Inhibition of endocannabinoid hydrolases MAGL, FAAH and ABHD6 by AKU-005 reduces ex vivo cortical spreading depression.

IF 7.3 1区医学 Q1 CLINICAL NEUROLOGY

Journal of Headache and Pain Pub Date : 2025-04-23 DOI:10.1186/s10194-025-02030-2

Flavia Brugia, Konstantin Ivanov, Auni Aroviita, Raisa Giniatullina, Marko Lehtonen, Tarja Malm, Juha Savinainen, Rashid Giniatullin, Adriana Della Pietra

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引用次数: 0

Abstract

Background: Migraine is a common neurovascular disorder that remains currently untreated in half of the patients. One third of migraine patients experience aura, which is associated with the development of cortical spreading depolarization (CSD), a wave of depolarization involving neurons and glial cells. Cannabinoids have proven to be a promising class of compounds for the treatment of migraine pain. In this study, we are proposing a new strategy to counteract development of CSD and downstream events via multicomponent enhancement of the endocannabinoid system (ECS) by using a AKU-005, to simultaneously target several key endocannabinoids hydrolases. To this end, we profiled the activity of selective endocannabinoid hydrolases and their inhibition by AKU-005 and analyzed the effect of AKU-005 on the development of CSD in an ex vivo cortical slice model.

Methods: The inhibitory profile of AKU-005 was evaluated by a glycerol assay of lysates from HEK293 cells expressing mouse and human MAGL and ABHD6. After ex vivo treatment of cortex slices of Wistar rats and C57 BL/6 J-OlaHsd mice, endocannabinoids were quantified by mass spectrometry (LC-MS/MS), and activity of the hydrolases MAGL, FAAH, and ABHD6 were measured by activity-based protein profiling (ABPP). The effect of AKU-005 on ex vivo CSD wave in cortical slices was studied by live calcium imaging.

Results: Ex vivo, AKU-005 inhibited MAGL, FAAH, and ABHD6, increasing 2-arachidonoylglycerol (2-AG) and anandamide (AEA) levels in rat cortex under both basal and CSD conditions. In mice, AKU-005 showed a milder effect, inhibiting MAGL only under CSD conditions and increasing 2-AG levels in both basal and CSD states. In vitro analyses confirmed the ex vivo findings for rats and revealed basal MAGL inhibition in mice cortex. AKU-005, previously reported as a double MAGL/FAAH-inhibitor, also inhibited overexpressed mouse and human ABHD6, a little studied 2-AG-hydrolyzing enzyme in brain. In line with these results, AKU-005 reduced CSD events in cortical slices from both rodent species, with higher efficacy in rats.

Conclusions: Given the distinct profile of endocannabinoids hydrolases activities between rats and mice in the brain areas associated with migraine, AKU-005 may target multiple endocannabinoid hydrolases to serve as an efficient treatment option for migraine with aura.

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AKU-005抑制内源性大麻素水解酶MAGL、FAAH和ABHD6可减轻体外皮质扩散抑制。

背景：偏头痛是一种常见的神经血管疾病，目前仍有一半患者未得到治疗。三分之一的偏头痛患者经历先兆，这与皮层扩张性去极化（CSD）的发展有关，这是一种涉及神经元和神经胶质细胞的去极化波。大麻素已被证明是治疗偏头痛的一类有前途的化合物。在这项研究中，我们提出了一种新的策略，通过使用AKU-005同时靶向几个关键的内源性大麻素水解酶，通过多组分增强内源性大麻素系统（ECS）来对抗CSD和下游事件的发展。为此，我们在离体皮质切片模型中分析了AKU-005对选择性内源性大麻素水解酶的活性及其抑制作用，并分析了AKU-005对CSD发展的影响。方法：通过表达小鼠和人MAGL和ABHD6的HEK293细胞裂解物的甘油测定来评估AKU-005的抑制谱。Wistar大鼠和C57 BL/6 J-OlaHsd小鼠皮质切片离体处理后，采用质谱法（LC-MS/MS）定量内源性大麻素，采用活性蛋白谱法（ABPP）测定水解酶MAGL、FAAH和ABHD6的活性。通过活钙显像研究AKU-005对皮质片离体CSD波的影响。结果：在体外，AKU-005抑制MAGL、FAAH和ABHD6，在基础和CSD条件下增加大鼠皮层2-花生四烯醇甘油（2-AG）和anandamide （AEA）水平。在小鼠中，AKU-005表现出较温和的作用，仅在CSD条件下抑制MAGL，在基础和CSD状态下均增加2-AG水平。体外分析证实了大鼠的离体结果，并揭示了小鼠皮质的基础MAGL抑制。AKU-005是先前报道的双MAGL/ faah抑制剂，也抑制过表达的小鼠和人脑中2- ag水解酶ABHD6。与这些结果一致，AKU-005减少了两种啮齿动物皮质切片中的CSD事件，在大鼠中效果更高。结论：鉴于大鼠和小鼠偏头痛相关脑区内源性大麻素水解酶活性的不同，AKU-005可能靶向多种内源性大麻素水解酶，作为先兆偏头痛的有效治疗选择。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Headache and Pain 医学-临床神经学

CiteScore

11.80

自引率

13.50%

发文量

143

审稿时长

6-12 weeks

期刊介绍： The Journal of Headache and Pain, a peer-reviewed open-access journal published under the BMC brand, a part of Springer Nature, is dedicated to researchers engaged in all facets of headache and related pain syndromes. It encompasses epidemiology, public health, basic science, translational medicine, clinical trials, and real-world data. With a multidisciplinary approach, The Journal of Headache and Pain addresses headache medicine and related pain syndromes across all medical disciplines. It particularly encourages submissions in clinical, translational, and basic science fields, focusing on pain management, genetics, neurology, and internal medicine. The journal publishes research articles, reviews, letters to the Editor, as well as consensus articles and guidelines, aimed at promoting best practices in managing patients with headaches and related pain.