Differential clearance of pyroglutamate abeta through arachnoid and meningeal lymphatics in Alzheimer Disease

阿尔茨海默病中焦谷氨酸 abeta 通过蛛网膜和脑膜淋巴管的差异清除

• 批准号: 10811421
• 负责人: Christopher G. Janson
• 金额: $ 37.68万
• 依托单位: ROWAN UNIVERSITY SCHOOL/OSTEOPATHIC MED
• 依托单位国家: 美国
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-09-01 至 2024-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10811421
• 关键词: Differential; clearance; pyroglutamate; abeta; through

Alzheimer's disease is a condition in which brain clearance of toxic peptides such as amyloid beta (Aβ) is impaired. Determining the mechanisms by which brain clearance becomes compromised will open up therapeutic opportunities for attenuating or preventing Alzheimer's disease. The field has focused much of its attention on vascular risk factors such as Aβ transport at the blood-brain barrier. Despite significant progress, the overarching problem of impaired Aβ brain clearance has not been solved. Thus, there is a need to consider alternative routes or mechanisms of clearance. The recently discovered meningeal lymphatic system is a prime candidate for the missing link between impaired Aβ clearance and Alzheimer's disease. This previously unrecognized network of intracranial drainage vessels is located in the meninges, or membranes surrounding the brain, and along with arachnoid membranes it actively participates in clearance of fluid and solutes from the brain. For many years, it was known that substances injected into the brain make their way to the lymphatic drainage system in the head and neck, but anatomical connections largely remained a "black box." Before the discovery of Aβ, researchers also found that ligation of cervical lymphatics resulted in cognitive impairment. However, a direct link between lymphatic drainage and dementia was never established. Correlative data now suggest that the meninges are involved in maintenance of brain health by managing the removal of endogenous waste to the systemic circulation. Yet there has been no clear functional link between meningeal lymphatics and major pathological features of Alzheimer's disease, and it is furthermore unclear how lymphatic function would become compromised during disease initiation or progression. Our hypothesis is that the meninges play a necessary and specific role in clearing neurotoxic pyroglutamate-Aβ (pE3-Aβ) and other Aβ species from the brain. We propose that pathological changes in lymphatic vessels and arachnoid membranes occur during aging, thereby promoting initiation or progression of Alzheimer's disease. To test this hypothesis, we have adapted the TgF344-AD rat model that carries key hallmarks of Alzheimer's disease. This was cross-bred with a rat expressing a fluorescent marker protein, so that lymphatic vessels are visualized in exquisite detail. In parallel, we are systematically examining human meninges in Alzheimer's disease. Aim #1 will examine energy-dependent mechanisms underlying lymphatic clearance, to provide new potential targets for drug therapy. Aim #2 will confirm anatomical correlates of the lymphatic system in aging and will modulate its function to prove causality and plasticity of the meningeal system. Aim #3 will establish the relevance of meningeal clearance of pE3-Aβ and Aβ to human Alzheimer's disease by creating a high resolution map of the human meninges and using proteomics and biochemical analysis to model clearance pathways. These studies will provide invaluable new tools for the research community and will enable therapeutic discovery.

阿尔茨海默病是一种大脑清除β淀粉样蛋白（a β）等有毒肽的疾病