Department of Animal Morphology and Physiology, College of Agricultural and Veterinarian Sciences, São Paulo State University, Jaboticabal, São Paulo, 14884-900, Brazil.
Department of Physiology and Pharmacology, Hotchkiss Brain Institute and Alberta Children's Hospital Research Institute, Cumming School of Medicine, University of Calgary, Calgary, Alberta, Canada.
Prog Neuropsychopharmacol Biol Psychiatry. 2024 Aug 30;134:111063. doi: 10.1016/j.pnpbp.2024.111063. Epub 2024 Jun 20.
CO exposure has been used to investigate the panicogenic response in patients with panic disorder. These patients are more sensitive to CO, and more likely to experience the "false suffocation alarm" which triggers panic attacks. Imbalances in locus coeruleus noradrenergic (LC-NA) neurotransmission are responsible for psychiatric disorders, including panic disorder. These neurons are sensitive to changes in CO/pH. Therefore, we investigated if LC-NA neurons are differentially activated after severe hypercapnia in mice. Further, we evaluated the participation of LC-NA neurons in ventilatory and panic-like escape responses induced by 20% CO in male and female wild type mice and two mouse models of altered LC-NA synthesis. Hypercapnia activates the LC-NA neurons, with males presenting a heightened level of activation. Mutant males lacking or with reduced LC-NA synthesis showed hypoventilation, while animals lacking LC noradrenaline present an increased metabolic rate compared to wild type in normocapnia. When exposed to CO, males lacking LC noradrenaline showed a lower respiratory frequency compared to control animals. On the other hand, females lacking LC noradrenaline presented a higher tidal volume. Nevertheless, no change in ventilation was observed in either sex. CO evoked an active escape response. Mice lacking LC noradrenaline had a blunted jumping response and an increased freezing duration compared to the other groups. They also presented fewer racing episodes compared to wild type animals, but not different from mice with reduced LC noradrenaline. These findings suggest that LC-NA has an important role in ventilatory and panic-like escape responses elicited by CO exposure in mice.
CO 暴露已被用于研究惊恐障碍患者的惊恐反应。这些患者对 CO 更为敏感,更容易出现引发惊恐发作的“虚假窒息警报”。蓝斑去甲肾上腺素能(LC-NA)神经递质的失衡与包括惊恐障碍在内的精神障碍有关。这些神经元对 CO/pH 的变化敏感。因此,我们研究了严重高碳酸血症后小鼠 LC-NA 神经元是否会被差异激活。此外,我们评估了 LC-NA 神经元在雄性和雌性野生型小鼠以及两种 LC-NA 合成改变的小鼠模型中由 20%CO 诱导的通气和类似惊恐的逃避反应中的参与。高碳酸血症激活 LC-NA 神经元,雄性呈现出更高水平的激活。缺乏或减少 LC-NA 合成的突变雄性表现出通气不足,而在正常碳酸血症下,缺乏 LC 去甲肾上腺素的动物比野生型动物表现出更高的代谢率。当暴露于 CO 时,缺乏 LC 去甲肾上腺素的雄性与对照动物相比,呼吸频率较低。另一方面,缺乏 LC 去甲肾上腺素的雌性表现出更高的潮气量。然而,在任何性别中都没有观察到通气的变化。CO 诱发了积极的逃避反应。缺乏 LC 去甲肾上腺素的小鼠与其他组相比,跳跃反应减弱,冻结时间延长。与野生型动物相比,它们的奔跑次数也较少,但与减少 LC 去甲肾上腺素的小鼠没有区别。这些发现表明 LC-NA 在 CO 暴露引起的小鼠通气和类似惊恐的逃避反应中起重要作用。
