The goal of this research is to clone and characterize the DYT1 gene responsible for onset of torsion dystonia in childhood. This is a severely debilitating movement disorder inherited as an autosomal dominant condition with reduced penetrance. Disregulation of movement is believed to originate in the brain without apparent neuronal degeneration. Identification of this disease gene should help elucidate the pathogenesis of this and other forms of dystonia, which afflict 100,000 people in Northern America, and help illuminate molecular mechanisms of movement control in the basal ganglia. At this time all the genomic DNA and a number of cDNAs encoded in the critical region (350-10(X) kb) on chromosome 9q32 have been cloned. Cloned genomic sequences will be assembled into a contiguous stretch and transcribed sequences will be identified within it by """"""""exon amplification"""""""". Exons will be used to isolate cDNAs, which will be sequenced and evaluated for mutations. The search for incriminating mutations in the DYT1 gene will be carried out initially by PCR amplification and search for single strand conformational polymorphism (SSCPs) in exons from genomic DNA and in cDNAs generated by reverse transcriptase from patient's cells. Northern blot analysis will be undertaken to evaluate the distribution and size of the corresponding mRNAs in rat tissues and cultured cells from patients and controls. Genomic DNA in the critical region will also be searched for di-, tri- and tetranucleotide repeats which may expand in the disease state. Identification of a mutation will be followed by isolation of full length cDNAs, evaluation of exon structure and sequencing of candidate genes in affected individuals. Once the DYT1 gene identity has been confirmed, antibodies will be generated to deduced amino acid sequences and used in immunoblots and immunocytochemistry to evaluate the size and cellular localization of the encoded protein, dystonin. Our collaborator, Dr. Ann Graybiel (MIT), will evaluate the neuronal localization of this protein in basal ganglia in newborn and adult rat brains by immunocytochemistry an in situ hybridization. These studies should provide us with insights into the possible function of dystonin in the basal ganglia.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS028384-08
Application #
2635712
Study Section
Neurology C Study Section (NEUC)
Program Officer
Spinella, Giovanna M
Project Start
1991-01-01
Project End
2001-12-31
Budget Start
1998-01-01
Budget End
1998-12-31
Support Year
8
Fiscal Year
1998
Total Cost
Indirect Cost
Name
Massachusetts General Hospital
Department
Type
DUNS #
City
Boston
State
MA
Country
United States
Zip Code
02199
Jinnah, H A; Hess, Ellen J (2008) Experimental therapeutics for dystonia. Neurotherapeutics 5:198-209
Kock, Norman; Naismith, Teresa V; Boston, Heather E et al. (2006) Effects of genetic variations in the dystonia protein torsinA: identification of polymorphism at residue 216 as protein modifier. Hum Mol Genet 15:1355-64
Hewett, Jeffrey W; Zeng, Juan; Niland, Brian P et al. (2006) Dystonia-causing mutant torsinA inhibits cell adhesion and neurite extension through interference with cytoskeletal dynamics. Neurobiol Dis 22:98-111
Kock, Norman; Allchorne, Andrew J; Sena-Esteves, Miguel et al. (2006) RNAi blocks DYT1 mutant torsinA inclusions in neurons. Neurosci Lett 395:201-5
Siegert, S; Bahn, E; Kramer, M L et al. (2005) TorsinA expression is detectable in human infants as young as 4 weeks old. Brain Res Dev Brain Res 157:19-26
Sharma, Nutan; Baxter, Mark G; Petravicz, Jeremy et al. (2005) Impaired motor learning in mice expressing torsinA with the DYT1 dystonia mutation. J Neurosci 25:5351-5
Augood, Sarah J; Hollingsworth, Z; Albers, David S et al. (2004) Dopamine transmission in DYT1 dystonia. Adv Neurol 94:53-60
Hewett, Jeffrey W; Kamm, Christoph; Boston, Heather et al. (2004) TorsinB--perinuclear location and association with torsinA. J Neurochem 89:1186-94
Grandi, Paola; Wang, Samuel; Schuback, Deborah et al. (2004) HSV-1 virions engineered for specific binding to cell surface receptors. Mol Ther 9:419-27
Bragg, D C; Camp, S M; Kaufman, C A et al. (2004) Perinuclear biogenesis of mutant torsin-A inclusions in cultured cells infected with tetracycline-regulated herpes simplex virus type 1 amplicon vectors. Neuroscience 125:651-61

Showing the most recent 10 out of 56 publications