Department of Pharmacology, College of Medicine, University of Arizona, Tucson, AZ, United States. Moutal is now with the Department of Pharmacology and Physiology, Saint Louis University School of Medicine, St. Louis, MO, United States.
Department of Neurology, Mayo Clinic, Phoenix, AZ, United States.
Pain. 2023 Jun 1;164(6):e263-e273. doi: 10.1097/j.pain.0000000000002835. Epub 2022 Nov 29.
Repeated stress produces hyperalgesic priming in preclinical models, but underlying mechanisms remain uncertain. As stress engages kappa opioid receptors (KORs), we hypothesized that repeated administration of KOR agonists might mimic, in part, stress-induced hyperalgesic priming. The potential contribution of circulating prolactin (PRL) and dysregulation of the expression of PRL receptor (PRLR) isoforms in sensory neurons after KOR agonist administration was also investigated. Mice received 3 daily doses of U-69593 or nalfurafine as a "first-hit" stimulus followed by assessment of periorbital tactile allodynia. Sixteen days after the first KOR agonist administration, animals received a subthreshold dose of inhalational umbellulone, a TRPA1 agonist, as the second-hit stimulus and periorbital allodynia was assessed. Cabergoline, a dopamine D2 receptor agonist, was used to inhibit circulating PRL in additional cohorts. Prolactin receptor isoforms were quantified in the V1 region of the trigeminal ganglion after repeated doses of U-69593. In both sexes, KOR agonists increased circulating PRL and produced allodynia that resolved within 14 days. Hyperalgesic priming, revealed by umbellulone-induced allodynia in animals previously treated with the KOR agonists, also occurred in both sexes. However, repeated U-69593 downregulated the PRLR long isoform in trigeminal neurons only in female mice. Umbellulone-induced allodynia was prevented by cabergoline co-treatment during priming with KOR agonists in female, but not male, mice. Hyperalgesic priming therefore occurs in both sexes after either biased or nonbiased KOR agonists. However, a PRL/PRLR-dependence is observed only in female nociceptors possibly contributing to pain in stress-related pain disorders in females.
在临床前模型中,重复的应激会产生痛觉过敏的启动现象,但潜在的机制仍不清楚。由于应激会激活κ 阿片受体(KOR),我们假设重复给予 KOR 激动剂可能在某种程度上模拟应激引起的痛觉过敏启动现象。还研究了 KOR 激动剂给药后循环催乳素(PRL)的潜在贡献和感觉神经元中 PRL 受体(PRLR)同工型表达的失调。
接受 3 次每日 U-69593 或纳呋拉啡作为“第一击”刺激后,评估眶周触诱发痛觉过敏。在第一次 KOR 激动剂给药后 16 天,动物接受阈下剂量的吸入性 Umbellulone(TRPA1 激动剂)作为第二击刺激,并评估眶周痛觉过敏。卡麦角林,一种多巴胺 D2 受体激动剂,用于抑制循环 PRL 在其他队列中的作用。在重复给予 U-69593 后,在三叉神经节的 V1 区定量 PRLR 同工型。在两性中,KOR 激动剂均增加了循环 PRL 并产生了痛觉过敏,14 天内缓解。在先前用 KOR 激动剂治疗的动物中,Umbellulone 诱导的痛觉过敏揭示了痛觉过敏的启动现象,在两性中也发生。然而,重复的 U-69593 仅在雌性小鼠的三叉神经神经元中下调 PRLR 长同工型。在 KOR 激动剂诱导的敏化过程中,用卡麦角林共同处理可预防 Umbellulone 诱导的痛觉过敏,仅在雌性而非雄性小鼠中。因此,两性在接受偏向或非偏向 KOR 激动剂后均会发生痛觉过敏的启动现象。然而,只有在雌性伤害感受器中观察到 PRL/PRLR 依赖性,这可能有助于女性应激相关疼痛障碍中的疼痛。
