TDP-43 inclusions have been found in ∼97% ALS as well as an increasing spectrum of other neurodegenerative diseases including Alzheimer's. TDP-43 contains an ubiquitin-like fold, two RRMs and a prion-like domain, but whether they interact with each other remains unknown due to being intrinsically aggregation-prone. Nevertheless, this knowledge is pivotal to understanding physiological functions and pathological roles of TDP-43. Here as facilitated by our previous discovery which allowed NMR characterization of TDP-43 and its five dissected fragments, we successfully decoded that TDP-43 does have dynamic inter-domain interactions, which are coordinated by the intrinsically-disordered prion-like domain. Thus, TDP-43 appears to undergo conformational exchanges between "closed" and "open" states which are needed for its functions. Our study thus offers a mechanism by which cellular processes might control TDP-43 physiology and proteinopathy by mediating its inter-domain interactions.
Keywords: Amyotrophic lateral sclerosis (ALS); Frontotemporal dementia (FTD); Inter-domain interaction; NMR spectroscopy; Prion-like domain; TDP-43.
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