Enduring Effects of Early-Life Serotonin Signaling

生命早期血清素信号传导的持久影响

• 批准号: 8882086
• 负责人: Randy D. Blakely
• 金额: $ 210.19万
• 依托单位: VANDERBILT UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-08-22 至 2016-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8882086
• 关键词: Adopted; Adult; Affinity; Aggressive behavior; Anxiety; Autistic Disorder; Award; Behavior; Behavior Control; Behavior Disorders; Behavioral; Biochemical; Bipolar Disorder; Birth; Brain; Brain Diseases; Cells; Cocaine; Collaborations; Communities; Community Health Education; Complex; Dependence; Depression and Suicide; Desire for food; Development; Disease; Dorsal; Education and Outreach; Embryo; Embryonic Development; Epigenetic Process; Foundations; Funding; Gene Expression; Generations; Genes; Genetic Variation; Glutamates; Grant; Hormonal; Hyperactive behavior; Inbred Mouse; Institutes; Investigation; Journals; Knock-in Mouse; Lead; Life; Life Stress; Link; Mental Depression; Mental disorders; Metabolism; Mission; Modeling; Molecular; Moods; Mus; Mutation; National Institute of Mental Health; Nature; Neurons; Neurosciences; Neurosciences Research; Neurotransmitters; Obsessive-Compulsive Disorder; Outreach Research; Paper; Pattern; Peripheral; Phenotype; Photoperiod; Physiological; Physiology; Placenta; Play; Pregnancy; Productivity; Prosencephalon; RNA Editing; Receptor Signaling; Reporting; Research Personnel; Risk; Schizophrenia; Scientist; Selective Serotonin Reuptake Inhibitor; Senior Scientist; Serotonin; Serotonin Receptor 5-HT2C; Signal Pathway; Signal Transduction; Signaling Molecule; Site; Sleep; Source; Specific qualifier value; Specificity; Stress; System; Testing; Time; Tissues; Training; Transgenic Mice; Ursidae Family; Variant; Vision; Work; autocrine; axon guidance; circadian behavioral rhythms; disorder risk; experience; flexibility; gain of function; genetic manipulation; graduate student; human disease; imprint; in vivo Model; interest; mouse development; mouse model; neuron development; neuropsychiatry; novel; outreach; outreach program; postnatal; programs; receptor; receptor expression; response; tool; trait; undergraduate student

Our proposal, "Enduring Effects of Early-Life Serotonin Signaling", explores the hypothesis that tight control of developmental determinants of serotonin (5-HT) signaling is required to achieve normal patterns of behavioral flexibility and to minimize risk for life-long neuropsychiatric disorders. To test our hypothesis, and to identify opportunities for reversal of disrupted early-life 5-HT signaling, we assemble a highly collaborative team of leading neuroscientists with experience in the development and molecular plasticity of 5-HT signaling. In Project 1, Evan Deneris tackles the support that CNS-synthesized 5-HT signaling plays in the elaboration of raphe neuron gene expression that can support stress-modulated, epigenetic programming. In Project 2, Pat Levitt builds upon his group's discovery of the placenta as a major source of forebrain 5-HT during embryonic development, Levitt's efforts assess how placental-specific disruption of 5-HT synthesis and metabolism leads to enduring effects on brain development and function and whether alterations are reversible. In Project 3, Randy Blakely elucidates the molecular and functional consequences, and potential for reversal, of an autism-associated 5-HT transporter (SERT) mutation (SERT Ala56), and how both either/or CNS and peripheral sites of expression contribute to life-long behavioral deficits, while developing novel conditional SERT mutation expression models. In Project 4, Ron Emeson brings his group's advanced understanding in 5HT2c receptor expression and signaling to bear on the timing and regional specificity of stress-dependent 5HT2c editing, elucidating their mechanisms, biochemical and behavioral consequences and possibilities for reversal. Finally, Mark Wallace leads novel education and outreach programs, extending ARRA-funded efforts to enhance community understanding of neuroscience research and mental illness and that train young scientists in the research and outreach missions of the Conte Center.

我们的建议，“早期生活5-羟色胺信号的持久影响”，探讨了这一假设，即严格控制5-羟色胺（5-HT）信号的发育决定因素是实现正常的行为灵活性模式和减少终身神经精神疾病的风险所必需的。为了验证我们的假设，并确定中断的早期生命5-HT信号逆转的机会，我们组建了一个高度合作的团队，由在5-HT信号的开发和分子可塑性方面具有丰富经验的领先神经科学家组成。在项目1中，Evan Deneris解决了CNS合成的5-HT信号在中缝神经元基因表达的阐述中所起的支持作用，这些基因表达可以支持压力调节的表观遗传编程。在项目2中，Pat Levitt建立在他的小组发现胎盘作为胚胎发育期间前脑5-HT的主要来源的基础上，Levitt的努力评估了胎盘特异性5-HT合成和代谢的破坏如何导致对大脑发育和功能的持久影响以及改变是否可逆。在项目3中，Randy Blakely阐明了自闭症相关的5-HT转运蛋白（SERT）突变（SERT Ala 56）的分子和功能后果以及逆转的潜力，以及CNS和外周表达位点如何导致终身行为缺陷，同时开发了新的条件性SERT突变表达模型。在项目4中，罗恩埃米森带来了他的团队在5 HT 2c受体表达和信号传导方面的先进理解，以承担压力依赖性5 HT 2c编辑的时间和区域特异性，阐明其机制，生化和行为后果以及逆转的可能性。最后，马克·华莱士领导新的教育和推广计划，扩大ARRA资助的努力，以提高社区对神经科学研究和精神疾病的理解，并在康特中心的研究和推广任务中培训年轻科学家。