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Mechanism of Action of L THP as an Alternative Therapy for Cocaine Addiction

L THP 作为可卡因成瘾替代疗法的作用机制

基本信息

批准号：
8686757
负责人：
DAVID Yue-Wei LEE
金额：
$ 42.56万
依托单位：
MCLEAN HOSPITAL
依托单位国家：
美国
项目类别：
财政年份：
2012
资助国家：
美国
起止时间：
2012-09-01 至 2017-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8686757
关键词：
Abstinence Adverse effects Affinity Aftercare Alcohol abuse Alkaloids Alternative Therapies Amphetamines Analgesics Animal Model Animals Award Behavior Behavioral Binding Biochemical Pharmacology Biological Factors Brain China Clinical Clinical Trials Cocaine Cocaine Dependence Corydalis Cues Dopamine Receptor Drug Addiction Drug Kinetics Drug abuse Evaluation Familiarity Funding Grant Hepatocyte Heroin Heroin Dependence In Vitro Investigation Ion Channel Isoquinolines Laboratories Lead Literature Maryland Mediating Metabolism Methamphetamine Minor Mono-S Motor Activity Mus National Center for Complementary and Alternative Medicine National Institute of Drug Abuse Neurotransmitter Receptor Opium Pain Pharmaceutical Preparations Pharmacotherapy Prodrugs Property Psychological reinforcement Public Health Rattus Recording of previous events Research Rewards Sedation procedure Self Administration Serum Smoking Source Stress Techniques Time United States National Institutes of Health Universities Withdrawal analog L base behavioral sensitization chemical synthesis craving drug candidate drug development drug discovery drug metabolism drug seeking behavior hypnotic in vivo neurochemistry preference programs receptor receptor binding sedative tetrahydropalmatine

项目摘要

DESCRIPTION (provided by applicant): Cocaine addiction is a vexing public health problem for which no effective pharmacotherapies have been developed. Naturally derived bioactive compounds have been a rich source for modern drug development. Under our CERC program project "Alternative Therapies for Alcohol and Drug Abuse" (P01-AT- 002038) funded by NCCAM, eight isoquinoline alkaloids, including L-tetrahydropalmatine (L-THP), were isolated and characterized from tubers of Corydalis yanhuso, which is one of the five components of an herbal remedy (NPI-025) used in China to treat opium smoking for over 150 years. Interestingly, L-THP has been used clinically in China for more than 30 years as an analgesic with sedative/hypnotic properties and recently to treat heroin addiction. In animal models, L-THP reduced reinforcing property of cocaine and reinstatement of cocaine seeking following withdrawal. Importantly, L-THP itself had no rewarding effect, suggesting absence of abuse liability. Recently, Dr. Jia-Bei Wang of the University of Maryland received an NIH grant to conduct a clinical trial on L-THP for treatment of cocaine addiction in the US. Despite its long history of clinical use, the mechanisms of action of L-THP are not clear. Although some in vivo effects appear to be mediated by dopamine receptors, we found that L-THP had low or no affinity for the five subtypes (D1- D5) of DA receptors (see C.1.2). In addition, it did not bind t about 60 neurotransmitter receptors, ion channels, and transporters involved in pain modulation and drug addiction that we screened (see C.1.2). Following L-THP administration in mice or rats, we identified in serum the mono-demethylated analogs L- corypalmine (L-CP) and L-corydalmine (L-CD) to be the major metabolites and L-isocorypalmine (L-ICP) to be a minor metabolite (see C.1.3). We also found that L-ICP had moderate to high affinity for DA receptors (see C.1.4) and reduced cocaine-induced hyperlocomotion, behavioral sensitization and conditioned place preference (See C.1.5-1.8). Thus, we hypothesize that L-THP is a prodrug and its effects are due to demethylated metabolites acting on multiple DA receptors to modulate cocaine-induced behaviors. Consequently, we propose to further pharmacologically characterize L-THP and its demethylated metabolites to gain a better understanding of the mechanisms of action. Our specific aims are to (1) prepare L-THP and chemically synthesize its metabolites in sufficient quantity for pharmacological studies; (2) determine the metabolism and pharmacokinetic profiles of L-THP; (3) identify pharmacological activity of major metabolites at DA receptors and other targets; and (4) examine the effects of L-THP and its metabolites on cocaine self administration and reinstatement of drug seeking following withdrawal. The proposed research will enhance the understanding of mechanisms of action of L-THP, which may open a new avenue for mechanism-based drug discovery for cocaine addiction. As one of the major side effects of L-THP is sedation, our proposed study may yield candidate drugs with less sedation, as we have demonstrated for L-ICP.

描述（由申请人提供）：可卡因成瘾是一个令人烦恼的公共卫生问题，迄今尚未开发出有效的药物疗法。天然衍生的生物活性化合物已成为现代药物开发的丰富来源。我们的CERC项目“酒精和药物滥用的替代疗法”（P01-AT- 002038）由NCCAM资助，从杨胡连块茎中分离出8种异喹啉生物碱，包括l -四氢棕榈碱（L-THP），这是中国用于治疗鸦片吸烟的草药（NPI-025）的五种成分之一，已有150多年的历史。有趣的是，在中国临床上，L-THP作为一种具有镇静/催眠特性的镇痛药已经使用了30多年，最近用于治疗海洛因成瘾。在动物模型中，L-THP降低了可卡因的强化特性和戒断后可卡因寻求的恢复。重要的是，L-THP本身没有奖励效应，表明不存在滥用责任。最近，马里兰大学的王家北博士获得了美国国立卫生研究院的资助，在美国进行了一项关于L-THP治疗可卡因成瘾的临床试验。尽管L-THP的临床应用历史悠久，但其作用机制尚不清楚。虽然一些体内效应似乎是由多巴胺受体介导的，但我们发现L-THP对DA受体的五种亚型（D1- D5）具有低亲和力或无亲和力（见C.1.2）。此外，它不结合约60神经递质受体，离子通道和转运体参与疼痛调节和药物成瘾，我们筛选（见C.1.2）。在小鼠或大鼠中给予L- thp后，我们在血清中发现单去甲基化类似物L-紫堇胺（L- cp）和L-紫堇胺（L- cd）是主要代谢物，L-异紫堇胺（L- icp）是次要代谢物（见C.1.3）。我们还发现，L-ICP对DA受体具有中高亲和力（见C.1.4），并减少了可卡因诱导的过度运动、行为致敏和条件性位置偏好（见C.1.5-1.8）。因此，我们假设L-THP是一种前药，其作用是由于去甲基化代谢物作用于多个DA受体来调节可卡因诱导的行为。因此，我们建议进一步对L-THP及其去甲基化代谢物进行药理学表征，以更好地了解其作用机制。我们的具体目标是：(1)制备L-THP并化学合成其代谢物，以获得足够数量的药理学研究；(2)确定L-THP的代谢和药动学特征；(3)鉴定主要代谢物对DA受体和其他靶点的药理活性；(4)检查L-THP及其代谢物对可卡因自我给药和戒断后重新寻求药物的影响。本研究将加深对L-THP作用机制的认识，为基于机制的可卡因成瘾药物发现开辟新的途径。由于L-THP的主要副作用之一是镇静，我们提出的研究可能会产生具有较少镇静作用的候选药物，正如我们对L-ICP所证明的那样。