quantified fos immunolabeling in the PVN and supraoptic nucleus (SON) compared with sham controls. Oxytocin expression was also measured in fos-positive neurons in the PVN. Periorbital mechanical allodynia was tested after treatment with selective OXT receptor antagonist L-368,899 (5 to 25 mg/kg i.p.) or vehicle at 1, 2, and 4 h after opto-SD or sham stimulation using von Frey monofilaments. Opto-SD significantly increased the number of fos immunoreactive cells in the PVN and SON as compared to sham stimulation (p < 0.001, p = 0.018, respectively). A subpopulation of fos-positive neurons also stained positive for oxytocin. Opto-SD evoked periorbital mechanical allodynia 1 h after SD (p = 0.001 vs. sham), which recovered quickly within 2 h (p = 0.638). OXT receptor antagonist L-368,899 dose-dependently prolonged SD-induced periorbital allodynia (p < 0.001). L-368,899 did not affect mechanical thresholds in the absence of opto-SD. These data support an SD-induced activation of PVN neurons and a role for endogenous OXT in alleviating acute SD-induced trigeminal allodynia by shortening its duration.
催产素能缩短扩张性去极化诱发的眶周异感症
偏头痛是美国发病率最高、负担最重的神经系统疾病之一,以残疾调整生命年计算。皮质扩展性去极化(SD)是偏头痛先兆最可能的电生理学原因,并可能与三叉神经痛觉有关。我们以前曾利用微创光遗传学方法诱导 SD(opo-SD),证明opo-SD 会引发急性眶周机械痛觉,而 5HT1B/1D 受体激动剂可逆转这种痛觉,从而支持 SD 诱导的小鼠偏头痛相关三叉神经疼痛通路的激活。最近的数据强调了偏头痛的下丘脑神经回路,而SD可能会激活下丘脑神经元。此外,神经解剖学、电生理学和行为学数据表明,下丘脑神经肽激素催产素具有同源镇痛功能。因此,我们研究了下丘脑室旁核(PVN)和催产素能(OXT)信号在光-SD诱导的三叉神经痛行为中的作用。我们诱导成年雄性和雌性 Thy1-ChR2-YFP 转基因小鼠接受一次光-SD,与假对照组相比,定量检测了 PVN 和视上核(SON)中的 fos 免疫标记。同时还测定了PVN中fos阳性神经元的催产素表达。在使用 von Frey 单丝进行光-SD 或假刺激后 1、2 和 4 小时,使用选择性 OXT 受体拮抗剂 L-368,899(5 至 25 mg/kg i.p.)或药物治疗后,测试了眶周机械异感。与假刺激相比,Opto-SD 明显增加了 PVN 和 SON 中 fos 免疫反应细胞的数量(分别为 p < 0.001 和 p = 0.018)。fos 阳性神经元亚群的催产素染色也呈阳性。光刺激 SD 后 1 小时诱发眶周机械异感(与假刺激相比,p = 0.001),并在 2 小时内迅速恢复(p = 0.638)。OXT 受体拮抗剂 L-368,899 的剂量依赖性延长了 SD 诱导的眶周异感(p < 0.001)。L-368,899 不影响无光-SD 情况下的机械阈值。这些数据支持 SD 诱导的 PVN 神经元激活,以及内源性 OXT 在通过缩短 SD 诱导的急性三叉神经痛的持续时间来减轻这种痛的作用。
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