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Leptin Production and Action in Adipocytes

脂肪细胞中瘦素的产生和作用

基本信息

批准号：
7255421
负责人：
YIYING ZHANG
金额：
$ 30.03万
依托单位：
COLUMBIA UNIVERSITY HEALTH SCIENCES
依托单位国家：
美国
项目类别：
财政年份：
2003
资助国家：
美国
起止时间：
2003-07-01 至 2009-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7255421
关键词：
1-Phosphatidylinositol 3-Kinase Acute Acyl Coenzyme A Address Adenoviruses Adipocytes Adipose tissue Adrenal Glands Affect Appendix Biology Body Weight decreased Body fat Cardiovascular Diseases Cell Size Cells Central obesity Characteristics Clinical Condition Coupling Data Development Diabetes Mellitus Diet Doctor of Philosophy Dyslipidemias Eating Endocrine Energy Intake Energy Metabolism Environment Equilibrium Esters Expenditure Fasting Fatty acid glycerol esters Feedback Gene Expression Gene Transfer Glucocorticoids Glucose Goals Homeostasis Hormonal Hormones Human Hypertension Hypothalamic structure Implant Insulin Insulin Resistance Knockout Mice Lead Leptin Lipids Lipolysis Literature Long-Term Effects Maintenance Measures Mediating Metabolic Metabolic Diseases Metabolism Mitogen-Activated Protein Kinases Modification Molecular Molecular Genetics Morbidity - disease rate Mus Neuraxis Neurons Neurosecretory Systems Nonesterified Fatty Acids Nude Mice Nutritional Obese Mice Organism Pancreas Peripheral Phosphoinositide-3-Kinase, Catalytic, Gamma Polypeptide Physiological Plasma Play Prevention Production Protein Isoforms Protein Overexpression Proteins Range Rate Regulation Research Personnel Resources Rodent Role Shoes Signal Transduction Skeletal Muscle Syndrome System Testing Tissues Transgenic Mice Transgenic Organisms Week Work aged autocrine base cytokine energy balance fatty acid oxidation feeding implantation in vivo insight insulin receptor substrate 1 protein insulin sensitivity insulin signaling juvenile animal leptin receptor mouse model paracrine prevent programs receptor function research study response restoration size success tool

项目摘要

DESCRIPTION (provided by applicant): Leptin plays a critical role in regulating systemic energy balance. This hormone's role in signaling the status of peripheral fat stores to the central nervous system, and in regulating energy intake and expenditure are well documented. The goal of this proposal is to address two less-well defined, but critically related, aspects of the biology of leptin. Specific Aim I is to investigate the molecular mechanisms responsible for the close correlation between leptin gene expression, adipocyte size and the metabolic status of adipocytes. Specific Aim II is to investigate the long-term effects of direct leptin action on metabolism and gene expression in adipocytes, and the contribution of direct leptin action in adipocytes to systemic energy homeostasis. In Specific Aim I, the hypothesis being tested is that the metabolic status of adipocytes is a primary determinant of leptin gene expression, a unifying mechanism responsible for signaling adipocyte size in fed states (long term energy balance) and acute caloric deficit in fasting states (short-term energy balance). The metabolic status of adipocytes will be manipulated using nutritional, pharmacological and molecular genetic tools, and the effects of such manipulations on relationships of leptin gene expression with the metabolic status and size of adipocytes will be determined. Metabolic intermediates responsible for regulating leptin gene expression to reflect changes in adipocyte size and acute systemic caloric balance will be identified. In Specific Aim II, the hypothesis being tested is that direct leptin actions in adipocytes play a significant role in regulating local adipocyte metabolism and gene expression. Such local action of leptin may affect body fat distribution and depot-specific differences in adipocyte functions. A preadipocyte implantation system will be used to study direct leptin actions on local adipocyte functions in vivo. Adenovirus-mediated gene transfer will be used to modify leptin receptor function or the rate of leptin production in cultured preadipocytes, which will then be implanted in athymic nude mice. The effects of these modifications on adipocyte functions (metabolism and expression of secreted proteins) in the mature adipocytes derived from these implanted preadipocytes will be determined. The effects of direct leptin actions on the adipocyte functions in anatomically distinct fat depots will also be investigated in tissue-specific transgenic mouse models. A better understanding of the regulation of leptin production in adipocytes in response to changes in systemic energy balance will provide a basis for preventing the decrease of leptin production induced by dieting or weight loss, thus blocking a feedback regulatory mechanism that interferes with success in clinical weight loss efforts. The work on the role of direct leptin actions in regulating local adipocyte functions will provide insights into the mechanisms and molecules involved in the regulation of body fat distribution and development of depot-specific differences in adipocyte metabolism, and provide a basis for rationalizing the prevention and treatment of abdominal obesity and its metabolic co-morbidities, such as insulin resistance, dyslipidemia, hypertension, diabetes and cardiovascular diseases.

描述（由申请人提供）：瘦素在调节全身能量平衡中起关键作用。这种激素在向中枢神经系统发出外周脂肪储存状态信号以及调节能量摄入和消耗方面的作用已有充分记载。这个建议的目标是解决两个定义不太明确，但密切相关的，生物学的瘦素方面。具体目的I是研究瘦素基因表达、脂肪细胞大小和脂肪细胞代谢状态之间密切相关的分子机制。具体目标II是研究瘦素直接作用对脂肪细胞代谢和基因表达的长期影响，以及脂肪细胞中瘦素直接作用对全身能量稳态的贡献。在特定目标I中，正在测试的假设是脂肪细胞的代谢状态是瘦素基因表达的主要决定因素，瘦素基因表达是一种统一的机制，负责在进食状态下（长期能量平衡）和禁食状态下（短期能量平衡）的急性热量不足的脂肪细胞大小。将使用营养、药理学和分子遗传学工具操纵脂肪细胞的代谢状态，并且将确定这种操纵对瘦素基因表达与脂肪细胞的代谢状态和大小的关系的影响。代谢中间体负责调节瘦素基因表达，以反映脂肪细胞大小和急性全身热量平衡的变化将被确定。在特定目标II中，正在测试的假设是脂肪细胞中的直接瘦素作用在调节局部脂肪细胞代谢和基因表达中起重要作用。瘦素的这种局部作用可能会影响体脂分布和脂肪细胞功能的特定差异。前脂肪细胞植入系统将用于研究瘦素对体内局部脂肪细胞功能的直接作用。腺病毒介导的基因转移将被用来修改瘦素受体功能或瘦素生产率在培养的前脂肪细胞，然后将植入无胸腺裸鼠。将确定这些修饰对源自这些植入的前脂肪细胞的成熟脂肪细胞中脂肪细胞功能（代谢和分泌蛋白的表达）的影响。在组织特异性转基因小鼠模型中，也将研究瘦素对解剖学上不同脂肪库中脂肪细胞功能的直接作用。更好地了解脂肪细胞中瘦素产生的调节对全身能量平衡变化的反应，将为预防节食或减肥引起的瘦素产生减少提供基础，从而阻断干扰临床减肥成功的反馈调节机制。关于瘦素直接作用于调节局部脂肪细胞功能的工作将提供对参与调节体脂分布和脂肪细胞代谢中储存库特异性差异的发展的机制和分子的见解，并为合理化预防和治疗腹部肥胖及其代谢共病，如胰岛素抵抗、血脂异常、高血压、糖尿病和心血管疾病。