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Role of Habenula in Tobacco Addiction

缰核在烟草成瘾中的作用

基本信息

批准号：
7989470
负责人：
RAMIRO SALAS
金额：
$ 12.74万
依托单位：
BAYLOR COLLEGE OF MEDICINE
依托单位国家：
美国
项目类别：
财政年份：
2010
资助国家：
美国
起止时间：
2010-08-01 至 2014-05-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7989470
关键词：
Affinity Americas Area Arts Attention Behavior Behavioral Brain Brain Part Brain region Cessation of life Coupled Coupling Cues Data Data Set Developed Countries Development Drosophila acetylcholine receptor alpha-subunit Environment Faculty Functional Magnetic Resonance Imaging Future Genes Genetic Genetic Polymorphism Genetic Techniques Genotype Goals Grant Habenula Health Human Image Imaging Techniques Individual Juice Learning Light Link Malignant neoplasm of lung Mammals Mediating Mediator of activation protein Medical Mentored Research Scientist Development Award Methods Microdialysis Molecular Target Monkeys Mus Mutation Neurons Neuropathy Nicotine Nicotine Dependence Nicotine Withdrawal Nicotinic Antagonists Nicotinic Receptors Nucleus Accumbens Paper Pattern Pharmaceutical Preparations Pharmacology Play Population Relapse Research Research Personnel Research Project Grants Rewards Risk Role Series Single Nucleotide Polymorphism Smoker Study Subject Subgroup Substance Withdrawal Syndrome System Time Tobacco Tobacco Dependence Tobacco smoke Tobacco use Variant Visual Withdrawal Withdrawal Symptom Work Writing addiction base brain research cost design experience genetic variant genome wide association study improved in vivo insight interpeduncular nucleus member neuroimaging non-smoker novel strategies public health relevance research study reward processing smoking cessation tobacco abuse

项目摘要

DESCRIPTION (provided by applicant): Description of Applicant's goals and Environment My long term goal is to become an independent investigator and to study neuronal mechanisms of addiction and related neuropathies. I had a postdoctoral experience in which I worked on mice with mutations on nicotinic receptors (nAChR), using behavior, in vivo pharmacology, microdialysis, etc. My current goal is to verify that the conclusions of my mouse research are applicable to humans. I will study whether certain nicotinic receptors in specific brain areas are critical for nicotine withdrawal symptoms in humans, as they are in mice. To that end, I moved to the Human Neuroimaging Lab in Baylor. This center has state of the art imaging facilities, being the only center of its kind in the world with five scanners devoted solely to brain research. In addition, there are in Baylor several faculty members with expertise on both tobacco addiction research and in several imaging techniques. My short term goal is to use functional magnetic resonance imaging (fMRI) in human smokers and non- smokers to study brain mechanisms of tobacco withdrawal with special attention to the habenula, a small brain region that I showed that in mice, is critical for nicotine withdrawal. During the K01 award, I plan to become proficient in imaging and genetic techniques, and to collect enough data to write an R01 grant and at least 3 papers. Description of Research Project Tobacco addiction is the number one cause of preventable death in America. Recent studies have linked certain genetic variants in a subgroup of nicotinic acetylcholine receptor subunits (13, 15 and 24) to tobacco addiction risk. I will use functional magnetic resonance imaging (fMRI) to study patterns of brain activity during passive learning in non smokers and in sated and abstinent smokers. In the passive learning task, the activity of the reward system is modulated while subjects learn a cue-reward relationship. This task allows for the study of both learning and reward processing, which are compromised in abstinent smokers. The 13, 15 and 24 subunits are highly expressed in the habenula, an area which has been recently shown to be a critical part of the reward system in mammals. In addition, we have shown that the habenula is necessary for nicotine withdrawal in mice. The study of the habenula in humans has been hampered by its small size, which makes it difficult to image it in fMRI studies. We have developed a method to study habenular activity in humans during the passive learning paradigm, and we are now capable of studying habenular activity related to tobacco use and withdrawal. In addition, I will genotype a series of single nucleotide polymorphisms in all studied subjects to correlate genetic background and tobacco-dependent habenular activity. These experiments will provide a mechanism for the increased risk of tobacco addiction carried by those genetic variants. In summary, I will study brain activity during nicotine withdrawal in a genetically defined population, with special emphasis on the reward system, including the habenula and dopaminergic areas. I hope that this data will open new avenues to help design genetic background-specific drugs to treat tobacco addiction. PUBLIC HEALTH RELEVANCE: Tobacco abuse is a behavioral pattern that is very difficult to break, mainly because of withdrawal symptoms. To help design better anti-tobacco abuse therapies, we will study which parts of the brain and which genes are involved in tobacco abuse behavior and withdrawal symptoms.

描述（由申请人提供）：申请人的目标和环境的描述我的长期目标是成为一个独立的研究者，并研究成瘾和相关神经病变的神经机制。我有一个博士后的经验，我在小鼠与突变的烟碱受体（nAChR），使用行为，体内药理学，微透析等，我目前的目标是验证我的小鼠研究的结论适用于人类。我将研究特定大脑区域中的某些烟碱受体是否对人类的尼古丁戒断症状至关重要，就像在小鼠中一样。为此，我搬到了贝勒的人类神经成像实验室。该中心拥有最先进的成像设备，是世界上唯一一个拥有五台专门用于大脑研究的扫描仪的同类中心。此外，贝勒大学还有几名教员，他们在烟草成瘾研究和几种成像技术方面都有专业知识。我的短期目标是在人类吸烟者和非吸烟者中使用功能性磁共振成像（fMRI）来研究烟草戒断的大脑机制，特别关注缰核，我在小鼠中展示的一个小的大脑区域，对尼古丁戒断至关重要。在K 01奖期间，我计划精通成像和遗传技术，并收集足够的数据来撰写R 01资助和至少3篇论文。研究项目描述烟草成瘾是美国可预防死亡的头号原因。最近的研究表明，烟碱乙酰胆碱受体亚基（13，15和24）的某些遗传变异与烟草成瘾风险有关。我将使用功能性磁共振成像（fMRI）来研究非吸烟者以及满足和戒烟者在被动学习过程中的大脑活动模式。在被动学习任务中，当被试学习线索-奖励关系时，奖励系统的活动受到调节。这项任务允许学习和奖励处理的研究，这是在戒烟者妥协。 13、15和24亚基在缰核中高度表达，缰核是最近被证明是哺乳动物奖励系统的关键部分。此外，我们已经表明，缰是必要的尼古丁戒断小鼠。对人类缰核的研究一直受到其小尺寸的阻碍，这使得它很难在功能磁共振成像研究中成像。我们已经开发出一种方法来研究人类在被动学习模式下的缰活动，我们现在能够研究与烟草使用和戒断有关的缰活动。此外，我将在所有研究对象中进行一系列单核苷酸多态性的基因分型，以关联遗传背景和烟草依赖性缰活性。这些实验将为这些遗传变异带来的烟草成瘾风险增加提供一种机制。总之，我将研究尼古丁戒断过程中的大脑活动在遗传定义的人口，特别强调奖励系统，包括缰核和多巴胺能区。我希望这些数据将开辟新的途径，以帮助设计遗传背景特异性药物来治疗烟草成瘾。公共卫生相关性：烟草滥用是一种很难打破的行为模式，主要是因为戒断症状。为了帮助设计更好的反烟草滥用疗法，我们将研究大脑的哪些部分和哪些基因与烟草滥用行为和戒断症状有关。