Literature DB >> 24631682

Cell-based therapies for Huntington's disease.

Yiju Chen1, Richard L Carter2, In K Cho2, Anthony W S Chan3.   

Abstract

Cell-based therapies are a viable option for the long-term treatment of Huntington's disease (HD), which is characterized by progressive neurodegeneration predominately in the striatum and cortex. Current research focuses on genetic suppression of the mutant huntingtin (mHTT) gene and cell replacement therapy of the lost cells in HD. As we discuss here, the recent development of induced pluripotent stem (iPS) cells technology demonstrated the potential of cell-based therapy in rodent models. It was shown that iPSCs were capable of differentiating into lost neurons in HD and stem cell grafts can improve motor deficiency in HD rodent models. Altogether, these findings have shown great promise for developing the foundation of the cell-based therapy.
Copyright © 2014 Elsevier Ltd. All rights reserved.

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Year:  2014        PMID: 24631682      PMCID: PMC4082729          DOI: 10.1016/j.drudis.2014.02.012

Source DB:  PubMed          Journal:  Drug Discov Today        ISSN: 1359-6446            Impact factor:   7.851


  55 in total

Review 1.  Future directions in body magnetic resonance imaging.

Authors:  W Brian Hyslop; Richard C Semelka
Journal:  Top Magn Reson Imaging       Date:  2005-02

2.  RNA interference improves motor and neuropathological abnormalities in a Huntington's disease mouse model.

Authors:  Scott Q Harper; Patrick D Staber; Xiaohua He; Steven L Eliason; Inês H Martins; Qinwen Mao; Linda Yang; Robert M Kotin; Henry L Paulson; Beverly L Davidson
Journal:  Proc Natl Acad Sci U S A       Date:  2005-04-05       Impact factor: 11.205

3.  Human embryonic stem cell-derived GABA neurons correct locomotion deficits in quinolinic acid-lesioned mice.

Authors:  Lixiang Ma; Baoyang Hu; Yan Liu; Scott Christopher Vermilyea; Huisheng Liu; Lu Gao; Yan Sun; Xiaoqing Zhang; Su-Chun Zhang
Journal:  Cell Stem Cell       Date:  2012-03-15       Impact factor: 24.633

4.  Aggregation of huntingtin in neuronal intranuclear inclusions and dystrophic neurites in brain.

Authors:  M DiFiglia; E Sapp; K O Chase; S W Davies; G P Bates; J P Vonsattel; N Aronin
Journal:  Science       Date:  1997-09-26       Impact factor: 47.728

5.  Chronic expression of H-ferritin in dopaminergic midbrain neurons results in an age-related expansion of the labile iron pool and subsequent neurodegeneration: implications for Parkinson's disease.

Authors:  Deepinder Kaur; Subramanian Rajagopalan; Julie K Andersen
Journal:  Brain Res       Date:  2009-08-21       Impact factor: 3.252

6.  Therapeutic silencing of mutant huntingtin with siRNA attenuates striatal and cortical neuropathology and behavioral deficits.

Authors:  M DiFiglia; M Sena-Esteves; K Chase; E Sapp; E Pfister; M Sass; J Yoder; P Reeves; R K Pandey; K G Rajeev; M Manoharan; D W Y Sah; P D Zamore; N Aronin
Journal:  Proc Natl Acad Sci U S A       Date:  2007-10-16       Impact factor: 11.205

7.  Sustained effects of nonallele-specific Huntingtin silencing.

Authors:  Valérie Drouet; Valérie Perrin; Raymonde Hassig; Noëlle Dufour; Gwennaelle Auregan; Sandro Alves; Gilles Bonvento; Emmanuel Brouillet; Ruth Luthi-Carter; Philippe Hantraye; Nicole Déglon
Journal:  Ann Neurol       Date:  2009-03       Impact factor: 10.422

Review 8.  Normal huntingtin function: an alternative approach to Huntington's disease.

Authors:  Elena Cattaneo; Chiara Zuccato; Marzia Tartari
Journal:  Nat Rev Neurosci       Date:  2005-12       Impact factor: 34.870

9.  Fetal Brain-directed AAV Gene Therapy Results in Rapid, Robust, and Persistent Transduction of Mouse Choroid Plexus Epithelia.

