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Functional aspects of meningeal lymphatics in ageing and Alzheimer’s disease

Author

Listed:
  • Sandro Mesquita

    (University of Virginia
    University of Virginia)

  • Antoine Louveau

    (University of Virginia
    University of Virginia)

  • Andrea Vaccari

    (University of Virginia
    University of Virginia)

  • Igor Smirnov

    (University of Virginia
    University of Virginia)

  • R. Chase Cornelison

    (University of Virginia)

  • Kathryn M. Kingsmore

    (University of Virginia)

  • Christian Contarino

    (University of Virginia
    University of Virginia
    University of Trento)

  • Suna Onengut-Gumuscu

    (Center for Public Health Genomics, University of Virginia)

  • Emily Farber

    (Center for Public Health Genomics, University of Virginia)

  • Daniel Raper

    (University of Virginia
    University of Virginia
    University of Virginia Health System)

  • Kenneth E. Viar

    (University of Virginia
    University of Virginia)

  • Romie D. Powell

    (University of Virginia
    University of Virginia)

  • Wendy Baker

    (University of Virginia
    University of Virginia)

  • Nisha Dabhi

    (University of Virginia
    University of Virginia)

  • Robin Bai

    (University of Virginia
    University of Virginia)

  • Rui Cao

    (University of Virginia)

  • Song Hu

    (University of Virginia)

  • Stephen S. Rich

    (Center for Public Health Genomics, University of Virginia)

  • Jennifer M. Munson

    (University of Virginia
    College of Engineering, Virginia Tech)

  • M. Beatriz Lopes

    (University of Virginia)

  • Christopher C. Overall

    (University of Virginia
    University of Virginia)

  • Scott T. Acton

    (University of Virginia
    University of Virginia)

  • Jonathan Kipnis

    (University of Virginia
    University of Virginia)

Abstract

Ageing is a major risk factor for many neurological pathologies, but its mechanisms remain unclear. Unlike other tissues, the parenchyma of the central nervous system (CNS) lacks lymphatic vasculature and waste products are removed partly through a paravascular route. (Re)discovery and characterization of meningeal lymphatic vessels has prompted an assessment of their role in waste clearance from the CNS. Here we show that meningeal lymphatic vessels drain macromolecules from the CNS (cerebrospinal and interstitial fluids) into the cervical lymph nodes in mice. Impairment of meningeal lymphatic function slows paravascular influx of macromolecules into the brain and efflux of macromolecules from the interstitial fluid, and induces cognitive impairment in mice. Treatment of aged mice with vascular endothelial growth factor C enhances meningeal lymphatic drainage of macromolecules from the cerebrospinal fluid, improving brain perfusion and learning and memory performance. Disruption of meningeal lymphatic vessels in transgenic mouse models of Alzheimer’s disease promotes amyloid-β deposition in the meninges, which resembles human meningeal pathology, and aggravates parenchymal amyloid-β accumulation. Meningeal lymphatic dysfunction may be an aggravating factor in Alzheimer’s disease pathology and in age-associated cognitive decline. Thus, augmentation of meningeal lymphatic function might be a promising therapeutic target for preventing or delaying age-associated neurological diseases.

Suggested Citation

  • Sandro Mesquita & Antoine Louveau & Andrea Vaccari & Igor Smirnov & R. Chase Cornelison & Kathryn M. Kingsmore & Christian Contarino & Suna Onengut-Gumuscu & Emily Farber & Daniel Raper & Kenneth E. V, 2018. "Functional aspects of meningeal lymphatics in ageing and Alzheimer’s disease," Nature, Nature, vol. 560(7717), pages 185-191, August.
  • Handle: RePEc:nat:nature:v:560:y:2018:i:7717:d:10.1038_s41586-018-0368-8
    DOI: 10.1038/s41586-018-0368-8
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    Citations

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    Cited by:

    1. Nieves Montenegro-Navarro & Claudia García-Báez & Melissa García-Caballero, 2023. "Molecular and metabolic orchestration of the lymphatic vasculature in physiology and pathology," Nature Communications, Nature, vol. 14(1), pages 1-18, December.
    2. Miao Wang & Congcong Yan & Xi Li & Tianhao Yang & Shengnan Wu & Qian Liu & Qingming Luo & Feifan Zhou, 2024. "Non-invasive modulation of meningeal lymphatics ameliorates ageing and Alzheimer’s disease-associated pathology and cognition in mice," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    3. Stefano Suzzi & Tommaso Croese & Adi Ravid & Or Gold & Abbe R. Clark & Sedi Medina & Daniel Kitsberg & Miriam Adam & Katherine A. Vernon & Eva Kohnert & Inbar Shapira & Sergey Malitsky & Maxim Itkin &, 2023. "N-acetylneuraminic acid links immune exhaustion and accelerated memory deficit in diet-induced obese Alzheimer’s disease mouse model," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    4. Nicola A. Kearns & Artemis Iatrou & Daniel J. Flood & Sashini Tissera & Zachary M. Mullaney & Jishu Xu & Chris Gaiteri & David A. Bennett & Yanling Wang, 2023. "Dissecting the human leptomeninges at single-cell resolution," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    5. Per Kristian Eide & Aslan Lashkarivand & Are Pripp & Lars Magnus Valnes & Markus Herberg Hovd & Geir Ringstad & Kaj Blennow & Henrik Zetterberg, 2023. "Plasma neurodegeneration biomarker concentrations associate with glymphatic and meningeal lymphatic measures in neurological disorders," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    6. Weiping Dai & Mengqian Yang & Pei Xia & Chuan Xiao & Shuying Huang & Zhan Zhang & Xin Cheng & Wenchang Li & Jian Jin & Jingyun Zhang & Binghuo Wu & Yingying Zhang & Pei-hui Wu & Yangyang Lin & Wen Wu , 2022. "A functional role of meningeal lymphatics in sex difference of stress susceptibility in mice," Nature Communications, Nature, vol. 13(1), pages 1-21, December.
    7. Carolin Beuker & David Schafflick & Jan-Kolja Strecker & Michael Heming & Xiaolin Li & Jolien Wolbert & Antje Schmidt-Pogoda & Christian Thomas & Tanja Kuhlmann & Irene Aranda-Pardos & Noelia A-Gonzal, 2022. "Stroke induces disease-specific myeloid cells in the brain parenchyma and pia," Nature Communications, Nature, vol. 13(1), pages 1-14, December.

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