Cell Type Specific Tracing of Neocortical Circuits Using Viral Vectors

使用病毒载体对新皮质回路进行细胞类型特异性追踪

• 批准号: 8469103
• 负责人: David C Lyon
• 金额: $ 19.23万
• 依托单位: UNIVERSITY OF CALIFORNIA-IRVINE
• 依托单位国家: 美国
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-05-01 至 2014-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8469103
• 关键词: Brain; Cells; Characteristics; Code; Complement; Computer software; Dependovirus; Development; Effectiveness; Equilibrium; Felis catus; Gene Targeting; Genes; Glycoproteins; Goals; Histology; Immunohistochemistry; Individual; Infection; Injection of therapeutic agent; Label; Lateral; Location; Maps; Mediating; Methods; Microscopy; Neocortex; Neurons; Neurotropism; Pattern; Population; Process; Proteins; Rabies; Rabies virus; Radial; Rattus; Reporter Genes; Role; Signal Transduction; Specificity; Stimulus; Subfamily lentivirinae; Techniques; Testing; Time; Tracer; Viral Vector; Virus; Virus Diseases; Visual Cortex; Visual system structure; Work; area striata; cell type; excitatory neuron; gamma-Aminobutyric Acid; inhibitory neuron; innovation; insight; neocortical; neural circuit; novel; optical imaging; orientation selectivity; preference; promoter; rabies virus glycoprotein G; receptor; recombinant viral vector; recombinant virus; selective expression; tool; vector

DESCRIPTION (provided by applicant): The neocortex is comprised of a dense population of excitatory neurons that are balanced by a diverse and more sparsely distributed array of inhibitory neurons. As such, cortical inhibitory neurons provide a gain control that works under a myriad of conditions. In primary visual cortex (V1), for example, inhibition is essential for severl basic functional characteristics of individual neurons, including preferences for stimulus contrast, size, and orientation. While inhibitory neurons serve to control excitation it is not knon whether inhibitory and excitatory cell-types are mediated through the same set of cortical circuits, nor whether the functional selectivity of these circuits differ. Determining the origins f the neural circuits to these two major cell-types will provide tremendous insight into the basic mechanisms of cortical processing. However, in order to do so it is necessary to develop a technique for cell-type specific neuroanatomical tracing. The proposal here is to develop such a technique by taking advantage of the neurotropism of recombinant viral vectors (adeno associated virus and lentivirus) and selectivity of cell-type specific promoters (GAD-67 and ¿-CamKII) to deliver and allow for expression of two key genes (TVA and RabG). These genes will thereby be selectively expressed in either inhibitory or excitatory neocortical cells, but not both. The TVA and RabG proteins expressed in these specific cell types will allow for targeted viral infection and trans-complementation of a novel genetically modified and pseudo-typed rabies virus (EnvA-¿RabG) that acts as a monosynaptic retrograde tracer (Wickersham, Lyon et al., 2007, Neuron). This highly innovative combination of cell-type specific expression of these genes and the targeted selectivity of the EnvA-¿RabG rabies virus will enable independent tracing of the connections of local clusters of inhibitory or excitatory cells. Moreover, once developed it will be used to trace the long-range connectivity of inhibitory and excitatory neurons in cat V1 with respect to the orientation map; maps that will be derived through intrinsic signal optical imaging. In this way, the functional preference of inputs to inhibitory neurons in neocortex can be determined for the first time and compared to the preference of inputs to excitatory cell populations. Finally, while the goal of this proposal is to ultimately implement th new technique to understand intrinsic circuits in cat V1, this technique will be available to other for use in any mammalian species and any region of neocortex.

描述（由申请人提供）：新皮层由密集的兴奋性神经元群组成，这些神经元群由不同且分布更稀疏的抑制性神经元阵列平衡。因此，皮层抑制神经元提供了在无数条件下工作的增益控制。例如，在初级视皮层（V1）中，抑制对于个体神经元的一些基本功能特征是必不可少的，包括对刺激对比度、大小和方向的偏好。虽然抑制性神经元用于控制兴奋，但不知道抑制性和兴奋性细胞类型是否通过同一组皮层回路介导，也不知道这些回路的功能选择性是否不同。确定这两种主要细胞类型的神经回路的起源将为了解皮层处理的基本机制提供巨大的帮助。然而，为了做到这一点，有必要开发一种技术，细胞类型特异性神经解剖跟踪。这里的建议是通过利用重组病毒载体（腺相关病毒和慢病毒）的嗜神经性和细胞类型特异性启动子（GAD-67和<$-CamKII）的选择性来递送并允许两个关键基因（TVA和RabG）的表达来开发这样的技术。因此，这些基因将选择性地在抑制性或兴奋性新皮层细胞中表达，而不是在神经细胞中表达。 两者在这些特定细胞类型中表达的TVA和RabG蛋白将允许靶向病毒感染和新型遗传修饰和假型狂犬病病毒（EnvA-RabG）的反式互补，其充当单突触逆行示踪剂（Wickersham，里昂et al.，2007，Neuron）。这些基因的细胞类型特异性表达和EnvA-<$RabG狂犬病病毒的靶向选择性的高度创新组合将能够独立追踪抑制性或兴奋性细胞的局部簇的连接。此外，一旦开发出来，它将被用于追踪抑制性和兴奋性神经元的长程连接 在Cat V1中，关于方向图;将通过内在信号光学成像导出的图。通过这种方式，可以第一次确定新皮层中抑制性神经元的输入的功能偏好，并与兴奋性细胞群体的输入偏好进行比较。最后，虽然这项提议的目标是最终实施新技术来了解猫V1的内在电路，但这项技术将可用于任何哺乳动物物种和新皮层的任何区域。

项目成果

Tracing inputs to inhibitory or excitatory neurons of mouse and cat visual cortex with a targeted rabies virus.

• DOI: 10.1016/j.cub.2013.07.033
• 发表时间: 2013-09-23
• 期刊: CURRENT BIOLOGY
• 影响因子: 9.2
• 作者: Liu, Yong-Jun;Ehrengruber, Markus U.;Negwer, Moritz;Shao, Han-Juan;Cetin, Ali H.;Lyon, David C.
• 通讯作者: Lyon, David C.

Cell type specific tracing of the subcortical input to primary visual cortex from the basal forebrain.

从基底前脑到初级视觉皮层的皮层下输入的细胞类型特异性追踪。

• DOI: 10.1002/cne.24412
• 发表时间: 2019
• 期刊: The Journal of comparative neurology
• 作者: Lean,GeorginaA;Liu,Yong-Jun;Lyon,DavidC
• 通讯作者: Lyon,DavidC