Transgenic mouse model of early-onset DYT1 dystonia

Shashidharan, P.; Sandu, Daniela; Potla, U.; Armata, Ioanna A.; Walker, Ruth H.; McNaught, Kevin St. P.; Weisz, David; Sreenath, Taduru; Brin, Mitchell F.; Olanow, C. Warren

doi:10.1093/hmg/ddi012

Cited by 128 publications

(174 citation statements)

References 39 publications

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“…Imbalance in the striatal dopaminergic system is associated with generation of dystonic syndromes (Kuner et al, 2004). A transgenic mouse model of dystonia with severe behavioral abnormalities showed marked decrease in striatal dopamine levels (Shashidharan et al, 2005). Therefore, it is plausible that torsinA and torsinB play a role in the establishment of nigro-striate dopaminergic pathways.…”

Section: Discussionmentioning

confidence: 99%

“…Many mouse models of torsinA dysfunction have been generated, but each shows somewhat different phenotype (Goodchild and Dauer, 2004;Shashidharan et al, 2005;Sharma et al, 2005) emphasizing the difficulties associated with recapitulation of the disease in a mouse model. A prominent feature of the disorder is impaired motor coordination and motor learning, both of which require functional integration of multiple circuits such as frontoparietal and motor cortices, cerebellum and basal ganglia.…”

Section: Discussionmentioning

confidence: 99%

“…TorsinA mRNA and protein expression begins early in the prenatal period in the rodent and human brain (Xiao et al, 2004;Ferrari-Toninelli et al, 2004;Siegert et al, 2005). Transgenic mice overexpressing mutant human torsinA show motor abnormalities ranging from hyperkinesia to delayed motor learning, some of which begin in the early postnatal period (Goodchild and Dauer, 2004;Shashidharan et al, 2005;Sharma et al, 2005). Other reports indicate that DYT1 gene knockout mice die at birth (Dauer and Goodchild, 2004).…”

Section: Introductionmentioning

confidence: 99%

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Developmental patterns of torsinA and torsinB expression

2006

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Early onset torsion dystonia is characterized by involuntary movements and distorted postures and is usually caused by a 3-bp (GAG) deletion in the DYT1 (TOR1A) gene. DYT1 codes for torsinA, a member of the AAA + family of proteins, implicated in membrane recycling and chaperone functions. A close relative, torsinB may be involved in similar cellular functions. We investigated torsinA and torsinB message and protein levels in the developing mouse brain. TorsinA expression was highest during prenatal and early postnatal development (until postnatal day 14; P14), whereas torsinB expression was highest during late postnatal periods (from P14 onwards) and in the adult. In addition, significant regional variation in the expression of the two torsins was seen within the developing brain. Thus, torsinA expression was highest in the cerebral cortex from embryonic day 15 (E15)-E17 and in the striatum from E17-P7, while torsinB was highest in the cerebral cortex between P7-P14 and in the striatum from P7-P30. TorsinA was also highly expressed in the thalamus from P0-P7 and in the cerebellum from P7-P14. Although functional significance of the patterns of torsinA and B expression in the developing brain remains to be established, our findings provide a basis for investigating the role of torsins in specific processes such as neurogenesis, neuronal migration, axon/dendrite development, and synaptogenesis.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Developmental patterns of torsinA and torsinB expression

2006

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“…A variety of genetically modified mouse strains have been described that either over-express human mutant torsinA (Sharma et al, 2005;Shashidharan et al, 2005;Grundmann et al, 2007), are heterozygous for mouse mutant torsinA (Dang et al, 2005), or in which expression of endogenous torsinA is reduced (Goodchild et al, 2005;Dang et al, 2006). The recent paper by Zhao et al in Experimental Neurology (Zhao et al, 2008) characterizes anatomical, behavioral and biochemical features of one of the strains that over-express mutant human torsinA, hMT1 mice, which were generated by Sharma et al (Sharma et al, 2005).…”

Section: Animal Models For Dyt1 Dystoniamentioning

confidence: 99%

Commentary: Dopaminergic dysfunction in DYT1 dystonia

Wichmann

2008

Experimental Neurology

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A three-base-pair deletion in the torsinA gene leads to generalized torsion dystonia (DYT1) in humans, an often devastating movement disorder in which voluntary movements are disrupted by sustained muscle spasms and abnormal limb posturing. In a recent issue of Experimental Neurology, Zhao et al. (2008) have provided a thorough behavioral, anatomic, and biochemical characterization of a mouse line that over-expresses human mutant torsinA, with particular emphasis on the possible role of dopaminergic dysfunction in these animals. This commentary provides an overview of the clinical and genetic features of the human disease and of the available transgenic mouse models for DYT1 dystonia, and discusses the evidence favoring the role of dopamine in the clinical manifestations of the disease.

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“…Conversely, rodents may be more capable of compensating, and therefore loss of the protein may manifest as a lesser dysfunction compared to humans. Because the present genetic dystonia rodent models that have been generated are knock-ins, knockouts, or transgenics; the disrupted gene is present from conception [48,[57][58][59]. Embryonic alterations in gene expression may be able to compensate for the loss of gene in mice, but not in humans.…”

Section: Rodent Models Of Dystoniamentioning

confidence: 99%