Differential impact of lymphatic outflow pathways on cerebrospinal fluid homeostasis.

IF 12.6 1区医学 Q1 IMMUNOLOGY

Journal of Experimental Medicine Pub Date : 2025-02-03 Epub Date: 2025-01-08 DOI:10.1084/jem.20241752

Zachary Papadopoulos, Leon C D Smyth, Igor Smirnov, Daniel A Gibson, Jasmin Herz, Jonathan Kipnis

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引用次数: 0

Abstract

Dysfunctional lymphatic drainage from the central nervous system (CNS) has been linked to neuroinflammatory and neurodegenerative disorders, but our understanding of the lymphatic contribution to CNS fluid autoregulation remains limited. Here, we studied forces that drive the outflow of the cerebrospinal fluid (CSF) into the deep and superficial cervical lymph nodes (dcLN and scLN) and tested how the blockade of lymphatic networks affects CNS fluid homeostasis. Outflow to the dcLN occurred spontaneously in the absence of lymphatic pumping and was coupled to intracranial pressure (ICP), whereas scLN drainage was driven by pumping. Impaired dcLN drainage led to elevated CSF outflow resistance and delayed CSF-to-blood efflux despite the recruitment of the nasal-to-scLN pathway. Fluid regulation was better compensated after scLN obstruction. The dcLN pathway exhibited steady, consistent drainage across conditions, while the nasal-to-scLN pathway was dynamically activated to mitigate perturbances. These findings highlight the complex physiology of CSF homeostasis and lay the groundwork for future studies aimed at assessing and modulating CNS lymphatic function.

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淋巴流出通道对脑脊液稳态的不同影响。

中枢神经系统（CNS）的淋巴引流功能障碍与神经炎症和神经退行性疾病有关，但我们对淋巴对中枢神经系统液体自我调节的贡献的理解仍然有限。在这里，我们研究了驱动脑脊液（CSF）流出进入颈部深部和浅表淋巴结（dcLN和scLN）的力量，并测试了淋巴网络的阻断如何影响中枢神经系统液体稳态。在没有淋巴泵送的情况下，向dcLN的流出是自发发生的，并与颅内压（ICP）相耦合，而scLN的引流是由泵送驱动的。dcLN引流受损导致脑脊液流出阻力升高，脑脊液到血液的流出延迟，尽管鼻腔到scln通路有所恢复。在scLN阻塞后，液体调节得到更好的补偿。dcLN通路在不同条件下表现出稳定、一致的引流，而鼻腔到scln通路被动态激活以减轻扰动。这些发现强调了脑脊液稳态的复杂生理学，并为未来旨在评估和调节中枢神经系统淋巴功能的研究奠定了基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Experimental Medicine 医学-免疫学

CiteScore

26.60

自引率

1.30%

发文量

189

审稿时长

3-8 weeks

期刊介绍： Since its establishment in 1896, the Journal of Experimental Medicine (JEM) has steadfastly pursued the publication of enduring and exceptional studies in medical biology. In an era where numerous publishing groups are introducing specialized journals, we recognize the importance of offering a distinguished platform for studies that seamlessly integrate various disciplines within the pathogenesis field. Our unique editorial system, driven by a commitment to exceptional author service, involves two collaborative groups of editors: professional editors with robust scientific backgrounds and full-time practicing scientists. Each paper undergoes evaluation by at least one editor from both groups before external review. Weekly editorial meetings facilitate comprehensive discussions on papers, incorporating external referee comments, and ensure swift decisions without unnecessary demands for extensive revisions. Encompassing human studies and diverse in vivo experimental models of human disease, our focus within medical biology spans genetics, inflammation, immunity, infectious disease, cancer, vascular biology, metabolic disorders, neuroscience, and stem cell biology. We eagerly welcome reports ranging from atomic-level analyses to clinical interventions that unveil new mechanistic insights.