Dysregulation of the ALS-associated gene TDP-43 leads to neuronal death and degeneration in mice
Lionel M. Igaz, … , John Q. Trojanowski, Virginia M.-Y. Lee
Lionel M. Igaz, … , John Q. Trojanowski, Virginia M.-Y. Lee
Published January 4, 2011
Citation Information: J Clin Invest. 2011;121(2):726-738. https://doi.org/10.1172/JCI44867.
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Dysregulation of the ALS-associated gene TDP-43 leads to neuronal death and degeneration in mice

Abstract

Amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD) are characterized by cytoplasmic protein aggregates in the brain and spinal cord that include TAR-DNA binding protein 43 (TDP-43). TDP-43 is normally localized in the nucleus with roles in the regulation of gene expression, and pathological cytoplasmic aggregates are associated with depletion of nuclear protein. Here, we generated transgenic mice expressing human TDP-43 with a defective nuclear localization signal in the forebrain (hTDP-43-ΔNLS), and compared them with mice expressing WT hTDP-43 (hTDP-43-WT) to determine the effects of mislocalized cytoplasmic TDP-43 on neuronal viability. Expression of either hTDP-43-ΔNLS or hTDP-43-WT led to neuron loss in selectively vulnerable forebrain regions, corticospinal tract degeneration, and motor spasticity recapitulating key aspects of FTLD and primary lateral sclerosis. Only rare cytoplasmic phosphorylated and ubiquitinated TDP-43 inclusions were seen in hTDP-43-ΔNLS mice, suggesting that cytoplasmic inclusions were not required to induce neuronal death. Instead, neurodegeneration in hTDP-43 and hTDP-43-ΔNLS–expressing neurons was accompanied by a dramatic downregulation of the endogenous mouse TDP-43. Moreover, mice expressing hTDP-43-ΔNLS exhibited profound changes in gene expression in cortical neurons. Our data suggest that perturbation of endogenous nuclear TDP-43 results in loss of normal TDP-43 function(s) and gene regulatory pathways, culminating in degeneration of selectively vulnerable affected neurons.

Authors

Lionel M. Igaz, Linda K. Kwong, Edward B. Lee, Alice Chen-Plotkin, Eric Swanson, Travis Unger, Joe Malunda, Yan Xu, Matthew J. Winton, John Q. Trojanowski, Virginia M.-Y. Lee

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Figure 2

Neuron loss and cerebral atrophy in tTA/TDP-WT mice.

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Neuron loss and cerebral atrophy in tTA/TDP-WT mice. (A–L) Expression of...
(AL) Expression of hTDP-43 and time-dependent cell loss in tTA/TDP-WT12 mice. (AD) H&E sections of nTg (A) and tTA/TDP-WT12 (BD) brain revealed time-dependent hippocampal neuron loss in bigenic mice. Note the loss of DG neurons as indicated by arrowheads. (EL) Nuclear expression of hTDP-43. IHC for hTDP-43 (EH) and h+mTDP-43 (IL) showed mosaic nuclear expression of hTDP-43 in tTA/TDP-WT12 and a severe thinning of the DG cell layer after 3 to 6 months off Dox. Insets in EL display higher magnification of DG neurons. Scale bars: 500 μm (AD); 200 μm (EL). (M) Loss of DG neurons in tTA/TDP-WT12 mice. Quantification of DG neurons shows progressive neuron loss in tTA/TDP-WT12 mice. (N) Time-dependent brain atrophy in tTA/TDP-WT12 mice. There was a progressive reduction in total brain weight in tTA/TDP-WT12 mice. Data in M and N represent mean ± SEM (n = 3–4 per group). *Significantly different from nTg (P < 0.001); ###significantly different from 1 month off Dox (P < 0.001); #significantly different from 1 month off Dox (P < 0.05); significantly different from 3 months off Dox (P < 0.05).