Citations to this article

TorsinA hypofunction causes abnormal twisting movements and sensorimotor circuit neurodegeneration
Chun-Chi Liang, … , Frank Chi, William T. Dauer
Chun-Chi Liang, … , Frank Chi, William T. Dauer
Published June 17, 2014
Citation Information: J Clin Invest. 2014;124(7):3080-3092. https://doi.org/10.1172/JCI72830.
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TorsinA hypofunction causes abnormal twisting movements and sensorimotor circuit neurodegeneration

Abstract

Lack of a preclinical model of primary dystonia that exhibits dystonic-like twisting movements has stymied identification of the cellular and molecular underpinnings of the disease. The classical familial form of primary dystonia is caused by the DYT1 (ΔE) mutation in TOR1A, which encodes torsinA, AAA+ ATPase resident in the lumen of the endoplasmic reticular/nuclear envelope. Here, we found that conditional deletion of Tor1a in the CNS (nestin-Cre Tor1aflox/–) or isolated CNS expression of DYT1 mutant torsinA (nestin-Cre Tor1aflox/ΔE) causes striking abnormal twisting movements. These animals developed perinuclear accumulation of ubiquitin and the E3 ubiquitin ligase HRD1 in discrete sensorimotor regions, followed by neurodegeneration that was substantially milder in nestin-Cre Tor1aflox/ΔE compared with nestin-Cre Tor1aflox/– animals. Similar to the neurodevelopmental onset of DYT1 dystonia in humans, the behavioral and histopathological abnormalities emerged and became fixed during CNS maturation in the murine models. Our results establish a genetic model of primary dystonia that is overtly symptomatic, and link torsinA hypofunction to neurodegeneration and abnormal twisting movements. These findings provide a cellular and molecular framework for how impaired torsinA function selectively disrupts neural circuits and raise the possibility that discrete foci of neurodegeneration may contribute to the pathogenesis of DYT1 dystonia.

Authors

Chun-Chi Liang, Lauren M. Tanabe, Stephanie Jou, Frank Chi, William T. Dauer

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Citations to this article in year 2016 (17)

Title and authors Publication Year
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Torsin ATPases: structural insights and functional perspectives
E Laudermilch, C Schlieker 		Current Opinion in Cell Biology 2016
Structures of TorsinA and its disease-mutant complexed with an activator reveal the molecular basis for primary dystonia: ( A ) Schematic diagrams of TorsinA and LULL1. Important residues and sequence motifs are indicated. The colored areas mark the crystallized segments. Large and small domains of TorsinA are colored in purple and pink, respectively. SS, signal sequence; H, hydrophobic region; TM, transmembrane helix. ( B ) Cartoon representation of the TorsinA-LULL1 complex in two orientations. Color-coding as in ( A ). A nanobody (VHH-BS2, grey; complementarity determining regions, red) was used as a crystallization chaperone. Numbers refer to secondary structure elements. ( C ) Close-up of the ATP binding site. Key residues are labeled. 2F o −F c electron density contoured at 2σ displayed as grey mesh. ( D ) Close-up of the proximal cysteines 280 and 319 next to the adenine base of the bound ATP. 2F o −F c electron density is contoured at 1σ. The cysteine pair adopts three alternate conformations, but remains reduced in all of them
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Disruption of Protein Processing in the Endoplasmic Reticulum of DYT1 Knock-in Mice Implicates Novel Pathways in Dystonia Pathogenesis
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