Lung endothelium, tau, and amyloids in health and disease

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Abstract

Lung endothelia in the arteries, capillaries, and veins are heterogeneous in structure and function. Lung capillaries in particular represent a unique vascular niche, with a thin yet highly restrictive alveolar-capillary barrier that optimizes gas exchange. Capillary endothelium surveys the blood while simultaneously interpreting cues initiated within the alveolus and communicated via immediately adjacent type I and type II epithelial cells, fibroblasts, and pericytes. This cell-cell communication is necessary to coordinate the immune response to lower respiratory tract infection. Recent discoveries identify an important role for the microtubule-associated protein tau that is expressed in lung capillary endothelia in the host-pathogen interaction. This endothelial tau stabilizes microtubules necessary for barrier integrity, yet infection drives production of cytotoxic tau variants that are released into the airways and circulation, where they contribute to end-organ dysfunction. Similarly, beta-amyloid is produced during infection. Beta-amyloid has antimicrobial activity, but during infection it can acquire cytotoxic activity that is deleterious to the host. The production and function of these cytotoxic tau and amyloid variants are the subject of this review. Lung-derived cytotoxic tau and amyloid variants are a recently discovered mechanism of end-organ dysfunction, including neurocognitive dysfunction, during and in the aftermath of infection.

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The outbreak of coronavirus disease 2019 (COVID-19) in Wuhan, China, is serious and has the potential to become an epidemic worldwide. Several studies have described typical clinical manifestations including fever, cough, diarrhea, and fatigue. However, to our knowledge, it has not been reported that patients with COVID-19 had any neurologic manifestations.

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Venizelos Papayannopoulos (2017)

Neutrophils are innate immune phagocytes that have a central role in immune defence. Our understanding of the role of neutrophils in pathogen clearance, immune regulation and disease pathology has advanced dramatically in recent years. Web-like chromatin structures known as neutrophil extracellular traps (NETs) have been at the forefront of this renewed interest in neutrophil biology. The identification of molecules that modulate the release of NETs has helped to refine our view of the role of NETs in immune protection, inflammatory and autoimmune diseases and cancer. Here, I discuss the key findings and concepts that have thus far shaped the field of NET biology.

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Structural and functional features of central nervous system lymphatics

Antoine Louveau, Igor Smirnov, Timothy Keyes … (2015)

One of the characteristics of the CNS is the lack of a classical lymphatic drainage system. Although it is now accepted that the CNS undergoes constant immune surveillance that takes place within the meningeal compartment 1–3 , the mechanisms governing the entrance and exit of immune cells from the CNS remain poorly understood 4–6 . In searching for T cell gateways into and out of the meninges, we discovered functional lymphatic vessels lining the dural sinuses. These structures express all of the molecular hallmarks of lymphatic endothelial cells, are able to carry both fluid and immune cells from the CSF, and are connected to the deep cervical lymph nodes. The unique location of these vessels may have impeded their discovery to date, thereby contributing to the long-held concept of the absence of lymphatic vasculature in the CNS. The discovery of the CNS lymphatic system may call for a reassessment of basic assumptions in neuroimmunology and shed new light on the etiology of neuroinflammatory and neurodegenerative diseases associated with immune system dysfunction.

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Author and article information

Journal

Journal ID (nlm-ta): Physiol Rev

Journal ID (iso-abbrev): Physiol Rev

Journal ID (publisher-id): PHYSREV

Title: Physiological Reviews

Publisher: American Physiological Society (Rockville, MD )

ISSN (Print): 0031-9333

ISSN (Electronic): 1522-1210

Publication date (Print): 1 April 2024

Publication date (Electronic): 10 August 2023

Publication date PMC-release: 10 August 2023

Volume: 104

Issue: 2

Pages: 533-587

Affiliations

[1] ¹Department of Biochemistry and Molecular Biology, University of South Alabama , Mobile, Alabama, United States

[2] ²Department of Physiology and Cell Biology, University of South Alabama ( https://ror.org/01s7b5y08) , Mobile, Alabama, United States

[3] ³Department of Internal Medicine, University of South Alabama ( https://ror.org/01s7b5y08) , Mobile, Alabama, United States

[4] ⁴Center for Lung Biology, University of South Alabama ( https://ror.org/01s7b5y08) , Mobile, Alabama, United States

[5] ⁵Department of Cell Biology and Physiology, Edward Via College of Osteopathic Medicine, Monroe, Louisiana, United States

[6] ⁶Pulmonary and Critical Care Medicine, Department of Internal Medicine, Yale University , New Haven, Connecticut, United States

[7] ⁷Department of Respiratory Medicine, Hannover Medical School , Hannover, Germany

[8] ⁸German Center for Lung Research (DZL) , Hannover, Germany

[9] ⁹Department of Anesthesiology and Perioperative Medicine, University of Alabama-Birmingham , Birmingham, Alabama, United States

Author notes

[*]

R. Balczon, M. T. Lin, and S. Voth contributed equally to this review.

T. Stevens ( tstevens@ 123456southalabama.edu ); J.-F. Pittet ( jpittet@ 123456uabmc.edu ).

Author information

Ron Balczon https://orcid.org/0000-0001-8263-7221

Mike T. Lin https://orcid.org/0000-0002-9806-8198

Sarah Voth https://orcid.org/0000-0003-3796-7154

Amy R. Nelson https://orcid.org/0000-0003-2025-1408

Jonas C. Schupp https://orcid.org/0000-0002-7714-8076

Brant M. Wagener https://orcid.org/0000-0001-7889-1526

Jean-Francois Pittet https://orcid.org/0000-0002-2196-9289

Troy Stevens https://orcid.org/0000-0001-9689-929X

Article

Publisher ID: PRV-00006-2023 Publisher-manuscript ID: PRV-00006-2023

DOI: 10.1152/physrev.00006.2023

PMC ID: 11281824

PubMed ID: 37561137

SO-VID: 8770aace-6d44-4c2a-867e-8d7821644317

License:

Licensed under Creative Commons Attribution CC-BY 4.0. Published by the American Physiological Society.

History

Date received : 2 February 2023

Date revision received : 26 June 2023

Date accepted : 4 August 2023