Retinal sheet transplant impact on functional organization of visual cortex in retinal degenerate animal models

视网膜片移植对视网膜退化动物模型视觉皮层功能组织的影响

• 批准号: 10446188
• 负责人: David C Lyon
• 金额: $ 59.51万
• 依托单位: UNIVERSITY OF CALIFORNIA-IRVINE
• 依托单位国家: 美国
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-05-01 至 2026-03-31
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10446188
• 关键词: 3-Dimensional; Address; Age; Age related macular degeneration; Age-Months; Anatomy; Animal Model; Animals; Anterior; Area; Behavior; Blindness; Breeding; Cell Nucleus; Cells; Clinical; Collaborations; Complex; Conscious; Cues; Data; Disease; Dorsal; Electrocorticogram; Eye; Feedback; Frequencies; Generations; Goals; Histologic; Human; Image; Knowledge; Label; Lateral; Lead; Light; Maintenance; Medial; Methods; Microelectrodes; Midbrain structure; Modeling; Natural regeneration; Nerve; Neurons; Operative Surgical Procedures; Organoids; Outcome; Perforation; Persons; Photoreceptors; Play; Process; Rabies virus; Rattus; Recovery; Retina; Retinal Degeneration; Retinal Ganglion Cells; Retinitis Pigmentosa; Rodent; Rodent Model; Short Interspersed Nucleotide Elements; Stream; Structure; Structure of retinal pigment epithelium; Surface; Surgeon; Synapses; Testing; Time; Tissue Donors; Tissues; Transgenic Organisms; Transplantation; Vision; Visual; Visual Cortex; Visual Pathways; Visual system structure; advanced disease; area striata; behavior test; blind; cell type; college; excitatory neuron; experimental study; extrastriate visual cortex; fetal; flexibility; gene therapy; human embryonic stem cell; human tissue; image processing; ineffective therapies; inhibitory neuron; neural circuit; neurophysiology; preference; progenitor; rabies viral tracing; response; retina transplantation; retinal progenitor cell; retinal regeneration; rho; sight restoration; skills; superior colliculus Corpora quadrigemina; visual information; visual processing

Millions of people worldwide suffer vision loss from progressed stages of age-related macular degeneration and retinitis pigmentosa. Through the disease, much of the retinal pigment epithelium (RPE) and many photoreceptors are irreversibly lost and new cutting edge treatments using trophic factors or gene therapy are ineffective because the tissues are no longer present to be rescued. Our goal is to remediate vision loss through transplantation of retinal progenitor tissue sheets into the degenerated retina. In rodent models of retinal degeneration (RD), several studies have demonstrated that retinal progenitor sheets successfully integrate into the host retina, through synaptic connectivity between the transplant retina and host, and evoke responses to flashes of light in the superior colliculus (SC, a midbrain visual nucleus and direct target of retinal ganglion cells). However, in order to determine the complexity and quality of visual information provided by the transplant visual responsivity must be determined at a greater level of detail and in structures such as higher visual cortex where more complex visual processing occurs. Our main hypothesis is that transplants of fetal- and hESC-derived retinal progenitor sheets will drive complex and specialized visual responses in visual cortex (Aims 1 and 2), as well as visually guided behavior, and, that feedforward and feedback cortical circuitry at the level of specific neuronal cell types will be more similar to normal rats than RD rats without transplants (Aim 3). These studies will be performed using two rat models that are effectively blind by 3 months of age - through a collaboration combining visual neurophysiology expertise and cutting edge neural circuit tracing using genetically modified rabies viruses from the PI with the unrivaled surgical skills for retinal sheet transplantation and expert breeding knowledge of transgenic RD rats by the CO-PI. This project directly addresses the NEI Audacious Goals Initiative to regenerate the eye and visual system.

全球数百万的人因年龄相关的黄斑变性而遭受视力丧失 和色素性视网膜炎。通过疾病，许多视网膜色素上皮（RPE）和许多 感光体是不可逆转的，使用营养因素或基因疗法的新尖端治疗是 无效，因为不再存在组织要救出。我们的目标是补救视力损失 通过将视网膜祖细胞组织片移植到退化的视网膜中。在啮齿动物模型中 视网膜变性（RD），几项研究表明，视网膜祖细胞成功 通过移植视网膜和宿主之间的突触连通性整合到宿主视网膜中，并引起唤起 对上丘的光闪光的响应（SC，中脑视觉核和视网膜的直接目标 神经节细胞）。但是，为了确定由 移植视觉响应性必须在更高的细节和较高的结构中确定 发生更复杂的视觉处理的视觉皮层。 我们的主要假设是，胎儿和hESC衍生的视网膜祖先的移植将 在视觉皮层中驱动复杂而专门的视觉反应（AIMS 1和2），以及视觉指导 行为，并且在特定神经元细胞类型水平上的前馈和反馈皮层电路将是 比没有移植的RD大鼠更与正常大鼠相似（AIM 3）。这些研究将使用两个 大鼠模型在3个月大时有效地盲目盲目 - 通过合作结合视觉 神经生理学专业知识和前沿神经回路追踪使用转基因狂犬病病毒 具有无与伦比的手术技能的PI，可用于视网膜床单移植和专家育种知识 Co-Pi的转基因RD大鼠。 该项目直接解决了Nei Audacious目标倡议，以再生眼睛和视觉 系统。