Literature DB >> 23921205

MicroRNAs in regulation of pluripotency and somatic cell reprogramming: small molecule with big impact.

Tian Wang1, San-bao Shi, Hong-ying Sha.   

Abstract

MicroRNAs (miRNAs), a group of small non-coding RNAs, have emerged as significant modulators in the establishment and generation of pluripotency, a developmental process that consists of complex cell-fate arrangements. The finding of embryonic stem cell (ESC) cycle-specific miRNAs reveals an important regulation scheme of pluripotency. Subsequent studies showed the ESC-enriched or ESC-depleted miRNAs can regulate induced pluripotent stem cells(iPSC). Moreover, miRNA profiling of iPSC and ESC may distinguish them from one another and facilitate the complex of regulatory network. The accumulative effects of miRNA action enable using miRNA alone to generate iPSCs. Despite the robustness of iPSC studies, further investigations are needed since miRNA may have more impact on induced pluripotency, and the roles of miRNAs in somatic cell nuclear transfer (SCNT), another approach toward cellular reprogramming, remains unclear. This point-of-view article will discuss miRNAs and their impact on the normal and induced pluripotency, as well as bring new insights on somatic cell reprogramming.

Keywords:  MicroRNAs; embryonic stem cells; induced pluripotent stem cells; pluripotency regulation; regenerative medicine; somatic cell nuclear transfer; somatic cell reprogramming

Mesh:

Substances:

Year:  2013        PMID: 23921205      PMCID: PMC3817145          DOI: 10.4161/rna.25828

Source DB:  PubMed          Journal:  RNA Biol        ISSN: 1547-6286            Impact factor:   4.652


  79 in total

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Authors:  Lin He; Gregory J Hannon
Journal:  Nat Rev Genet       Date:  2004-07       Impact factor: 53.242

2.  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

3.  Highly efficient miRNA-mediated reprogramming of mouse and human somatic cells to pluripotency.

Authors:  Frederick Anokye-Danso; Chinmay M Trivedi; Denise Juhr; Mudit Gupta; Zheng Cui; Ying Tian; Yuzhen Zhang; Wenli Yang; Peter J Gruber; Jonathan A Epstein; Edward E Morrisey
Journal:  Cell Stem Cell       Date:  2011-04-08       Impact factor: 24.633

4.  MiR-138 promotes induced pluripotent stem cell generation through the regulation of the p53 signaling.

Authors:  Dan Ye; Guiying Wang; Yang Liu; Wenfei Huang; Minjuan Wu; Songcheng Zhu; Wenwen Jia; An-Mei Deng; Houqi Liu; Jiuhong Kang
Journal:  Stem Cells       Date:  2012-08       Impact factor: 6.277

Review 5.  MicroRNA control of signal transduction.

Authors:  Masafumi Inui; Graziano Martello; Stefano Piccolo
Journal:  Nat Rev Mol Cell Biol       Date:  2010-03-10       Impact factor: 94.444

6.  Reprogramming of human somatic cells to pluripotency with defined factors.

Authors:  In-Hyun Park; Rui Zhao; Jason A West; Akiko Yabuuchi; Hongguang Huo; Tan A Ince; Paul H Lerou; M William Lensch; George Q Daley
Journal:  Nature       Date:  2007-12-23       Impact factor: 49.962

7.  Members of the miR-290 cluster modulate in vitro differentiation of mouse embryonic stem cells.

Authors:  Athanasios Zovoilis; Lukasz Smorag; Angeliki Pantazi; Wolfgang Engel
Journal:  Differentiation       Date:  2009-07-22       Impact factor: 3.880

8.  Embryonic stem cell-specific microRNAs promote induced pluripotency.

Authors:  Robert L Judson; Joshua E Babiarz; Monica Venere; Robert Blelloch
Journal:  Nat Biotechnol       Date:  2009-04-12       Impact factor: 54.908

9.  Dicer is essential for mouse development.

Authors:  Emily Bernstein; Sang Yong Kim; Michelle A Carmell; Elizabeth P Murchison; Heather Alcorn; Mamie Z Li; Alea A Mills; Stephen J Elledge; Kathryn V Anderson; Gregory J Hannon
Journal:  Nat Genet       Date:  2003-10-05       Impact factor: 38.330

10.  Selective blockade of microRNA processing by Lin28.

Authors:  Srinivas R Viswanathan; George Q Daley; Richard I Gregory
Journal:  Science       Date:  2008-02-21       Impact factor: 47.728
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  7 in total

Review 1.  MicroRNA-Mediated Reprogramming of Somatic Cells into Neural Stem Cells or Neurons.

Authors:  Hao Yang; Lingling Zhang; Jing An; Qian Zhang; Cuicui Liu; Baorong He; Ding-Jun Hao
Journal:  Mol Neurobiol       Date:  2016-09-22       Impact factor: 5.590

Review 2.  Neurodegenerative diseases in a dish: the promise of iPSC technology in disease modeling and therapeutic discovery.

Authors:  Y Z Xie; R X Zhang
Journal:  Neurol Sci       Date:  2014-10-30       Impact factor: 3.307

3.  MicroRNA dynamics at the onset of primordial germ and somatic cell sex differentiation during mouse embryonic gonad development.

Authors:  Eduardo Larriba; Jesús Del Mazo; Daniel Fernández-Pérez; Miguel A Brieño-Enríquez; Javier Isoler-Alcaraz
Journal:  RNA       Date:  2017-11-29       Impact factor: 4.942

4.  Micro RNAs and the biological clock: a target for diseases associated with a loss of circadian regulation.

Authors:  Qianwen Ma; Genlin Mo; Yong Tan
Journal:  Afr Health Sci       Date:  2020-12       Impact factor: 0.927

5.  Establishment of microRNA, transcript and protein regulatory networks in Alport syndrome induced pluripotent stem cells.

Authors:  Wenbiao Chen; Donge Tang; Yong Dai; Hongyan Diao
Journal:  Mol Med Rep       Date:  2018-11-20       Impact factor: 2.952

Review 6.  Cellular plasticity, caspases and autophagy; that which does not kill us, well, makes us different.

Authors:  Tin Tin Su
Journal:  Open Biol       Date:  2018-11-28       Impact factor: 6.411

7.  The Role of MicroRNAs in Early Chondrogenesis of Human Induced Pluripotent Stem Cells (hiPSCs).

Authors:  Ewelina Stelcer; Katarzyna Kulcenty; Marcin Rucinski; Karol Jopek; Magdalena Richter; Tomasz Trzeciak; Wiktoria Maria Suchorska
Journal:  Int J Mol Sci       Date:  2019-09-05       Impact factor: 5.923
  7 in total

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