Ca and Rho GTPase Control of the Neuronal Cytoskeleton

Ca 和 Rho GTP 酶对神经元细胞骨架的控制

• 批准号: 7146329
• 负责人: PAUL FORSCHER
• 金额: $ 35.3万
• 依托单位: YALE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-06-01 至 2010-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7146329
• 关键词: Aplysia; actins; axon; cytoskeleton; emotions; ephrins; growth cones; intracellular; ligands; myosins; play; role

DESCRIPTION (provided by applicant): Rho GTPases are molecular switches that play well characterized roles in cell adhesion, polarity, and control of cytoskeletal protein dynamics in non-neuronal cells. Although functionally implicated in axon guidance and nerve regeneration, neuronal Rho GTPase cell biology is far less well understood. To address this gap, we recently used multi-mode Fluorescent Speckle Microscopy (FSM), which allows direct measurement of cytoskeletal protein dynamics, to investigate Rho dependent responses evoked by the chemorepellant agent, lysophosphatidic acid (LPA). We discovered that LPA treatment increased the contractility of "actin arc" and actin bundle structures within the growth cone and provided evidence that this contractility was driving Rho/Rho Kinase dependent growth cone retractions. Actin arc contractility appears to involve Myosin II since it depends on Myosin Light Chain Kinase and Myosin Light Chain phosphatase activities. Other work suggests Rho GTPase and Ca activity can modulate the polarity of axon guidance responses to a single ligand. Although these findings have caught the attention of axon guidance and nerve regeneration fields, the cell biological mechanisms underlying response switching are poorly understood. We have preliminary evidence that increasing background Rac activity converts LPA retraction responses to neurite growth and advance. Interestingly, such LPA evoked growth is accompanied by increases in intracellular Ca and loss of actin arc contractility -i.e. the opposite of what is observed without Rac activation. We propose to combine use of Fluorescent Speckle Microscopy and Ca Imaging to quantitatively assess actin, microtubule, and Calcium dynamics in growth cones to investigate the cytoskeletal and signaling mechanisms underlying apparent switching of LPA response polarity by Rac activity. We will also characterize the role of Myosin II in these responses and do correlative ultrastructural studies to better define the cell biology of this important molecular motor in the growth cone. Our working hypothesis is that Rac and Rho GTPases can modulate the functional output of ligand activated responses via specific effects on MT dynamics which in turn affect localization of ER Ca stores and regulate the Ca release topography and/or release sensitivity. This hypothesis will be tested in the context of LPA as well as Ephrin and Slit ligands, the latter two being known to exert their chemorepellant responses via activation of Rho in the CNS.

描述（由申请人提供）：Rho GTP酶是在非神经元细胞中的细胞粘附、极性和细胞骨架蛋白动力学控制中发挥充分表征作用的分子开关。虽然在功能上涉及轴突导向和神经再生，但神经元Rho GTdR细胞生物学远未被很好地理解。为了解决这一差距，我们最近使用多模式荧光散斑显微镜（FSM），它允许直接测量细胞骨架蛋白质动力学，研究Rho依赖性反应诱发的化学排斥剂，溶血磷脂酸（LPA）。我们发现LPA处理增加了生长锥内的“肌动蛋白弧”和肌动蛋白束结构的收缩性，并提供了这种收缩性驱动Rho/Rho激酶依赖性生长锥收缩的证据。肌动蛋白弧收缩性似乎涉及肌球蛋白II，因为它依赖于肌球蛋白轻链激酶和肌球蛋白轻链磷酸酶活性。其他工作表明Rho GT3和Ca活性可以调节轴突对单个配体的导向反应的极性。虽然这些发现引起了轴突引导和神经再生领域的注意，但对反应转换的细胞生物学机制知之甚少。我们有初步的证据表明，增加背景Rac活动转换LPA回缩反应神经突起的生长和进步。有趣的是，这种LPA诱发的生长伴随着细胞内Ca的增加和肌动蛋白弧收缩性的丧失-即与在没有Rac激活的情况下观察到的相反。我们建议联合收割机使用荧光散斑显微镜和钙成像定量评估肌动蛋白，微管，和钙动力学在生长锥，研究细胞骨架和信号转导机制的基础上明显切换LPA响应极性的Rac活动。我们还将描述肌球蛋白II在这些反应中的作用，并进行相关的超微结构研究，以更好地定义生长锥中这一重要分子马达的细胞生物学。我们的工作假设是Rac和Rho GTP酶可以通过对MT动力学的特异性影响来调节配体激活反应的功能输出，MT动力学反过来影响ER Ca库的定位并调节Ca释放地形和/或释放敏感性。该假设将在LPA以及肝配蛋白和Slit配体的背景下进行测试，已知后两者通过在CNS中激活Rho来发挥其化学排斥反应。