抗 CGRP 抗体 galcanezumab 可改变大鼠三叉神经血管痛觉传感器复合体的功能

Nadine Friedrich, Krisztina Németh, Martin Tanner, Judit Rosta, Ildikó Dobos, Orsolya Oszlács, Gábor Jancsó, Karl Messlinger, Mária Dux
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引用次数: 0

摘要

针对神经肽降钙素基因相关肽(CGRP)的单克隆抗体可有效预防慢性和频繁发作性偏头痛。由于这种抗体不能穿过血脑屏障,其抗痛作用被归因于对脑膜组织的影响。我们的目的是探究给大鼠注射这种抗体后,是否能在硬脑膜和三叉神经节内看到这种抗体,并研究这种治疗是否会影响三叉神经血管痛觉传感器复合体的活动。通过测量大鼠硬脑膜中感觉神经肽和组胺的释放情况,研究了抗CGRP抗体galcanezumab对三叉神经血管神经传感复合体的影响。荧光显微镜可观察到三叉神经节和硬脑膜上的galcanezumab沉积。在治疗后30天,硬脑膜和三叉神经节中仍能检测到荧光标记的galcanezumab,这肯定了该抗体的持久调节作用。在雌性大鼠身上,使用galcanezumab全身治疗7天后,辣椒素诱导的CGRP释放减少,而硬脑膜中的P物质(SP)释放增加。在对照组大鼠中,雌性抑制性神经肽体生长抑素(SOM)的释放量高于雄性。在对照组大鼠中,高浓度氯化钾的刺激并未显著改变SOM的释放,而在接受加尔干珠单抗治疗的大鼠中,SOM的释放略有减少。伽卡尼珠单抗还能减少硬膜肥大细胞在 CGRP 刺激下释放的组胺量,而化合物 48/80 对组胺释放的影响没有改变。Galcanezumab 治疗后,三叉神经痛觉传感复合体中神经肽和组胺的释放发生了多种变化,这可能是抗 CGRP 抗体预防偏头痛效果的原因之一。这些影响三叉神经痛觉传感复合体各组成部分之间交流的变化,可能会降低接受CGRP靶向单克隆抗体治疗的偏头痛患者对疼痛的易感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anti-CGRP antibody galcanezumab modifies the function of the trigeminovascular nocisensor complex in the rat
Monoclonal antibodies directed against the neuropeptide calcitonin gene-related peptide (CGRP) are effective in the prevention of chronic and frequent episodic migraine. Since the antibodies do not cross the blood brain barrier, their antinociceptive effect is attributed to effects in meningeal tissues. We aimed to probe if such an antibody can be visualized within the dura mater and the trigeminal ganglia following its administration to rats and to examine if the activity of the trigeminovascular nocisensor complex is influenced by this treatment. Effects of the anti-CGRP antibody galcanezumab on the trigeminovascular nocisensor complex was examined by measuring release of sensory neuropeptides and histamine from the rat dura mater. Deposits of galcanezumab were visualized by fluorescence microscopy in the trigeminal ganglion and the dura mater. Fluorophore-labelled galcanezumab was detected in the dura mater and the trigeminal ganglion up to 30 days after treatment affirming the long-lasting modulatory effect of this antibody. In female rats, seven days after systemic treatment with galcanezumab the capsaicin-induced release of CGRP was decreased, while that of substance P (SP) was increased in the dura mater. In control rats, release of the inhibitory neuropeptide somatostatin (SOM) was higher in females than in males. Stimulation with high concentration of KCl did not significantly change the release of SOM in control animals, while in rats treated with galcanezumab SOM release was slightly reduced. Galcanezumab treatment also reduced the amount of histamine released from dural mast cells upon stimulation with CGRP, while the effect of compound 48/80 on histamine release was not changed. Galcanezumab treatment is followed by multiple changes in the release of neuropeptides and histamine in the trigeminal nocisensor complex, which may contribute to the migraine preventing effect of anti-CGRP antibodies. These changes affecting the communication between the components of the trigeminal nocisensor complex may reduce pain susceptibility in migraine patients treated with CGRP targeting monoclonal antibodies.
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