Activity-dependent regulation of neuromuscular junction formation
神经肌肉接头形成的活动依赖性调节
基本信息
- 批准号:7826577
- 负责人:
- 金额:$ 32.73万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2009
- 资助国家:美国
- 起止时间:2009-05-15 至 2013-04-30
- 项目状态:已结题
- 来源:
- 关键词:AdultApplications GrantsBinding SitesBiologicalBiological AssayCholine O-AcetyltransferaseCommunicationComplexDNA BindingDataDevelopmentDiseaseElementsEventExhibitsFamily memberGene ExpressionGene Expression RegulationGenesGeneticGenetic TranscriptionGenomeGoalsGrantHDAC4 geneHistone DeacetylaseIndiumIndividualInjuryKnockout MiceMediatingMolecularMuscleMuscle denervation procedureMuscle functionMuscle-Specific KinaseMuscular AtrophyMutant Strains MiceMyogeninNatureNerveNeuromuscular JunctionNicotinic ReceptorsPhosphoric Monoester HydrolasesPlayProtein BindingProteinsRegulationReportingRepressionResearchRoleSignal TransductionSkeletal MuscleSmall Interfering RNAStagingStudy modelsSynapsesSynaptic TransmissionSynaptic plasticityTestingTranscription CoactivatorVariantagedfollow-upgene inductiongene repressionimprovedin vivoinjuredinterestknockout animalmuscular structurenerve supplyneuromuscularneurotransmissionnovel strategiespostsynapticpresynapticpromoterpublic health relevanceresponsesynaptogenesistranscription factor
项目摘要
DESCRIPTION (provided by applicant): Synaptogenesis is regulated by both activity-dependent and independent mechanisms. Activity-dependent regulation of synaptogenesis is mediated, in part, by changes in gene expression. Therefore an important goal of neuroscientists is to understand the mechanisms by which synaptic activity is transduced to the genome to influence synapse formation. The neuromuscular junction (NMJ) is a well studied model for identifying and characterizing the mechanisms by which synaptic activity influences synapse formation and regulates gene expression. Although activity-dependent control of NMJ formation has been studied for decades, the underlying molecular mechanisms are poorly understood. We recently identified a Dach2-dependent signal transduction cascade that contributes to activity-dependent expression of nAChR and MuSK genes. Therefore, this signaling cascade along with the previously reported HDAC9 (MITR) signaling cascade, that also participates in activity-dependent nAChR gene expression, represent good candidates for mediating the effects of synaptic transmission on NMJ formation. In this grant application we propose to use a combination of genetic approaches and cell and molecular biological approaches to investigate the role Dach and MITR signaling play in regulating NMJ formation and controlling gene expression by nerve-induced muscle depolarization. Knockout animals will be used to study NMJ development, while innervated and denervated skeletal muscle will be used to study nerve-induced, activity-dependent gene regulation. Specifically, we propose to: 1) Evaluate the role Dach2 and MITR play during development of the NMJ; 2) Examine if HDAC4 coordinates Dach2 and MITR gene repression in response to muscle innervation; and 3) Determine if the Dach interacting proteins Six and Eya participate in activity-dependent regulation of gene expression. This research will identify mechanisms by which muscle activity regulates synapse formation during development and modifies synapse and muscle function in the adult. Although this research is of a basic nature, it may suggest ways of enhancing synapse formation, synaptic plasticity and muscle function in the injured, diseased or aged individual. PUBLIC HEALTH RELEVANCE: The studies in this grant application aim to understand how muscle activity signals to the genome to regulate neuromuscular development, muscle atrophy and muscle gene expression. These studies will not only further our understanding of the mechanisms underlying these events, but may also suggest novel strategies for restoring neuromuscular communication and improving muscle function following injury or disease.
