长期服用大麻素激动剂 ACEA(CB1)、AM1241(CB2)和 CP55,940 (CB1/CB2 混合)可在化疗引起的周围神经病变中诱导耐受性和性激素变化的性别差异。

IF 3.1 3区 医学 Q2 PHARMACOLOGY & PHARMACY
Robert C Barnes, Henry Blanton, Canice Lei Dancel, Isabel Castro-Piedras, Boyd R Rorabaugh, Daniel J Morgan, Josée Guindon
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引用次数: 0

摘要

化疗诱发的周围神经病变(CIPN)是化疗治疗的常见副作用,通常表现为四肢远端疼痛敏感性(异痛症)增强。尽管这种副作用很普遍,但有效的治疗方案却很有限。人们正越来越多地评估大麻素治疗慢性疼痛(包括 CIPN)的能力。以往的研究表明,在急性和慢性疼痛模型中,大麻素介导的抗痛觉作用存在性别差异,但针对 CIPN 对大麻素治疗反应的潜在性别差异的研究却很少。因此,我们利用雄性和雌性小鼠,评估了 CB1 选择性(ACEA)、CB2 选择性(AM1241)和 CB1/CB2 混合(CP55,940)激动剂在顺铂 CIPN 模型中的长期抗异位效力。观察发现,CB1 选择性激动剂在抗厌恶作用耐受性的发展方面存在性别差异,雌性比雄性更快产生耐受性,而选择性 CB2 激动剂的抗厌恶作用则缺乏耐受性发展。研究人员注意到,雌性发情周期和雌性血浆雌二醇水平的变化具有化合物特异性,CB1 选择性激动会降低血浆雌二醇,而 CB2 选择性激动则会增加血浆雌二醇。长期服用 CB1/CB2 混合激动剂会导致女性脊髓组织中促炎细胞因子和内源性大麻素调节酶的 mRNA 表达增加。在服用 CB2 作用化合物后,卵巢组织中促炎细胞因子 mRNA 的表达明显增加,而选择性 CB1 激动则导致睾丸中促炎细胞因子和内源性大麻素调节酶的表达减少。这些结果表明,有必要进一步研究性和性激素信号在疼痛和大麻素介导的抗痛觉效应中的作用。意义声明 CIPN 是化疗的常见副作用。我们发现,在顺铂 CIPN 模型中,CB1 和 CB2 受体激动都能产生抗痛觉作用。我们观察到,雌性患者对 CB1 介导的抗痛觉耐受性发展较快,而对 CB¬2 介导的抗痛觉耐受性则没有发展。此外,我们还发现 CB1/CB¬2 受体在调节雌性血浆雌二醇中的作用截然不同,CB1 受体激动会减弱雌二醇,而 CB¬2 受体激动则会增强雌二醇。这些发现支持对大麻素激动剂治疗 CIPN 的探索。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chronic Administration of Cannabinoid Agonists ACEA, AM1241, and CP55,940 Induce Sex-Specific Differences in Tolerance and Sex Hormone Changes in a Chemotherapy-Induced Peripheral Neuropathy.

Chemotherapy-induced peripheral neuropathy (CIPN) is a common side effect of chemotherapy treatment, routinely manifesting as increased pain sensitivity (allodynia) in distal extremities. Despite its prevalence, effective treatment options are limited. Cannabinoids are increasingly being evaluated for their ability to treat chronic pain conditions, including CIPN. While previous studies have revealed sex differences in cannabinoid-mediated antinociception in acute and chronic pain models, there is a paucity of studies addressing potential sex differences in the response of CIPN to cannabinoid treatment. Therefore, we evaluated the long-term antiallodynic efficacy of cannabinoid receptor type 1 (CB1)-selective, cannabinoid receptor type 2 (CB2)-selective, and CB1/CB2 mixed agonists in the cisplatin CIPN model, using both male and female mice. CB1 selective agonism was observed to have sex differences in the development of tolerance to antiallodynic effects, with females developing tolerance more rapidly than males, while the antiallodynic effects of selective CB2 agonism lacked tolerance development. Compound-specific changes to the female estrous cycle and female plasma estradiol levels were noted, with CB1 selective agonism decreasing plasma estradiol while CB2 selective agonism increased plasma estradiol. Chronic administration of a mixed CB1/CB2 agonist resulted in increased mRNA expression of proinflammatory cytokines and endocannabinoid regulatory enzymes in female spinal cord tissue. Ovarian tissue was noted to have proinflammatory cytokine mRNA expression following administration of a CB2 acting compound while selective CB1 agonism resulted in decreased proinflammatory cytokines and endocannabinoid regulatory enzymes in testes. These results support the need for further investigation into the role of sex and sex hormones signaling in pain and cannabinoid-mediated antinociceptive effects. SIGNIFICANCE STATEMENT: CIPN is a common side effect of chemotherapy. We have found that both CB1 and CB2 receptor agonism produce antinociceptive effects in a cisplatin CIPN model. We observed that tolerance to CB1-mediated antinociception developed faster in females and did not develop for CB2-mediated antinociception. Additionally, we found contrasting roles for CB1/CB2 receptors in the regulation of plasma estradiol in females, with CB1 agonism attenuating estradiol and CB2 agonism enhancing estradiol. These findings support the exploration of cannabinoid agonists for CIPN.

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来源期刊
CiteScore
6.90
自引率
0.00%
发文量
115
审稿时长
1 months
期刊介绍: A leading research journal in the field of pharmacology published since 1909, JPET provides broad coverage of all aspects of the interactions of chemicals with biological systems, including autonomic, behavioral, cardiovascular, cellular, clinical, developmental, gastrointestinal, immuno-, neuro-, pulmonary, and renal pharmacology, as well as analgesics, drug abuse, metabolism and disposition, chemotherapy, and toxicology.
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