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Literature DB >> 22652035

Direct lineage reprogramming to neural cells.

Janghwan Kim¹, Rajesh Ambasudhan, Sheng Ding.

Abstract

Recently we have witnessed an array of studies on direct reprogramming that describe induced inter conversion of mature cell types from higher organisms including human. While these studies reveal an unexpected level of plasticity of differentiated somatic cells, they also provide unprecedented opportunities to develop regenerative therapies for many debilitating disorders and model these 'diseases-in-a-dish' for studying their pathophysiology. Here we review the current state of the art in direct lineage reprogramming to neural cells, and discuss the challenges that need to be addressed toward achieving the full potential of this exciting new technology. Published by Elsevier Ltd.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2012 PMID： 22652035 PMCID： PMC4945246 DOI： 10.1016/j.conb.2012.05.001

Source DB: PubMed Journal: Curr Opin Neurobiol ISSN： 0959-4388 Impact factor: 6.627

44 in total

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Journal: Curr Biol Date: 2005-06-21 Impact factor: 10.834

3. Generation of rat and human induced pluripotent stem cells by combining genetic reprogramming and chemical inhibitors.

Authors: Wenlin Li; Wei Wei; Saiyong Zhu; Jinliang Zhu; Yan Shi; Tongxiang Lin; Ergeng Hao; Alberto Hayek; Hongkui Deng; Sheng Ding
Journal: Cell Stem Cell Date: 2008-12-18 Impact factor: 24.633

Review 4. Cell fate plug and play: direct reprogramming and induced pluripotency.

Authors: Stuart M Chambers; Lorenz Studer
Journal: Cell Date: 2011-06-10 Impact factor: 41.582

5. Direct reprogramming of fibroblasts into neural stem cells by defined factors.

Authors: Dong Wook Han; Natalia Tapia; Andreas Hermann; Kathrin Hemmer; Susanne Höing; Marcos J Araúzo-Bravo; Holm Zaehres; Guangming Wu; Stefan Frank; Sören Moritz; Boris Greber; Ji Hun Yang; Hoon Taek Lee; Jens C Schwamborn; Alexander Storch; Hans R Schöler
Journal: Cell Stem Cell Date: 2012-03-22 Impact factor: 24.633

6. Nuclear reprogramming of somatic cells by in vitro hybridization with ES cells.

Authors: M Tada; Y Takahama; K Abe; N Nakatsuji; T Tada
Journal: Curr Biol Date: 2001-10-02 Impact factor: 10.834

7. Reprogramming of human primary somatic cells by OCT4 and chemical compounds.

Authors: Saiyong Zhu; Wenlin Li; Hongyan Zhou; Wanguo Wei; Rajesh Ambasudhan; Tongxiang Lin; Janghwan Kim; Kang Zhang; Sheng Ding
Journal: Cell Stem Cell Date: 2010-12-03 Impact factor: 24.633

8. A chemical platform for improved induction of human iPSCs.

Authors: Tongxiang Lin; Rajesh Ambasudhan; Xu Yuan; Wenlin Li; Simon Hilcove; Ramzey Abujarour; Xiangyi Lin; Heung Sik Hahm; Ergeng Hao; Alberto Hayek; Sheng Ding
Journal: Nat Methods Date: 2009-10-18 Impact factor: 28.547

9. A Caenorhabditis elegans model for epithelial-neuronal transdifferentiation.

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10. Glial cells generate neurons: the role of the transcription factor Pax6.

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Journal: Nat Neurosci Date: 2002-04 Impact factor: 24.884

28 in total

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Journal: Nat Neurosci Date: 2013-01-06 Impact factor: 24.884

Review 4. Concise review: chemical approaches for modulating lineage-specific stem cells and progenitors.

Authors: Tao Xu; Mingliang Zhang; Timothy Laurent; Min Xie; Sheng Ding
Journal: Stem Cells Transl Med Date: 2013-04-11 Impact factor: 6.940

Review 5. Potential for cell therapy in Parkinson's disease using genetically programmed human embryonic stem cell-derived neural progenitor cells.

Authors: Rajesh Ambasudhan; Nima Dolatabadi; Anthony Nutter; Eliezer Masliah; Scott R Mckercher; Stuart A Lipton
Journal: J Comp Neurol Date: 2014-05-07 Impact factor: 3.215

6. Human dental stem cell derived transgene-free iPSCs generate functional neurons via embryoid body-mediated and direct induction methods.

Authors: Ikbale El Ayachi; Jun Zhang; Xiao-Ying Zou; Dong Li; Zongdong Yu; Wei Wei; Kristen M S O'Connell; George T-J Huang
Journal: J Tissue Eng Regen Med Date: 2018-01-17 Impact factor: 3.963