Cell：我国学者揭示大脑“排污网络”的发育和神经调控密码，为阿尔茨海默病等大脑疾病的治疗开辟新方向

Core Viewpoint - The research reveals the developmental control mechanism of the meningeal lymphatic system in the brain, highlighting the dynamic regulation by neural activity through specific glial cell subtypes, which provides new insights into the interaction between the nervous and immune systems [3][6][9]. Group 1: Research Findings - The study identifies that neural activity regulates the expression of Vegfc in slc6a11b+ radial astrocytes, which in turn controls the development of mural lymphatic endothelial cells (muLEC) in the meninges [3][5]. - It demonstrates that slc6a11b+ radial astrocytes are the primary source of Vegfc, essential for muLEC development, and that this process is modulated by neural activity [7][9]. - The collaboration between slc6a11b+ radial astrocytes and ccbe1+ fibroblasts ensures that muLEC is restricted to the brain surface, preventing invasion into the brain parenchyma [5][9]. Group 2: Implications for Future Research - The findings suggest that the brain not only processes neural information but also coordinates its microenvironment, providing a new framework for understanding brain-immune interactions [9]. - The research opens avenues for interventions targeting this regulatory network, potentially offering new perspectives on the role of the meningeal lymphatic system in neurodegenerative diseases [9][14]. - It emphasizes the importance of a functional lymphatic network for brain health, indicating that targeting the external lymphatic pathways may enhance treatment efficacy for neurological disorders [14].