描述(由申请人提供):突触发生受活动依赖和独立机制的调节。突触发生的活性依赖调节部分是通过基因表达的变化来调节的。因此,神经科学家的一个重要目标是了解突触活动被传导到基因组以影响突触形成的机制。神经肌肉接头(NMJ)是识别和描述突触活动影响突触形成和调节基因表达的机制的一个很好的模型。尽管对NMJ形成的活性依赖控制已经研究了几十年,但其潜在的分子机制却知之甚少。我们最近发现了一个依赖于Dach2的信号转导级联,它有助于nAChR和Musk基因的活性依赖表达。因此,这个信号级联与先前报道的HDAC9(MITR)信号级联一起,也参与了活性依赖的nAChR基因的表达,是介导突触传递对NMJ形成影响的良好候选者。在这项拨款申请中,我们建议结合使用遗传学方法和细胞和分子生物学方法来研究DACH和MITR信号在调节NMJ的形成和通过神经诱导的肌肉去极化控制基因表达中所起的作用。基因敲除的动物将被用于研究NMJ的发育,而神经支配和失神经的骨骼肌将被用于研究神经诱导的、依赖活动的基因调控。具体地说,我们建议:1)评估Dach2和MitR在NMJ发育过程中所起的作用;2)检测HDAC4是否协调Dach2和MitR基因的抑制以响应肌肉神经支配;以及3)确定Dach相互作用蛋白Six和Eya是否参与依赖活性的基因表达调控。这项研究将确定肌肉活动在发育过程中调节突触形成的机制,并修改成人的突触和肌肉功能。虽然这项研究是基础性的,但它可能会为受伤、疾病或老年人提供增强突触形成、突触可塑性和肌肉功能的方法。公共卫生相关性:这项拨款申请中的研究旨在了解肌肉活动如何向基因组发出信号,以调节神经肌肉发育、肌肉萎缩和肌肉基因表达。这些研究不仅将加深我们对这些事件背后的机制的理解,还可能为恢复神经肌肉交流和改善损伤或疾病后的肌肉功能提供新的策略。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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DANIEL J GOLDMAN其他文献
DANIEL J GOLDMAN的其他文献
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{{ truncateString('DANIEL J GOLDMAN', 18)}}的其他基金
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穆勒胶质细胞再生潜力的机制
- 批准号:
10650759 - 财政年份:2021
- 资助金额:
$ 32.73万 - 项目类别:
Mechanisms underlying Muller glia’s regenerative potential
穆勒胶质细胞再生潜力的机制
- 批准号:
10458085 - 财政年份:2021
- 资助金额:
$ 32.73万 - 项目类别:
Mechanisms underlying Muller glia’s regenerative potential
穆勒胶质细胞再生潜力的机制
- 批准号:
10273269 - 财政年份:2021
- 资助金额:
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DNA Demethylation and Muller Glia Reprogramming During Retina Regeneration
视网膜再生过程中 DNA 去甲基化和米勒胶质细胞重编程
- 批准号:
8502787 - 财政年份:2013
- 资助金额:
$ 32.73万 - 项目类别:
DNA Demethylation and Muller Glia Reprogramming During Retina Regeneration
视网膜再生过程中 DNA 去甲基化和米勒胶质细胞重编程
- 批准号:
8611922 - 财政年份:2013
- 资助金额:
$ 32.73万 - 项目类别:
Activity-dependent regulation of neuromuscular junction formation
神经肌肉接头形成的活动依赖性调节
- 批准号:
8269081 - 财政年份:2009
- 资助金额:
$ 32.73万 - 项目类别:
Activity-dependent regulation of neuromuscular junction formation
神经肌肉接头形成的活动依赖性调节
- 批准号:
8063180 - 财政年份:2009
- 资助金额:
$ 32.73万 - 项目类别:
Activity-dependent regulation of neuromuscular junction formation
神经肌肉接头形成的活动依赖性调节
- 批准号:
7729761 - 财政年份:2009
- 资助金额:
$ 32.73万 - 项目类别: