Circadian Clock of the Paraventricular Nucleus

室旁核的昼夜节律时钟

• 批准号: 8049023
• 负责人: CHARLES J WEITZ
• 金额: $ 36.34万
• 依托单位: HARVARD MEDICAL SCHOOL
• 依托单位国家: 美国
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-05-15 至 2013-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8049023
• 关键词: Ablation; Alleles; Behavior; Behavioral; Blood Glucose; Brain; Brain Diseases; Circadian Rhythms; Development; Diabetes Mellitus; Elements; Endocrine; Endocrine Glands; Energy Metabolism; Fasting; Feeding behaviors; Figs - dietary; Genes; Genetic Recombination; Goals; Hand; Health; Health Hazards; Hormonal; Investigation; Lead; Letters; Mammals; Metabolic; Motor Activity; Mus; Neuraxis; Obesity; Organ; Output; Pathway interactions; Peripheral; Physiological; Physiological Processes; Physiology; Play; Process; Regulation; Research Design; Research Methodology; Retina; Role; Running; Signal Transduction; Site; Synapses; Testing; Tissues; Viscera; Visceral; Work; blood glucose regulation; body system; circadian behavioral rhythms; circadian pacemaker; energy balance; feeding; global health; in vivo; insight; loss of function; paraventricular nucleus; suprachiasmatic nucleus

DESCRIPTION (provided by applicant): We now know that mammals have multiple circadian clocks. In addition to the clock in the suprachiasmatic nucleus (SCN), known to regulate daily behavioral activity, mammals have clocks at a number of discrete sites in the central nervous system and in peripheral tissues. In contrast to the SCN clock, little is yet known regarding the importance of circadian clocks outside the SCN. This issue is of importance for our understanding of mammalian physiology. The hypothalamic paraventricular nucleus (PVN) has recently been identified as the site of a circadian clock. The PVN is known to play a vital role in central, endocrine, and autonomic physiological processes, particularly those regulating feeding behavior, energy balance, and glucose homeostasis. As a target of synaptic projections from the SCN, the PVN has been viewed as a passive element within a multi-synaptic pathway by which the SCN confers circadian regulation on endocrine and autonomic signals to viscera. This traditional view is challenged by the demonstration of circadian clocks in the PVN itself and in endocrine glands and visceral organs. The presence of a circadian clock within the PVN raises the possibility that the known functions of the PVN in regulating feeding behavior, energy balance, and glucose homeostasis depend on its intrinsic clock. The general objective of this proposal is to test the hypothesis that the intrinsic circadian clock of the PVN plays a role in the regulation of energy metabolism and/or feeding behavior. Using mouse lines that we have in hand, our experimental strategy will be to generate 1) mice lacking circadian clock function in the PVN but retaining it elsewhere and 2) mice retaining circadian clock function only in the PVN. The specific aims are: 1) to determine if circadian clock function in the PVN is important for regulation of energy balance, glucose homeostasis, and/or feeding behavior; and 2) to determine if the circadian clock in the PVN is sufficient to drive detectable circadian rhythms of feeding behavior or locomotor energy expenditure. PUBLIC HEALTH RELEVANCE Diabetes and obesity are global health hazards, and in recent years there has been a growing realization that these two related conditions are in large part disorders of brain function. The goal of the investigations proposed is to provide new insights into brain and hormonal mechanisms controlling feeding behavior, bodyweight, and blood glucose. Ultimately, the work proposed here could lead to the development of new treatments for diabetes and obesity.

描述（由申请人提供）：我们现在知道哺乳动物有多个生物钟。除了已知调节日常行为活动的视交叉上核（SCN）中的时钟外，哺乳动物在中枢神经系统和外周组织中的许多离散部位都有时钟。与SCN时钟相反，很少有人知道SCN之外的生物钟的重要性。这一问题对于我们理解哺乳动物的生理学具有重要意义。下丘脑室旁核（PVN）最近已被确定为昼夜节律钟的网站。已知PVN在中枢、内分泌和自主生理过程中起重要作用，特别是调节进食行为、能量平衡和葡萄糖稳态的那些过程。作为SCN突触投射的靶点，PVN被视为多突触通路中的被动元件，SCN通过该通路对内脏的内分泌和自主信号进行昼夜调节。这一传统观点受到了PVN本身以及内分泌腺和内脏器官中生物钟的挑战。PVN内昼夜节律钟的存在提高了PVN在调节进食行为、能量平衡和葡萄糖稳态方面的已知功能取决于其内在时钟的可能性。该提议的总体目标是检验PVN的固有昼夜节律钟在能量代谢和/或摄食行为的调节中起作用的假设。使用我们现有的小鼠品系，我们的实验策略将是产生1）PVN中缺乏生物钟功能但在其他地方保留生物钟功能的小鼠和2）仅在PVN中保留生物钟功能的小鼠。具体目标是：1）确定PVN中的昼夜节律钟功能对于能量平衡、葡萄糖稳态和/或进食行为的调节是否重要;以及2）确定PVN中的昼夜节律钟是否足以驱动进食行为或运动能量消耗的可检测的昼夜节律。 糖尿病和肥胖症是全球性的健康危害，近年来人们越来越认识到这两种相关的疾病在很大程度上是脑功能障碍。提出的调查的目标是提供新的见解大脑和激素机制控制进食行为，体重和血糖。最终，这里提出的工作可能会导致糖尿病和肥胖症的新治疗方法的开发。