Molecular mechanisms in steroid-induced glaucoma.

类固醇诱发青光眼的分子机制。

• 批准号: 8055362
• 负责人: Oscar A Candia
• 金额: $ 47.26万
• 依托单位: ICAHN SCHOOL OF MEDICINE AT MOUNT SINAI
• 依托单位国家: 美国
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-04-01 至 2013-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8055362
• 关键词: Adrenal Cortex Hormones; Affect; Animal Model; Animals; Blindness; Cattle; Chronic; Data; Development; Disease; Eye; Functional disorder; Gene Expression; Genes; Genetic; Glaucoma; Goals; Human; Individual; Intervention; Knowledge; Lead; Link; Mediating; Methods; Modeling; Molecular; Ocular Hypertension; Open-Angle Glaucoma; Organ Culture Techniques; Pathogenesis; Pathway interactions; Phosphorylation; Physiologic Intraocular Pressure; Post-Translational Protein Processing; Preparation; Primary Open Angle Glaucoma; Protein Analysis; Proteomics; Reporting; Role; Ruminants; Sheep; Steroid therapy; Steroids; Testing; Time Study; Tissues; Topical Corticosteroids; Trabecular meshwork structure; gene therapy; glycosylation; human disease; in vivo; insight; optic nerve disorder; prevent; protein expression; public health relevance; response; tool

DESCRIPTION (provided by applicant): Glucocorticosteroids are known to cause intraocular pressure (IOP) elevation in humans. This induced ocular hypertension can lead to glaucomatous visual loss. Steroid-induced glaucoma has over the past few years become more prevalent as many posterior pole conditions are increasingly been treated with potent, long-lasting steroid preparations. Steroid-induced open angle glaucoma is caused by a decrease of trabecular meshwork (TM) outflow facility. Cellular and molecular mechanisms underlying this decrease in outflow facility have been studied in tissue and/or organ culture. However, despite significant advances to our understanding of this disease, we still do not fully understand the molecular mechanisms that lead to steroid induced decrease in facility and the resulting IOP elevation. Over the past few years we have developed two animal models (bovine and ovine) for the study of steroid-induced glaucoma in-vivo and have used one of them to gain some insight into the pathogenesis of the disease. In this project we propose to use the ovine steroid-induced IOP elevation model to dissect the molecular mechanisms of this disease. Our overall hypothesis is that steroid-induced changes of gene and protein expression in the trabecular meshwork (TM) lead to changes in the outflow pathways which ultimately cause a reduction in outflow facility and IOP elevation. We thus propose the following specific aims: 1. To define the role of key genes in a number of inter-connecting networks in steroid induced IOP elevation. Our hypothesis is that these closely linked gene networks mediate the steroid-induced changes in facility and IOP. Thus specific perturbation of these networks will ameliorate or prevent the development of steroid- induced IOP elevation. 2. To study the time-course of gene expression changes those occur in the TM during the development of steroid-induced IOP elevation. Our hypothesis predicts that a small set of genes that belong to a limited number of networks are the initial response to steroid therapy and that changes in their expression ultimately causes changes in the trabecular meshwork that lead to a reduction in outflow facility and IOP elevation. 3. To detect (by proteomic analysis) protein changes those occur during the development of steroid-induced IOP elevation. Our hypothesis is that post-translational modifications (like phosphorylation or glycosylation) modify the activity of key molecules in pathways that affect the development of steroid-induced IOP elevation and the onset of glaucoma. This project is expected to define targets for pharmacologic intervention in steroid-induced glaucoma. In addition, and because of the similarities of steroid-induced with chronic open angle glaucoma, we expect that knowledge gained during this project will help to elucidate some of the pathophysiology of the latter condition as well. PUBLIC HEALTH RELEVANCE: Steroid-induced glaucoma is a potentially blinding disease that can affect susceptible individuals treated with steroids. Over the past few years it has become more prevalent as many posterior pole conditions are increasingly been treated with potent, long-lasting steroid preparations. This project is expected to define targets for pharmacologic intervention in steroid-induced glaucoma and provide knowledge that can potentially be used to understand and treat primary open angle glaucoma as well.

描述（由申请方提供）：已知糖皮质激素会导致人类眼内压（IOP）升高。这种诱发性高眼压可导致青光眼性视力丧失。在过去的几年里，类固醇诱导的青光眼变得越来越普遍，因为许多后极部疾病越来越多地用强效、长效的类固醇制剂治疗。 类固醇诱导的开角型青光眼是由于小梁网（TM）流出功能下降引起的。已经在组织和/或器官培养中研究了这种流出设施减少的细胞和分子机制。然而，尽管我们对这种疾病的理解取得了重大进展，但我们仍然没有完全理解导致类固醇诱导的灵活性降低和由此导致的IOP升高的分子机制。 在过去的几年里，我们开发了两种动物模型（牛和绵羊）用于体内研究类固醇诱导的青光眼，并使用其中之一来深入了解该疾病的发病机制。在这个项目中，我们建议使用绵羊类固醇诱导的IOP升高模型来剖析这种疾病的分子机制。我们的总体假设是类固醇诱导的小梁网（TM）中基因和蛋白质表达的变化导致外流途径的变化，最终导致外流功能降低和IOP升高。因此，我们提出以下具体目标：1。目的：明确类固醇诱导的眼压升高中一些相互连接网络中的关键基因的作用。我们的假设是，这些密切相关的基因网络介导的设施和IOP的类固醇诱导的变化。因此，这些网络的特定扰动将改善或防止类固醇诱导的IOP升高的发展。2.研究激素性眼压升高过程中TM基因表达的时程变化。我们的假设预测，属于有限数量的网络的一小部分基因是对类固醇治疗的初始反应，并且其表达的变化最终导致小梁网的变化，从而导致流出功能降低和IOP升高。3.检测（通过蛋白质组学分析）类固醇诱导的IOP升高过程中发生的蛋白质变化。我们的假设是翻译后修饰（如磷酸化或糖基化）改变了影响类固醇诱导的IOP升高和青光眼发作的途径中关键分子的活性。 该项目有望确定类固醇诱导的青光眼的药物干预目标。此外，由于类固醇诱导的慢性开角型青光眼的相似性，我们期望在该项目中获得的知识也将有助于阐明后者的一些病理生理学。 公共卫生相关性：类固醇诱导的青光眼是一种潜在的致盲性疾病，可影响接受类固醇治疗的易感个体。在过去的几年里，它已经变得更加普遍，因为许多后极条件越来越多地被治疗与强大的，持久的类固醇制剂。该项目预计将确定类固醇诱导的青光眼的药物干预目标，并提供可能用于理解和治疗原发性开角型青光眼的知识。