TY - JOUR
T1 - Mouse model of rare TOR1A variant found in sporadic focal dystonia impairs domains affected in DYT1 dystonia patients and animal models
AU - Bhagat, Srishti L.
AU - Qiu, Sunny
AU - Caffall, Zachary F.
AU - Wan, Yehong
AU - Pan, Yuanji
AU - Rodriguiz, Ramona M.
AU - Wetsel, William C.
AU - Badea, Alexandra
AU - Hochgeschwender, Ute
AU - Calakos, Nicole
N1 - Funding Information:
The authors gratefully acknowledge financial support for this work by research grants from the Bachmann-Strauss Dystonia and Parkinson Foundation and Jake's Ride for Dystonia Research to N.C., the National Institutes of Health ( NS072707-01A1 to N.C.; K01AG041211-03 to A.B.; T32-746-GM007171 Medical Scientist Training Program to S.B.), Duke University (Duke Institute for Brain Sciences Incubator Award and Duke Core Facility Award to N.C.; Holland-Trice Fellowship to S.B.; Duke University Deans' Summer Research Fellowship and Duke University Undergraduate Research Assistantship to S.Q.), and the American Foundation for Pharmaceutical Education (Wakeman Fellowship to S.B.). We acknowledge use of the Duke University Center for In Vivo Microscopy (supported by NIH P41 EB 015897 and 1S10OD010683-01 ).
Publisher Copyright:
© 2016 Elsevier Inc.
PY - 2016/9/1
Y1 - 2016/9/1
N2 - Rare de novo mutations in genes associated with inherited Mendelian disorders are potential contributors to sporadic disease. DYT1 dystonia is an autosomal dominant, early-onset, generalized dystonia associated with an in-frame, trinucleotide deletion (n. delGAG, p. δE 302/303) in the Tor1a gene. Here we examine the significance of a rare missense variant in the Tor1a gene (c. 613T > A, p. F205I), previously identified in a patient with sporadic late-onset focal dystonia, by modeling it in mice. Homozygous F205I mice have motor impairment, reduced steady-state levels of TorsinA, altered corticostriatal synaptic plasticity, and prominent brain imaging abnormalities in areas associated with motor function. Thus, the F205I variant causes abnormalities in domains affected in people and/or mouse models with the DYT1 Tor1a mutation (δE). Our findings establish the pathological significance of the F205I Tor1a variant and provide a model with both etiological and phenotypic relevance to further investigate dystonia mechanisms.
AB - Rare de novo mutations in genes associated with inherited Mendelian disorders are potential contributors to sporadic disease. DYT1 dystonia is an autosomal dominant, early-onset, generalized dystonia associated with an in-frame, trinucleotide deletion (n. delGAG, p. δE 302/303) in the Tor1a gene. Here we examine the significance of a rare missense variant in the Tor1a gene (c. 613T > A, p. F205I), previously identified in a patient with sporadic late-onset focal dystonia, by modeling it in mice. Homozygous F205I mice have motor impairment, reduced steady-state levels of TorsinA, altered corticostriatal synaptic plasticity, and prominent brain imaging abnormalities in areas associated with motor function. Thus, the F205I variant causes abnormalities in domains affected in people and/or mouse models with the DYT1 Tor1a mutation (δE). Our findings establish the pathological significance of the F205I Tor1a variant and provide a model with both etiological and phenotypic relevance to further investigate dystonia mechanisms.
KW - Behavior
KW - DYT1 dystonia
KW - Diffusion tensor magnetic resonance imaging
KW - Long-term depression
KW - TorsinA
UR - http://www.scopus.com/inward/record.url?scp=84969247221&partnerID=8YFLogxK
U2 - 10.1016/j.nbd.2016.05.003
DO - 10.1016/j.nbd.2016.05.003
M3 - Article
C2 - 27168150
AN - SCOPUS:84969247221
SN - 0969-9961
VL - 93
SP - 137
EP - 145
JO - Neurobiology of Disease
JF - Neurobiology of Disease
ER -