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Literature DB >> 21489966

Gene therapy in mouse models of huntington disease.

Abstract

Huntingtin, the protein that when mutated causes Huntington disease (HD), has many known interactors and participates in diverse cellular functions. Mutant Htt (mHtt) engages in a variety of aberrant interactions that lead to pathological gain of toxic functions as well as loss of normal functions. The broad symptomatology of HD, including diminished voluntary motor control, cognitive decline, and psychiatric disturbances, reflects the multifaceted neuropathology. Although currently available therapies for HD focus on symptom management, the autosomal dominant cause and the adult onset make this disease an ideal candidate for genetic intervention. A variety of gene therapy approaches have been tested in mouse models of HD, ranging from those aimed at ameliorating downstream pathology or replacing lost neuronal populations to more upstream strategies to reduce mHtt levels. Here the authors review the results of these preclinical trials.

Entities: Chemical Disease Gene Species

Mesh：

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Year: 2011 PMID： 21489966 PMCID： PMC3131092 DOI： 10.1177/1073858410386236

Source DB: PubMed Journal: Neuroscientist ISSN： 1073-8584 Impact factor: 7.519

82 in total

1. CERE-110, an adeno-associated virus-based gene delivery vector expressing human nerve growth factor for the treatment of Alzheimer's disease.

Authors: Ronald J Mandel
Journal: Curr Opin Mol Ther Date: 2010-04

2. Motor abnormalities in premanifest persons with Huntington's disease: the PREDICT-HD study.

Authors: Kevin M Biglan; Christopher A Ross; Douglas R Langbehn; Elizabeth H Aylward; Julie C Stout; Sarah Queller; Noelle E Carlozzi; Kevin Duff; Leigh J Beglinger; Jane S Paulsen
Journal: Mov Disord Date: 2009-09-15 Impact factor: 10.338

Review 3. Progress and challenges in RNA interference therapy for Huntington disease.

Authors: Scott Q Harper
Journal: Arch Neurol Date: 2009-08

4. Striatal expression of a calmodulin fragment improved motor function, weight loss, and neuropathology in the R6/2 mouse model of Huntington's disease.

Authors: Ying Dai; Nichole L Dudek; Qian Li; Stephen C Fowler; Nancy A Muma
Journal: J Neurosci Date: 2009-09-16 Impact factor: 6.167

5. Harnessing chaperone-mediated autophagy for the selective degradation of mutant huntingtin protein.

Authors: Peter O Bauer; Anand Goswami; Hon Kit Wong; Misako Okuno; Masaru Kurosawa; Mizuki Yamada; Haruko Miyazaki; Gen Matsumoto; Yoshihiro Kino; Yoshitaka Nagai; Nobuyuki Nukina
Journal: Nat Biotechnol Date: 2010-02-28 Impact factor: 54.908

6. Brain-derived neurotrophic factor-mediated protection of striatal neurons in an excitotoxic rat model of Huntington's disease, as demonstrated by adenoviral gene transfer.

Authors: A P Bemelmans; P Horellou; L Pradier; I Brunet; P Colin; J Mallet
Journal: Hum Gene Ther Date: 1999-12-10 Impact factor: 5.695

7. Intrabody gene therapy ameliorates motor, cognitive, and neuropathological symptoms in multiple mouse models of Huntington's disease.

Authors: Amber L Southwell; Jan Ko; Paul H Patterson
Journal: J Neurosci Date: 2009-10-28 Impact factor: 6.167

8. Safety and tolerability of putaminal AADC gene therapy for Parkinson disease.

Authors: C W Christine; P A Starr; P S Larson; J L Eberling; W J Jagust; R A Hawkins; H F VanBrocklin; J F Wright; K S Bankiewicz; M J Aminoff
Journal: Neurology Date: 2009-10-14 Impact factor: 9.910

Review 9. Mitochondria in Huntington's disease.

Authors: Maria Damiano; Laurie Galvan; Nicole Déglon; Emmanuel Brouillet
Journal: Biochim Biophys Acta Date: 2009-08-11

10. Allele-selective inhibition of mutant huntingtin by peptide nucleic acid-peptide conjugates, locked nucleic acid, and small interfering RNA.

Authors: Jiaxin Hu; Masayuki Matsui; David R Corey
Journal: Ann N Y Acad Sci Date: 2009-09 Impact factor: 5.691

13 in total

Review 1. Engineered antibody therapies to counteract mutant huntingtin and related toxic intracellular proteins.

Authors: David C Butler; Julie A McLear; Anne Messer
Journal: Prog Neurobiol Date: 2011-11-18 Impact factor: 11.685

Review 2. Viral vector-based tools advance knowledge of basal ganglia anatomy and physiology.

Authors: Rachel J Sizemore; Sonja Seeger-Armbruster; Stephanie M Hughes; Louise C Parr-Brownlie
Journal: J Neurophysiol Date: 2016-02-17 Impact factor: 2.714

3. Therapeutics in Huntington's Disease.

Authors: Annie Killoran; Kevin M Biglan
Journal: Curr Treat Options Neurol Date: 2012-02-08 Impact factor: 3.598

Review 4. Novel siRNA delivery strategy: a new "strand" in CNS translational medicine?

Authors: Lisa Gherardini; Giuseppe Bardi; Mariangela Gennaro; Tommaso Pizzorusso
Journal: Cell Mol Life Sci Date: 2013-03-19 Impact factor: 9.261

Review 5. Mutant huntingtin, abnormal mitochondrial dynamics, defective axonal transport of mitochondria, and selective synaptic degeneration in Huntington's disease.

Authors: P Hemachandra Reddy; Ulziibat P Shirendeb
Journal: Biochim Biophys Acta Date: 2011-11-04

6. Succinobucol, a Lipid-Lowering Drug, Protects Against 3-Nitropropionic Acid-Induced Mitochondrial Dysfunction and Oxidative Stress in SH-SY5Y Cells via Upregulation of Glutathione Levels and Glutamate Cysteine Ligase Activity.

Authors: Dirleise Colle; Danúbia Bonfanti Santos; Juliana Montagna Hartwig; Marcelo Godoi; Daiane Fátima Engel; Andreza Fabro de Bem; Antonio L Braga; Marcelo Farina
Journal: Mol Neurobiol Date: 2015-01-27 Impact factor: 5.590