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Zinc-Finger Nuclease- Mediated Repair of Disease-Causing Triplet CAG Repeats

$223,797R21FY2013NSNIH

Virginia Polytechnic Inst And St Univ, Blacksburg VA

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Abstract

DESCRIPTION (provided by applicant): Huntington's disease (HD) is a variable onset neurodegenerative disorder caused by the expansion of a CAG repeat sequence in the first exon of the HTT gene. The repeat is polymorphic, especially in the striatum and cortex; and encodes a polyglutamine tract that is the pathological basis for neuronal toxicity and death. There is currently no cure for this devastating disorder. CAG repeat length in this dominant disorder principally determines the onset and severity of HD starting with repetitions that exceed 35-39 CAG repeats. Reducing neuronal toxicity and death by directly targeting the CAG repeat tract would be expected to reduce the severity or at least delay the onset of HD and other triplet repeat disorders. The proposed studies focus directly on the expanded CAG repeat tract as the target of therapy and seek to permanently disrupt or shrink the expanded CAG repeat at the genomic level. To achieve this goal, zinc finger nucleases (ZFNs) will be used to direct DSBs specifically to the expanded HTT repeat allele, with the intent of either shrinking the repeat to benign lengths or eliminating its expression through the induction of frame-shifting indels. In the first aim, this ZFN- based therapy will be tested in primary cells derived from a Huntington's patient. Next-generation sequencing will be used to determine the full spectrum of ZFN-induced changes to the HTT repeat. In conclusion, the proposed research will test key aspects of a ZFN-mediated treatment strategy for shrinking or disrupting expanded CAG repeat alleles that induce neurodegeneration and lead to Huntington's disease and other neurological disorders.

View original record on NIH RePORTER →