β-Caryophyllene Inhibits Monoacylglycerol Lipase Activity and Increases 2-Arachidonoyl Glycerol Levels In Vivo: A New Mechanism of Endocannabinoid-Mediated Analgesia?

IF 3.2 3区医学 Q2 PHARMACOLOGY & PHARMACY

Molecular Pharmacology Pub Date : 2024-01-10 DOI:10.1124/molpharm.123.000668

Jost Klawitter, Wiebke Weissenborn, Iuliia Gvon, Mackenzie Walz, Jelena Klawitter, Matthew Jackson, Cristina Sempio, Sonja L Joksimovic, Touraj Shokati, Ingo Just, Uwe Christians, Slobodan M Todorovic

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Abstract

The mechanisms of β-caryophyllene (BCP)-induced analgesia are not well studied. Here, we tested the efficacy of BCP in an acute postsurgical pain model and evaluated its effect on the endocannabinoid system. Rats were treated with vehicle and 10, 25, 50, and 75 mg/kg BCP. Paw withdrawal responses to mechanical stimuli were evaluated using an electronic von Frey anesthesiometer. Endocannabinoids, including 2-arachidonoylglycerol (2-AG), were also evaluated in plasma and tissues using high-performance liquid chromatography-tandem mass spectrometry. Monoacylglycerol lipase (MAGL) activity was evaluated in vitro as well as ex vivo. We observed a dose-dependent and time-dependent alleviation of hyperalgesia in incised paws up to 85% of the baseline value at 30 minutes after administration of BCP. We also observed dose-dependent increases in the 2-AG levels of about threefold after administration of BCP as compared with vehicle controls. Incubations of spinal cord tissue homogenates from BCP-treated rats with isotope-labeled 2-arachidonoylglycerol-d8 revealed a reduced formation of the isotope-labeled MAGL product 2-AG-d8 as compared with vehicle controls, indicating MAGL enzyme inhibition. In vitro MAGL enzyme activity assessment using 2-AG as the substrate revealed an IC₅₀ of 15.8 µM for MAGL inhibition using BCP. These data showed that BCP inhibits MAGL activity in vitro and in vivo, causing 2-AG levels to rise. Since the endocannabinoid 2-AG is a CB1 and CB2 receptor agonist, we propose that 2-AG-mediated cannabinoid receptor activation contributes to BCP's mechanism of analgesia. SIGNIFICANCE STATEMENT: β-Caryophyllene (BCP) consumption is relatively safe and is approved by the Food and Drug Administration as a flavoring agent, which can be used in cosmetic and food additives. BCP is a potent anti-inflammatory agent that showed substantial antihyperalgesic properties in this study of acute pain suggesting that BCP might be an alternative to opioids. This study shows an additive mechanism (monoacylglycerol lipase inhibition) by which BCP might indirectly alter CB1 and CB2 receptor activity and exhibit its pharmacological properties.

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β-石竹烯在体内抑制单酰基甘油脂肪酶的活性并增加 2-丙烯酰甘油的水平：内源性大麻素介导镇痛的新机制？

简介。BCP诱导镇痛的机制尚未得到充分研究。在此，我们测试了 BCP 在急性手术后疼痛模型中的疗效，并评估了其对内源性大麻素系统的影响。方法在急性手术后疼痛模型中测试 BCP 的疗效。用 10、25、50 和 75 毫克/千克 BCP 对大鼠进行治疗。使用 von Frey 灯丝评估爪对机械刺激的退缩反应 (PWR)。结果显示还使用 HPLC-MS 方法评估了血浆和组织中的内源性大麻素，包括 2-阿拉克酰甘油（2-AG）。对单酰甘油脂肪酶（MAGL）的活性进行了体外和体内评估。我们观察到，在给予 BCP 30 分钟后，切口爪的痛觉减退呈剂量依赖性和时间依赖性，达到基线值的 85%。与药物对照组相比，我们还观察到给药 BCP 后 2-AG 水平呈剂量依赖性增加了约 3 倍。将 BCP 处理过的大鼠脊髓组织匀浆与同位素标记的 2-arachidonoylglycerol-d8 一起培养，结果发现与药物对照组相比，同位素标记的 MAGL 产物 2-AG-d8 的形成明显减少，这表明 MAGL 酶受到了抑制。以 2-AG 为底物进行的体外 MAGL 酶活性评估显示，使用 BCP 抑制 MAGL 的 IC 值为 15.8 µM。结论。这些数据表明，BCP 可抑制体外和体内 MAGL 的活性，导致 2-AG 水平升高。由于内源性大麻素 2-AG 是一种 CB1 和 CB2 受体激动剂，我们认为 2-AG 介导的大麻素受体激活可能有助于 BCP 的镇痛机制。意义声明与阿片类药物或大麻素相比，BCP的食用相对安全，并已被美国食品及药物管理局批准为调味剂，可用于化妆品和食品添加剂。BCP 是一种强效抗炎剂，在这项急性疼痛研究中表现出卓越的抗过敏特性。因此，BCP 可能是阿片类药物的一种有价值的替代品。我们展示了一种添加机制（单酰甘油脂肪酶抑制），通过这种机制，BCP 可间接改变 CB2 受体的活性，并显示出其药理特性。

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来源期刊

Molecular Pharmacology 医学-药学

CiteScore

7.20

自引率

2.80%

发文量

审稿时长

3-6 weeks

期刊介绍： Molecular Pharmacology publishes findings derived from the application of innovative structural biology, biochemistry, biophysics, physiology, genetics, and molecular biology to basic pharmacological problems that provide mechanistic insights that are broadly important for the fields of pharmacology and toxicology. Relevant topics include: Molecular Signaling / Mechanism of Drug Action Chemical Biology / Drug Discovery Structure of Drug-Receptor Complex Systems Analysis of Drug Action Drug Transport / Metabolism