TDP-43 differentially propagates to induce antero- and retrograde degeneration in the corticospinal circuits in mouse focal ALS models

TDP-43 differentially propagates to induce antero- and retrograde degeneration in the corticospinal circuits in mouse focal ALS models

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease characterized by TDP-43 inclusions in the cortical and spinal motor neurons. It remains unknown whether and how pathogenic TDP-43 spreads across neural connections to progress degenerative processes in the cortico-spinal...

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Veröffentlicht in:Acta neuropathologica 2023-10, Vol.146 (4), p.611-629
Hauptverfasser: Tsuboguchi, Shintaro, Nakamura, Yuka, Ishihara, Tomohiko, Kato, Taisuke, Sato, Tokiharu, Koyama, Akihide, Mori, Hideki, Koike, Yuka, Onodera, Osamu, Ueno, Masaki
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Amyotrophic lateral sclerosis
Analysis
Animal models
Atrophy
Axons
Brain
Circuits
Medicine
Medicine & Public Health
Motor neurons
Muscles
Musculoskeletal system
Mutants
Nervous system diseases
Neurodegeneration
Neurodegenerative diseases
Neuronal-glial interactions
Neurons
Neurosciences
Oligodendrocytes
Original Paper
Pathology
Pyramidal tracts
Skeletal muscle
Spinal cord
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container_title Acta neuropathologica
container_volume 146
creator Tsuboguchi, Shintaro
Nakamura, Yuka
Ishihara, Tomohiko
Kato, Taisuke
Sato, Tokiharu
Koyama, Akihide
Mori, Hideki
Koike, Yuka
Onodera, Osamu
Ueno, Masaki
description Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease characterized by TDP-43 inclusions in the cortical and spinal motor neurons. It remains unknown whether and how pathogenic TDP-43 spreads across neural connections to progress degenerative processes in the cortico-spinal motor circuitry. Here we established novel mouse ALS models that initially induced mutant TDP-43 inclusions in specific neuronal or cell types in the motor circuits, and investigated whether TDP-43 and relevant pathological processes spread across neuronal or cellular connections. We first developed ALS models that primarily induced TDP-43 inclusions in the corticospinal neurons, spinal motor neurons, or forelimb skeletal muscle, by using adeno-associated virus (AAV) expressing mutant TDP-43. We found that TDP-43 induced in the corticospinal neurons was transported along the axons anterogradely and transferred to the oligodendrocytes along the corticospinal tract (CST), coinciding with mild axon degeneration. In contrast, TDP-43 introduced in the spinal motor neurons did not spread retrogradely to the cortical or spinal neurons; however, it induced an extreme loss of spinal motor neurons and subsequent degeneration of neighboring spinal neurons, suggesting a degenerative propagation in a retrograde manner in the spinal cord. The intraspinal degeneration further led to severe muscle atrophy. Finally, TDP-43 induced in the skeletal muscle did not propagate pathological events to spinal neurons retrogradely. Our data revealed that mutant TDP-43 spread across neuro-glial connections anterogradely in the corticospinal pathway, whereas it exhibited different retrograde degenerative properties in the spinal circuits. This suggests that pathogenic TDP-43 may induce distinct antero- and retrograde mechanisms of degeneration in the motor system in ALS.
doi_str_mv 10.1007/s00401-023-02615-8
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subjects Amyotrophic lateral sclerosis
Analysis
Animal models
Atrophy
Axons
Brain
Circuits
Medicine
Medicine & Public Health
Motor neurons
Muscles
Musculoskeletal system
Mutants
Nervous system diseases
Neurodegeneration
Neurodegenerative diseases
Neuronal-glial interactions
Neurons
Neurosciences
Oligodendrocytes
Original Paper
Pathology
Pyramidal tracts
Skeletal muscle
Spinal cord
title TDP-43 differentially propagates to induce antero- and retrograde degeneration in the corticospinal circuits in mouse focal ALS models
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