MicroRNAs: Important Regulators of Induced Pluripotent Stem Cell Generation and Differentiation

Induced pluripotent stem (iPS) cells can differentiate into nearly all types of cells. In contrast to embryonic stem cells, iPS cells are not subject to immune rejection because they are derived from a patient’s own cells without ethical concerns. These cells can be used in regenerative medical tech...

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Published in	Stem cell reviews Vol. 14; no. 1; pp. 71 - 81
Main Authors	Zeng, Zhao-Lin, Lin, Xiao-long, Tan, Li-Lan, Liu, Ya-Mi, Qu, Kai, Wang, Zuo
Format	Journal Article
Language	English
Published	New York Springer US 01.02.2018 Springer Nature B.V
Subjects	Animals Biomedical and Life Sciences Biomedical Engineering and Bioengineering Cell Biology Cell Differentiation - genetics Cell Differentiation - physiology Drug development Drug discovery Embryo cells Ethics Humans Induced Pluripotent Stem Cells - cytology Induced Pluripotent Stem Cells - metabolism Life Sciences MicroRNAs MicroRNAs - genetics MicroRNAs - physiology miRNA Pluripotency Regenerative Medicine/Tissue Engineering Stem Cells Therapeutic applications Transcription factors Induced pluripotent stem cell Generation MicroRNA Differentiation
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Abstract	Induced pluripotent stem (iPS) cells can differentiate into nearly all types of cells. In contrast to embryonic stem cells, iPS cells are not subject to immune rejection because they are derived from a patient’s own cells without ethical concerns. These cells can be used in regenerative medical techniques, stem cell therapy, disease modelling and drug discovery investigations. However, this application faces many challenges, such as low efficiency, slow generation time, partially reprogrammed colonies and tumourigenicity. Numerous techniques have been formulated in the past decade to improve reprogramming efficiency and safety, including the use of different transcription factors, small molecule compounds and non-coding RNAs. Recently, microRNAs (miRNAs) were found to promote the generation and differentiation of iPS cells. The miRNAs can more effectively and safely generate iPS cells than transcription factors. This process ultimately leads to the development of iPSC-based therapeutics for future clinical applications. In this comprehensive review, we summarise advances in research and the application of iPS cells, as well as recent progress in the use of miRNAs for iPS cell generation and differentiation. We examine possible clinical applications, especially in cardiology.
AbstractList	Induced pluripotent stem (iPS) cells can differentiate into nearly all types of cells. In contrast to embryonic stem cells, iPS cells are not subject to immune rejection because they are derived from a patient's own cells without ethical concerns. These cells can be used in regenerative medical techniques, stem cell therapy, disease modelling and drug discovery investigations. However, this application faces many challenges, such as low efficiency, slow generation time, partially reprogrammed colonies and tumourigenicity. Numerous techniques have been formulated in the past decade to improve reprogramming efficiency and safety, including the use of different transcription factors, small molecule compounds and non-coding RNAs. Recently, microRNAs (miRNAs) were found to promote the generation and differentiation of iPS cells. The miRNAs can more effectively and safely generate iPS cells than transcription factors. This process ultimately leads to the development of iPSC-based therapeutics for future clinical applications. In this comprehensive review, we summarise advances in research and the application of iPS cells, as well as recent progress in the use of miRNAs for iPS cell generation and differentiation. We examine possible clinical applications, especially in cardiology.Induced pluripotent stem (iPS) cells can differentiate into nearly all types of cells. In contrast to embryonic stem cells, iPS cells are not subject to immune rejection because they are derived from a patient's own cells without ethical concerns. These cells can be used in regenerative medical techniques, stem cell therapy, disease modelling and drug discovery investigations. However, this application faces many challenges, such as low efficiency, slow generation time, partially reprogrammed colonies and tumourigenicity. Numerous techniques have been formulated in the past decade to improve reprogramming efficiency and safety, including the use of different transcription factors, small molecule compounds and non-coding RNAs. Recently, microRNAs (miRNAs) were found to promote the generation and differentiation of iPS cells. The miRNAs can more effectively and safely generate iPS cells than transcription factors. This process ultimately leads to the development of iPSC-based therapeutics for future clinical applications. In this comprehensive review, we summarise advances in research and the application of iPS cells, as well as recent progress in the use of miRNAs for iPS cell generation and differentiation. We examine possible clinical applications, especially in cardiology. Induced pluripotent stem (iPS) cells can differentiate into nearly all types of cells. In contrast to embryonic stem cells, iPS cells are not subject to immune rejection because they are derived from a patient’s own cells without ethical concerns. These cells can be used in regenerative medical techniques, stem cell therapy, disease modelling and drug discovery investigations. However, this application faces many challenges, such as low efficiency, slow generation time, partially reprogrammed colonies and tumourigenicity. Numerous techniques have been formulated in the past decade to improve reprogramming efficiency and safety, including the use of different transcription factors, small molecule compounds and non-coding RNAs. Recently, microRNAs (miRNAs) were found to promote the generation and differentiation of iPS cells. The miRNAs can more effectively and safely generate iPS cells than transcription factors. This process ultimately leads to the development of iPSC-based therapeutics for future clinical applications. In this comprehensive review, we summarise advances in research and the application of iPS cells, as well as recent progress in the use of miRNAs for iPS cell generation and differentiation. We examine possible clinical applications, especially in cardiology.
Author	Tan, Li-Lan Qu, Kai Lin, Xiao-long Zeng, Zhao-Lin Liu, Ya-Mi Wang, Zuo
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Snippet	Induced pluripotent stem (iPS) cells can differentiate into nearly all types of cells. In contrast to embryonic stem cells, iPS cells are not subject to immune...
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SubjectTerms	Animals Biomedical and Life Sciences Biomedical Engineering and Bioengineering Cell Biology Cell Differentiation - genetics Cell Differentiation - physiology Drug development Drug discovery Embryo cells Ethics Humans Induced Pluripotent Stem Cells - cytology Induced Pluripotent Stem Cells - metabolism Life Sciences MicroRNAs MicroRNAs - genetics MicroRNAs - physiology miRNA Pluripotency Regenerative Medicine/Tissue Engineering Stem Cells Therapeutic applications Transcription factors
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Title	MicroRNAs: Important Regulators of Induced Pluripotent Stem Cell Generation and Differentiation
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