Abstract
The identification of pathologic TDP-43 aggregates in amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration, followed by the discovery of dominantly inherited point mutations in TDP-43 in familial ALS, have been critical insights into the mechanism of these untreatable neurodegenerative diseases. However, the biochemical basis of TDP-43 aggregation and the mechanism of how mutations in TDP-43 lead to disease remain enigmatic. In efforts to understand how TDP-43 alters its cellular localization in response to proteotoxic stress, we found that TDP-43 is sequestered into polyglutamine aggregates. Furthermore, we found that binding to polyglutamine aggregates requires a previously uncharacterized glutamine/asparagine (Q/N)-rich region in the C-terminal domain of TDP-43. Sequestration into polyglutamine aggregates causes TDP-43 to be cleared from the nucleus and become detergent-insoluble. Finally, we observed that sequestration into polyglutamine aggregates led to loss of TDP-43-mediated splicing in the nucleus and that polyglutamine toxicity could be partially rescued by increasing expression of TDP-43. These data indicate pathologic sequestration into polyglutamine aggregates, and loss of nuclear TDP-43 function may play an unexpected role in polyglutamine disease pathogenesis. Furthermore, as Q/N domains have a strong tendency to self-aggregate and in some cases can function as prions, the identification of a Q/N domain in TDP-43 has important implications for the mechanism of pathologic aggregation of TDP-43 in ALS and other neurodegenerative diseases.
Highlights
Gates in amyotrophic lateral sclerosis (ALS) and frontotemporal lobar degeneration (FTLD)4 [1]
Translocation to the cytosol and sequestration of TDP-43 were specific to polyglutamine inclusions, as ubiquitinated cytoplasmic aggregates of dynactin-G59S or caveolin 3-P104L did not alter the localization of endogenous TDP-43 (Fig. 1, D–G)
Colocalization of TDP-43 with polyglutamine inclusions was recently reported in cortical neurons from patients with Huntington disease, supporting that binding of TDP-43 to polyglutamine aggregates occurs in vivo [10]
Summary
Constructs, and Live Cell Imaging—PolyQ19-CFP and polyQ80-CFP, FLAG-tagged human TDP-43 fused to pCherry, and Htt-Q72 and Htt-Q25 YFP/CFP constructs were previously described (26 –28). Fluorescence Resonance Energy Transfer Assays—For FRET experiments, 150,000 cells/cm (HEK293) or 50,000 cells/cm (HeLa) were seeded in 24-multiwell plates and grown for 24 h in growth media containing no antibiotics. For dose-response experiments, FRET data were represented as percentage to the FRET/donor value from transfected cells at the higher Cherry plasmid dose. Cells were transfected with FuGENE 6 reagent in a 1:3 (g/l) ratio using 250 ng of Cherry-bearing construct plasmid and 250 ng of Q80-CFP plasmid, and the cells were grown for an additional 48 h. Using an automated XY stage (Prior) controlled with Metamorph software (Molecular Devices), the same fields were imaged at 72 h, and the percentage of Cherry-positive cells initially present at 24 h was determined for duplicate wells.
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