Abstract

Huntington's disease (HD) is the most prevalent autosomal dominant, trinucleotide repeat neurodegenerative disease. The huntingtin (htt) gene encodes a protein of 350 kD; the disease-causing mutation causes an expansion of an amino-terminal polyglutamine repeat of more than 36 successive glutamines. Our broad research goal is to understand the molecular basis of HD pathogenesis, to target therapy. Because Huntington's disease is an inherited disease, we expect that the mutant allele will differ from wild-type by at least a single nucleotide polymorphism (SNP). Our core idea is that RNA silencing could be used) to selectively reduce mutant htt production and thereby slow or block neuronal dysfunction and death in HD disease. We propose 5 Aims.
Aim 1 will identify all the SNPs present in the htt mRNA, to identify those SNP9 to which SNP-selective siRMAs can be designed.
Aim 2 will develop SNP-selective siRNAs and then study their efficacy in cell models: luciferase reporter assays in HeLa cells, X-57 immortalized neuronal cells transfected with human htt, and primary striatal and cortical neurons expressing human htt through lentiviral transduction. Effects of htt RNAi on molecular correlates of HD pathogenesis (htt fragment accumulation, htt aggregation and autophagy) will be measured.
Aim 3 will examine the effectiveness of siRNAs directed against htt mRNA that are not SNPselective. Off-target effects of htt siRNAs will be studied.
Aim 4 will pursue an alternative strategy to block. htt mRNA, by creating a molecular tether that recruits miRNA to target rriRNAs.
Aim 5 will iesi the most active, SNP-selective siRNA in mouse models of Huntington's disease, through delivery of conjugated htt siRNAs and lentivirus htt shRNA. HD molecular correlates, neurophysiology and behavior will be measured. Preliminary and published studies support each of the aims, including development of htt SNP-selective hyper functional siRNAs, delivery of siRNAs to primary neurons, and molecular and whole animal endpoints.
These aims are expected to provide HD therapy and insights into molecular correlates that mark its pathogenesis.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS038194-09
Application #
7454318
Study Section
Special Emphasis Panel (ZRG1-CDIN (01))
Program Officer
Sutherland, Margaret L
Project Start
1999-07-01
Project End
2010-06-30
Budget Start
2008-07-01
Budget End
2009-06-30
Support Year
9
Fiscal Year
2008
Total Cost
$334,382
Indirect Cost

  Institution

Name
University of Massachusetts Medical School Worcester
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
603847393
City
Worcester
State
MA
Country
United States
Zip Code
01655

  Publications

Pfister, Edith L; Chase, Kathryn O; Sun, Huaming et al. (2017) Safe and Efficient Silencing with a Pol II, but Not a Pol lII, Promoter Expressing an Artificial miRNA Targeting Human Huntingtin. Mol Ther Nucleic Acids 7:324-334
Haraszti, Reka A; Coles, Andrew; Aronin, Neil et al. (2017) Loading of Extracellular Vesicles with Chemically Stabilized Hydrophobic siRNAs for the Treatment of Disease in the Central Nervous System. Bio Protoc 7:
Nikan, Mehran; Osborn, Maire F; Coles, Andrew H et al. (2017) Synthesis and Evaluation of Parenchymal Retention and Efficacy of a Metabolically Stable O-Phosphocholine-N-docosahexaenoyl-l-serine siRNA Conjugate in Mouse Brain. Bioconjug Chem 28:1758-1766
Alterman, Julia F; Coles, Andrew H; Hall, Lauren M et al. (2017) A High-throughput Assay for mRNA Silencing in Primary Cortical Neurons in vitro with Oligonucleotide Therapeutics. Bio Protoc 7:
Romo, Lindsay; Ashar-Patel, Ami; Pfister, Edith et al. (2017) Alterations in mRNA 3' UTR Isoform Abundance Accompany Gene Expression Changes in Human Huntington's Disease Brains. Cell Rep 20:3057-3070
Didiot, Marie-Cécile; Hall, Lauren M; Coles, Andrew H et al. (2016) Exosome-mediated Delivery of Hydrophobically Modified siRNA for Huntingtin mRNA Silencing. Mol Ther 24:1836-1847
Coles, Andrew H; Osborn, Maire F; Alterman, Julia F et al. (2016) A High-Throughput Method for Direct Detection of Therapeutic Oligonucleotide-Induced Gene Silencing In Vivo. Nucleic Acid Ther 26:86-92
Liu, Wanzhao; Pfister, Edith L; Kennington, Lori A et al. (2016) Does the Mutant CAG Expansion in Huntingtin mRNA Interfere with Exonucleolytic Cleavage of its First Exon? J Huntingtons Dis 5:33-8
Choudhury, Sourav R; Harris, Anne F; Cabral, Damien J et al. (2016) Widespread Central Nervous System Gene Transfer and Silencing After Systemic Delivery of Novel AAV-AS Vector. Mol Ther 24:726-35
Vodicka, Petr; Mo, Shunyan; Tousley, Adelaide et al. (2015) Mass Spectrometry Analysis of Wild-Type and Knock-in Q140/Q140 Huntington's Disease Mouse Brains Reveals Changes in Glycerophospholipids Including Alterations in Phosphatidic Acid and Lyso-Phosphatidic Acid. J Huntingtons Dis 4:187-201

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