Neurodegeneration in a novel invertebrate model system: Failed microtubule‐mediated cell adhesion and unraveling of macroglia

Fabian-Fine, Ruth; Aiken, Anna M; Aug, Julia R; Boucher, Jason D; Butler, Danielle; Clancy, Liam J; Clem, Shaun A; Crotty, Samantha C; Dalpe, Abigail M; Donzello-Jewett, Elizabeth J; Galgay, Taylor M; Gillis, Bonnie K; Heinrich, Brigid W; Hines, Kai R; Kimmel, Jordan E; McGrath, Joseph M; Miles, Marissa M; Morey, Jordyn A; Ortiz, Isaiah A; Pham, Kevin Q; Quinn, Liam C; Radican, Colin J; Speidel, Nolan T; Thomas, Bailey J; Troisi, Angela R; Weiss, Joshua L.; Wentzheimer, Kayne V; Weaver, Adam L.

doi:10.1002/cne.25450

J of Comparative Neurology

2023

DOI: 10.1002/cne.25450

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Neurodegeneration in a novel invertebrate model system: Failed microtubule‐mediated cell adhesion and unraveling of macroglia

Ruth Fabian-Fine

Anna M Aiken

Julia R Aug

et al.

Abstract: Neurodegenerative diseases are among the main causes of death in the United States, leading to irreversible disintegration of neurons. Despite intense international research efforts, cellular mechanisms that initiate neurodegeneration remain elusive, thus inhibiting the development of effective preventative and early onset medical treatment. To identify underlying cellular mechanisms that initiate neuron degeneration, it is critical to identify histological and cellular hallmarks that can be linked to underlyi… Show more

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2024

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Myelinated Glial Cells: Their Proposed Role in Waste Clearance and Neurodegeneration in Arachnid and Human Brain

Fabian‐Fine,

Weaver,

Roman

et al. 2024

J of Comparative Neurology

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SUMMARYOne of the most important goals in biomedical sciences is understanding the causal mechanisms of neurodegeneration. A prevalent hypothesis relates to impaired waste clearance mechanisms from the brain due to reported waste aggregation in the brains of Alzheimer patients, including amyloid‐β plaques and neurofibrillary tau tangles. Currently, our understanding of the mechanisms by which waste is removed from the brain is only fragmentary. Here we provide compelling evidence that waste clearance from brain tissue is highly conserved in arachnids and humans. Utilizing RNAscope in situ hybridization, immunohistochemical, ultrastructural, and histological approaches, we demonstrate that cellular debris in spider neurons is engulfed by myelin‐forming ependymal glial cells that transect into neuronal somata and form myelin‐derived waste‐internalizing receptacles. These canal systems channel this debris into the lymphatic system likely in an aquaporin‐4 (AQP4) water channel‐dependent manner. We provide robust evidence that a similar process may be true in human hippocampus where vast numbers of myelinated AQP4‐immunoreactive ependymal glial cells send cellular projections into the somata of neurons and glial cells where they differentiate into waste internalizing receptacles. In the brains of Alzheimer decedents, hypertrophic impairment of these myelinated glial cells leads to the catastrophic obstruction and depletion of neuronal cytoplasm into the ependymal glial cells. At the cellular level, the structural impairment of macroglia leads to swelling myelin protrusions that appear as electron‐lucent circular profiles, explaining spongiform abnormalities associated with the neurodegenerative diseases described here. We propose to term this novel type of macroglia‐mediated cell death “gliaptosis.”

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Myelinated Glial Cells: Their Proposed Role in Waste Clearance and Neurodegeneration in Arachnid and Human Brain

Fabian‐Fine,

Weaver,

Roman

et al. 2024

J of Comparative Neurology

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show abstract

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Neurodegeneration in a novel invertebrate model system: Failed microtubule‐mediated cell adhesion and unraveling of macroglia

Cited by 1 publication

References 47 publications

Myelinated Glial Cells: Their Proposed Role in Waste Clearance and Neurodegeneration in Arachnid and Human Brain

Myelinated Glial Cells: Their Proposed Role in Waste Clearance and Neurodegeneration in Arachnid and Human Brain

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