Authors:  Marie Reine Haddad; Anthony Donsante; Patricia Zerfas; Stephen G Kaler
Journal:  Mol Ther Nucleic Acids       Date:  2013-06-25       Impact factor: 10.183

10.  Developmentally coordinated extrinsic signals drive human pluripotent stem cell differentiation toward authentic DARPP-32+ medium-sized spiny neurons.

Authors:  Alessia Delli Carri; Marco Onorati; Mariah J Lelos; Valentina Castiglioni; Andrea Faedo; Ramesh Menon; Stefano Camnasio; Romina Vuono; Paolo Spaiardi; Francesca Talpo; Mauro Toselli; Gianvito Martino; Roger A Barker; Stephen B Dunnett; Gerardo Biella; Elena Cattaneo
Journal:  Development       Date:  2013-01-15       Impact factor: 6.868
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  11 in total

Review 1.  Induced Pluripotent Stem Cells in Huntington's Disease: Disease Modeling and the Potential for Cell-Based Therapy.

Authors:  Ling Liu; Jin-Sha Huang; Chao Han; Guo-Xin Zhang; Xiao-Yun Xu; Yan Shen; Jie Li; Hai-Yang Jiang; Zhi-Cheng Lin; Nian Xiong; Tao Wang
Journal:  Mol Neurobiol       Date:  2015-12-10       Impact factor: 5.590

Review 2.  Drug discovery and development for rare genetic disorders.

Authors:  Wei Sun; Wei Zheng; Anton Simeonov
Journal:  Am J Med Genet A       Date:  2017-07-21       Impact factor: 2.802

Review 3.  Genetic engineered molecular imaging probes for applications in cell therapy: emphasis on MRI approach.

Authors:  In K Cho; Silun Wang; Hui Mao; Anthony Ws Chan
Journal:  Am J Nucl Med Mol Imaging       Date:  2016-09-22

Review 4.  Generation of genetically engineered non-human primate models of brain function and neurological disorders.

Authors:  Jung Eun Park; Afonso C Silva
Journal:  Am J Primatol       Date:  2018-12-26       Impact factor: 2.371

5.  Germline transmission in transgenic Huntington's disease monkeys.

Authors:  Sean Moran; Tim Chi; Melinda S Prucha; Kwang Sung Ahn; Fawn Connor-Stroud; Sherrie Jean; Kenneth Gould; Anthony W S Chan
Journal:  Theriogenology       Date:  2015-03-25       Impact factor: 2.740

Review 6.  Role of SIRT1 in autoimmune demyelination and neurodegeneration.

Authors:  Alvaro Martin; Cosmin A Tegla; Cornelia D Cudrici; Adam M Kruszewski; Philippe Azimzadeh; Dallas Boodhoo; Armugam P Mekala; Violeta Rus; Horea Rus
Journal:  Immunol Res       Date:  2015-03       Impact factor: 2.829

Review 7.  Advances in Stem Cell Research- A Ray of Hope in Better Diagnosis and Prognosis in Neurodegenerative Diseases.

Authors:  Shripriya Singh; Akriti Srivastava; Pranay Srivastava; Yogesh K Dhuriya; Ankita Pandey; Dipak Kumar; Chetan S Rajpurohit
Journal:  Front Mol Biosci       Date:  2016-11-08

Review 8.  Is there a place for human fetal-derived stem cells for cell replacement therapy in Huntington's disease?

Authors:  Sophie V Precious; Rike Zietlow; Stephen B Dunnett; Claire M Kelly; Anne E Rosser
Journal:  Neurochem Int       Date:  2017-01-27       Impact factor: 3.921

Review 9.  Huntington's Disease-An Outlook on the Interplay of the HTT Protein, Microtubules and Actin Cytoskeletal Components.

Authors:  Aleksandra S Taran; Lilia D Shuvalova; Maria A Lagarkova; Irina B Alieva
Journal:  Cells       Date:  2020-06-22       Impact factor: 6.600

10.  Intracerebral Transplantation of BDNF-overexpressing Human Neural Stem Cells (HB1.F3.BDNF) Promotes Migration, Differentiation and Functional Recovery in a Rodent Model of Huntington's Disease.

Authors:  Hyun Sook Kim; Iksoo Jeon; Jeong-Eun Noh; Hyunseung Lee; Kwan Soo Hong; Nayeon Lee; Zhong Pei; Jihwan Song
Journal:  Exp Neurobiol       Date:  2020-04-30       Impact factor: 3.261
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