MOLECULAR NEUROBIOLOGY OF DEPRESSION

抑郁症的分子神经生物学

• 批准号: 6185399
• 负责人: Richard Charles Shelton
• 金额: $ 10.63万
• 依托单位: VANDERBILT UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-08-01 至 2004-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6185399
• 关键词: antipsychotic agents; beta adrenergic receptor; biopsy; bupropion; cAMP response element binding protein; clinical research; combination chemotherapy; drug resistance; electromyography; enzyme activity; fibroblasts; fluoxetine; gene expression; human subject; luciferin monooxygenase; major depression; mental disorder chemotherapy; neuropharmacology; neurophysiology; plasmids; polymerase chain reaction; protein kinase A; receptor sensitivity; startle reaction; tissue /cell culture

This is a request for five years of salary support via the Midcareer Investigator Award in Patient-Oriented Research (K24). Throughout my career I have sought to bridge basic neurobiological and clinical domains, with special emphasis on mood disorders. By the early 1990's, I began to redirect my energies toward the development of a series of studies using newer molecular biological methods to investigate the causes and possible treatments for depression. Using a fibroblast cell culture model, my collaborators and I have discovered that melancholic major depressives have a reduction of cyclic AMP binding to the regulatory subunit of protein kinase A (PKA) linked to beta adrenoceptors. This results in a concomitant reduction in phosphorylation activity (including that of CREB) and altered gene expression. We also have shown an altered expression of a specific nuclear phosphatase gene using the differential display reverse transcription polymerase chain reaction methodology with cPCR. Herein, I have outlined these findings along with plans for related projects over the next five years. I also have described briefly two other project areas that stand in the mid-ground between basic and clinical investigations. One is an investigation of mood regulation using new clinical ratings instruments (developed, in part by our research group) to measure components of mood under conditions of pharmacological manipulation. The second represents a novel therapeutic intervention in refractory major depression. Drawing from a set of basic laboratory observations, I have conducted a successful trial of the combination of olanzapine and fluoxetine in refractory depressives. Together, these study areas demonstrate my capacity to bridge from basic laboratory findings, on the one hand, to clinical phenomenology and treatment, on the other. Finally, consistent with the goals of the K24, I have a long track-record of mentorship of new investigators from a number of disciplines. However, an increasing burden of administrative and clinical responsibilities threatens my research productivity and mentorship. This award will relieve me of many of these demands and will allow me to: 1.Develop further expertise in basic molecular biological methods; 2. Develop new projects oriented to future funding opportunities; and 3. Continue to mentor the next generation of investigators.

这是通过以患者为导向的研究（K24）的中期职业研究者奖获得五年工资支持的请求。在我的整个职业生涯中，我一直致力于弥合基本的神经生物学和临床领域，特别强调情绪障碍。 到20世纪90年代初，我开始将精力转向一系列研究的发展，使用更新的分子生物学方法来调查抑郁症的原因和可能的治疗方法。 使用成纤维细胞培养模型，我和我的合作者发现，抑郁症患者与β肾上腺素受体相关的蛋白激酶A（PKA）调节亚基结合的环AMP减少。 这导致磷酸化活性（包括CREB的磷酸化活性）的伴随降低和基因表达的改变。 我们还显示了一个特定的核磷酸酶基因的表达改变，使用差异显示逆转录聚合酶链反应方法与cPCR。 在此，我沿着概述了这些发现以及未来五年的相关项目计划。 我还简要描述了另外两个项目领域，它们位于基础研究和临床研究之间。 一个是使用新的临床评级工具（部分由我们的研究小组开发）来测量药理学操作条件下的情绪成分的情绪调节调查。 第二个代表了一种新的治疗干预难治性抑郁症。 根据一组基本的实验室观察，我成功地进行了一项奥氮平和氟西汀联合治疗难治性抑郁症的试验。 总之，这些研究领域表明我有能力从基础实验室发现，一方面，临床现象学和治疗，另一方面。 最后，与K24的目标相一致，我有来自多个学科的新调查员的长期指导记录。 然而，越来越多的行政和临床责任的负担威胁到我的研究生产力和指导。 这个奖项将减轻我的许多这些要求，并将允许我：1。发展进一步的专业知识，在基本的分子生物学方法;开发面向未来融资机会的新项目; 3.继续指导下一代研究人员。