Journal
DISEASE MODELS & MECHANISMS
Volume 14, Issue 2, Pages -Publisher
COMPANY BIOLOGISTS LTD
DOI: 10.1242/dmm.047548
Keywords
TDP-43; Amyotrophic lateral sclerosis; Frontotemporal lobar degeneration; Neurodegeneration; Disease model; Visual system
Categories
Funding
- Alma Grace Holt MND Research Grant from the Motor Neuron Disease Research Institute of Australia
- J. O. and J. R. Wicking Trust
- National Health and Medical Research Council Boosting Dementia Research Leadership fellowship [APP1136913]
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Mislocalization of TDP-43 protein in mouse retinal ganglion cells led to alterations in neurofilament expression and a decrease in neurofilament-positive axons in the optic nerve, accompanied by increased microglial density. Furthermore, TDP-43 mislocalization was associated with increased pre-synaptic input into retinal ganglion cells.
Mislocalization of the TAR DNA-binding protein 43 (TDP-43; encoded by TARDBP) from the nucleus to the cytoplasm is a common feature of neurodegenerative conditions such as amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD). The downstream in vivo cellular effects of this mislocalization are not well understood. To investigate the impact of mislocalized TDP-43 on neuronal cell bodies, axons and axonal terminals, we utilized the mouse visual system to create a new model of TDP-43 proteinopathy. Mouse (C57BL/6J) retinal ganglion cells (RGCs) were transduced with GFP-tagged human wildtype TDP-43 (hTDP-WT-GFP) and human TDP-43 with a mutation in the nuclear localization sequence (hTDP-Delta NLS-GFP), to cause TDP-43 mislocalization, with similar to 60% transduction efficiency achieved. Expression of both hTDP-WT-GFP and hTDP-Delta NLS-GFP resulted in changes to neurofilament expression, with cytoplasmic TDP-43 being associated with significantly (P<0.05) increased neurofilament heavy expression in the cell soma, and both forms of altered TDP-43 leading to significantly (P<0.05) decreased numbers of neurofilament-positive axons within the optic nerve. Alterations to neurofilament proteins were associated with significantly (P<0.05) increased microglial density in the optic nerve and retina. Furthermore, expression of hTDP-WT-GFP was associated with a significant (P<0.05) increase in pre-synaptic input into RGCs in the retina. The current study has developed a new model that allows detailed examination of alterations to TDP-43 and will contribute to the knowledge of TDP-43-mediated neuronal alterations and degeneration.
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