Analgesic efficacy of single and combined minor cannabinoids and terpenes

单一和组合次要大麻素和萜烯的镇痛功效

基本信息

批准号：
10017870
负责人：
Sara J Ward
金额：
$ 39.63万
依托单位：
TEMPLE UNIV OF THE COMMONWEALTH
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-09-15 至 2024-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10017870
关键词：
Absence of pain sensation Acetic Acids Achievement Acids Acute Acute Pain Agonist Analgesics Animal Model Anti-Inflammatory Agents Attenuated Behavior Beta-caryophyllene Biological Biological Assay C57BL/6 Mouse CNR2 gene Cannabidiol Cannabinoids Cannabis Cannabis sativa plant Clinical Combined Modality Therapy Data Dental Models Dental Pulp Dental Pulp Exposure Development Dose Ensure Face Farming environment Female Follow-Up Studies Goals Hemp Inflammation Inflammatory Investigation Laboratories Legal Length Literature Measures Mechanics Medical Marijuana Minor Molecular Morphine Mus Neuropathy Nociception Paclitaxel Pain Pain Measurement Pain Research Pain management Pharmacology Plants Property Rattus Reporting Research Rodent Model Sales Sesquiterpenes Sprague-Dawley Rats Stretching Tactile Terpenes Testing Tetrahydrocannabinol Therapeutic Toothache Visceral Visceral pain allodynia behavior test cannabigerol chemotherapy chronic pain conditioned place preference experimental study interest male mechanical allodynia mouse model optimal treatments orofacial painful neuropathy phytocannabinoid pre-clinical prevent protective effect response translational medicine treatment strategy

项目摘要

The primary goal of the proposed research is to empirically and quantitatively test the hypothesis that combinations of four biologically active components of Cannabis sativa act synergistically to protect against the development of pain in two rodent models: chemotherapy-induced neuropathic pain and pain associated with dental pulp exposure. In addition, effects of these Cannabis components on morphine analgesia and will also be assessed. Cannabis contains over 100 phytocannabinoids as well as several terpene compounds which are also biologically active. As stated in RFT-AT-19-008, while a growing body of literature suggests that Cannabis may have analgesic properties, the psychoactive effects of the phytocannabinoid ∆9-tetrahydrocannabinol (THC) limit its utility, calling for an investigation into the therapeutic potential of additional phytocannabinoids and terpenes found in the plant. Our laboratory has been studying the anti-neuropathic efficacy of the non- psychoactive phytocannabinoid cannabidiol (CBD) for over a decade. In addition to CBD, the minor cannabinoid cannabigerol (CBG), the acid form of THC THCA, and the terpene beta-caryophyllene (β-CP), are receiving increasing interest by clinicians as analgesics and/or anti-inflammatory agents. We have also recently demonstrated that β-CP prevents the development of mechanical sensitivity in a rat model of dental pain. Importantly, so-called “entourage effects” of Cannabis constituents are anecdotally discussed at length, but empirical data are woefully lacking, including the potential for synergistic interactions outside of THC. We determined that CBD acts synergistically with THC to attenuate mechanical allodynia associated with paclitaxel administration, while attenuating the antinociceptive effects of morphine on thermal sensitivity. Testing for such interactive effects requires rigorous dose response testing and analysis across single and combined agents, and these requirements increase with the number of agents to be combined. Animal modeling to test unique interactive effects of several Cannabis constituents provides a uniquely effective contribution to translational medicine, as executing such studies in a clinical setting is immensely more challenging and expensive. In the current proposal we will determine the efficacy of CBD, CBG, THCA, and β-CP alone and in combination on tactile allodynia and other pain-related behaviors in males and females. We will also determine the interactive effects of CBD, CBG, THCA, and β-CP with morphine on acute antinociceptive and visceral pain. At the completion of behavioral testing, complementary cellular and molecular approaches will be utilized to also characterize effects of single and combined agents on markers of pain and inflammation. The assembled team has the expertise and collaborative relationship to ensure the feasibility and achievement of the proposed project. The overall impact of the project will be to provide empirically-derived evidence for key components of Cannabis representing non-psychoactive single and/or combined for the treatment of acute and chronic pain.

拟议研究的主要目标是通过实证和定量检验以下假设：大麻四种生物活性成分的组合可协同作用，防止两种啮齿动物模型中疼痛的发展：化疗引起的神经性疼痛和与化疗相关的疼痛此外，这些大麻成分对吗啡镇痛也有影响。大麻含有 100 多种植物大麻素以及几种萜化合物。正如 RFT-AT-19-008 中所述，越来越多的文献表明大麻具有生物活性。可能具有镇痛特性，植物大麻素 Δ9-四氢大麻酚的精神作用（THC）限制了其效用，呼吁对其他植物大麻素的治疗潜力进行调查我们的实验室一直在研究非物质的抗神经病变功效。精神活性植物大麻素大麻二酚 (CBD) 已有十多年的历史。大麻素大麻酚 (CBG)、THC THCA 的酸形式和萜烯 β-石竹烯 (β-CP) 是作为镇痛剂和/或抗炎剂，我们也越来越受到主教们的关注。最近证明，β-CP 可防止大鼠牙科模型中机械敏感性的发展重要的是，大麻成分的所谓“随从效应”被详细讨论，但不幸的是，经验数据缺乏，包括 THC 之外协同相互作用的潜力。确定 CBD 与 THC 协同作用，减轻与紫杉醇相关的机械异常性疼痛给药，同时减弱吗啡对热敏感性测试的镇痛作用。交互作用需要对单一药物和组合药物进行严格的剂量反应测试和分析，并且这些要求随着要组合的动物模型的数量的增加而增加，以测试独特的。几种大麻成分的相互作用效应为转化提供了独特有效的贡献医学，因为在临床环境中进行此类研究更具挑战性和昂贵。目前的提案，我们将确定 CBD、CBG、THCA 和 β-CP 单独和组合的功效我们还将确定男性和女性的触觉异常性疼痛和其他疼痛相关行为。 CBD、CBG、THCA 和 β-CP 与吗啡对急性镇痛和内脏疼痛的影响。完成行为测试后，还将利用补充细胞和分子方法表征单一和组合药物对疼痛和炎症标志物的影响。拥有专业知识和合作关系，以确保拟议的可行性和实现该项目的总体影响将为关键组成部分提供经验证据。大麻代表非精神活性的单一和/或组合用于治疗急性和慢性疼痛。