Identification and characterization of two novel cannabinoid receptors

两种新型大麻素受体的鉴定和表征

• 批准号: 7359779
• 负责人: ALEXANDER J STRAIKER
• 金额: $ 15.14万
• 依托单位: TRUSTEES OF INDIANA UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-09-25 至 2009-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7359779
• 关键词: Affect; CNR1 gene; Candidate Disease Gene; Cannabinoids; Cells; Cloning; Development; Endocannabinoids; Exhibits; Genes; Health; Hippocampus (Brain); Marijuana; Mediating; Methods; Neurons; Positioning Attribute; Process; RNA; Technology; cannabinoid receptor; drug of abuse; excitatory neuron; novel; receptor; research study; response

DESCRIPTION (provided by applicant): By 1993, both known cannabinoid receptors had been identified. Since then, a key question has hovered over the cannabinoid field: is that all there is or do additional cannabinoid receptors remain to be discovered? Indirect evidence supports as many as three additional 'cannabinoid' receptors in the hippocampus, but no receptors have been molecularly identified. If it were possible to clearly identify and isolate a neuron mediating a non-CB1 cannabinoid response, then it should be possible using existing technologies to identify and clone the receptor. The cloning of a novel cannabinoid receptor would be a major development in the cannabinoid field. In the process of studying endocannabinoid plasticity in cultured autaptic hippocampal neurons (DSE) I have identified five subpopulations of excitatory neurons, two of which exhibit distinct responses to cannabinoids, even in the absence of CB1 receptors. Because autaptic neurons are solitary it is possible to extract the entire cell mass nearly intact. Thus I am in a position to pharmacologically identify and isolate examples of two neuronal subpopulations each expressing a distinct non-CB1 cannabinoid receptor. The specific aims of the proposal are to: 1. Characterize the cannabinoid-like response in both neuronal subpopulations using electrophysiological methods. This constitutes the bulk of proposed experiments and is largely independent of (but would be greatly enhanced by) Specific Aim #2. 2. Identify the two novel cannabinoid receptors. This will be done by extracting and amplifying RNA from each subpopulation, and then cloning the receptor using gene array and candidate gene approaches. Discovery of two new cannabinoid receptors would have considerable health implications. Marijuana is a major drug of abuse, acting via cannabinoid receptors. Knowing the identity and function of all cannabinoid receptors is key to understanding how marijuana affects the body.

描述（由申请人提供）：到1993年，两种已知的大麻素受体都已被鉴定。从那时起，一个关键问题一直徘徊在大麻素领域：是所有的大麻素受体还是其他大麻素受体仍有待发现？间接证据支持海马体中多达三种额外的“大麻素”受体，但没有受体被分子鉴定。如果有可能清楚地识别和分离介导非CB1大麻素反应的神经元，那么应该可以使用现有技术来识别和克隆受体。新型大麻素受体的克隆将是大麻素领域的一个重大发展。在研究内源性大麻素可塑性培养autaptic海马神经元（DSE）的过程中，我已经确定了兴奋性神经元的五个亚群，其中两个表现出不同的反应大麻素，即使在没有CB1受体。因为自适应神经元是孤立的，所以有可能几乎完整地提取整个细胞团。因此，我能够识别和分离两个神经元亚群的例子，每个亚群表达一个不同的非CB1大麻素受体。该提案的具体目标是：1.使用电生理学方法表征两种神经元亚群中的大麻素样反应。这构成了大部分拟议的实验，并且在很大程度上独立于具体目标#2（但将大大增强）。2.识别两种新的大麻素受体。这将通过从每个亚群中提取和扩增RNA，然后使用基因阵列和候选基因方法克隆受体来完成。发现两种新的大麻素受体将对健康产生重大影响。大麻是一种主要的滥用药物，通过大麻素受体起作用。了解所有大麻素受体的身份和功能是了解大麻如何影响身体的关键。