DEVELOPING VISUAL CORTEX--AFFERENT TARGET RELATIONSHIPS

发展视觉皮层——传入目标关系

• 批准号: 6179015
• 负责人: ALEV ERISIR
• 金额: $ 3.7万
• 依托单位: NEW YORK UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-05-01 至 2000-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6179015
• 关键词: AMPA receptors; NMDA receptors; afferent nerve; axon; cell cell interaction; cholinergic receptors; developmental neurobiology; electron microscopy; glutamate receptor; immunocytochemistry; light microscopy; muscarine; neural plasticity; receptor expression; synapses; thalamocortical tract; visual cortex

Developmental visual cortex plasticity, the susceptibility of the brain to be modified by the environmental changes during postnatal development, is deemed representative of many life-sustaining neural functions such as learning, memory, sensory plasticity and aging. Furthermore, this process underlies the formation of normal neural connections, which is assailed by conditions that prevent normal sensory stimulation, including strabismus and childhood cataract. A research plan is proposed to study the ultastructural basis of developmental plasticity, combining tract-tracing, immunocytochemistry and electron microscopy techniques for qualitative and quantitative ultrastructural analysis. The long term objective of this research is to understand the roles of the glutamate and the cholinergic receptors in activity dependent synaptic modifications that underlie the critical period of visual plasticity. A newly developed technique will be used to dually identify developing thalamocortical(TC) axons and the chemically specified target sites to determine afferent-target relationships between thalamic terminals and the neurotransmitter receptors. Specifically, 1) the morphological properties of sites contacted by thalamocortical axons, and the GABA content of the targets, 2) the connection pattern of TC axons on NMDA, metabotropic and AMPA type glutamate receptors, and 3) the relationships between TC axons and the muscarinic receptors, will be examined in visual cortex layer IV and the subplate, before, during and after the critical period of visual plasticity. The specific goals of the proposed research address the identification of transient cellular mechanisms that lead to refinement and segregation of thalamic axons into ocular dominance columns, and to termination of early cortical plasticity by synaptic consolidation. The knowledge on how the neural proteins that are implicated in plasticity are structurally utilized by neural circuitry may provide insights in understanding the mechanisms of normal brain function as well as the conditions result from the sensory deprivation.

发育性视皮层可塑性是指大脑在出生后发育过程中对环境变化的敏感性，被认为代表了许多维持生命的神经功能，如学习、记忆、感觉可塑性和衰老。 此外，这一过程是正常神经连接形成的基础，而正常神经连接会受到阻碍正常感觉刺激的条件的攻击，包括斜视和儿童白内障。 本文提出了一项研究计划，即结合束示踪、免疫细胞化学和电镜技术进行定性和定量的超微结构分析，以研究发育可塑性的超微结构基础。 本研究的长期目标是了解谷氨酸和胆碱能受体在视觉可塑性关键期的活动依赖性突触修饰中的作用。 一种新开发的技术将被用来双重识别开发丘脑皮质（TC）轴突和化学指定的目标网站，以确定丘脑终端和神经递质受体之间的传入目标关系。具体而言，在视觉可塑性的关键期之前、期间和之后，将在视觉皮层第IV层和亚板中检查1）丘脑皮质轴突接触的部位的形态学性质和靶点的GABA含量，2）TC轴突对NMDA、代谢型和AMPA型谷氨酸受体的连接模式，以及3）TC轴突与毒蕈碱受体之间的关系。 拟议的研究的具体目标是确定导致丘脑轴突细化和分离成眼优势柱的瞬时细胞机制，以及通过突触整合终止早期皮质可塑性。 有关神经回路如何在结构上利用与可塑性有关的神经蛋白的知识，可以为理解正常脑功能的机制以及感觉剥夺导致的条件提供见解。