Cellular reprogramming and epigenetic rejuvenation

Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered preliminary evidence that slowing down and reversing the ageing process might be possible. However, these techniques usually involve complete dedi...

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Vydané v:Clinical epigenetics Ročník 13; číslo 1; s. 170
Hlavní autori: Simpson, Daniel J., Olova, Nelly N., Chandra, Tamir
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: London BioMed Central 06.09.2021
BioMed Central Ltd
Springer Nature B.V
Predmet:
Age
Aged
Aged, 80 and over
Aging
Aging - genetics
Biomedical and Life Sciences
Biomedicine
Cancer
Cellular Reprogramming - genetics
Cellular Senescence - genetics
Cloning
DNA Methylation - genetics
Epigenesis, Genetic
Epigenetic inheritance
Epigenetics
Epigenomics
Female
Fibroblasts
Gene expression
Gene Function
Genetic engineering
Human Genetics
Humans
Male
Morphology
Physiology
Pluripotency
Regenerative Medicine
Regenerative Medicine and Epigenetics
Rejuvenation - physiology
Review
Sheep
Stem cells
Telomerase
Cellular reprogramming
Epigenetic clocks
Ageing
Rejuvenation
Reprogramming-induced rejuvenation
Transient reprogramming
Epigenetic age
ISSN:1868-7075, 1868-7083, 1868-7083, 1868-7075
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Abstract Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered preliminary evidence that slowing down and reversing the ageing process might be possible. However, these techniques usually involve complete dedifferentiation, i.e. somatic cell identity is lost as cells are converted to a pluripotent state. Separating the rejuvenative properties of reprogramming from dedifferentiation is a promising prospect, termed epigenetic rejuvenation. Reprogramming-induced rejuvenation strategies currently involve using Yamanaka factors (typically transiently expressed to prevent full dedifferentiation) and are promising candidates to safely reduce biological age. Here, we review the development and potential of reprogramming-induced rejuvenation as an anti-ageing strategy.
AbstractList Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered preliminary evidence that slowing down and reversing the ageing process might be possible. However, these techniques usually involve complete dedifferentiation, i.e. somatic cell identity is lost as cells are converted to a pluripotent state. Separating the rejuvenative properties of reprogramming from dedifferentiation is a promising prospect, termed epigenetic rejuvenation. Reprogramming-induced rejuvenation strategies currently involve using Yamanaka factors (typically transiently expressed to prevent full dedifferentiation) and are promising candidates to safely reduce biological age. Here, we review the development and potential of reprogramming-induced rejuvenation as an anti-ageing strategy.
Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered preliminary evidence that slowing down and reversing the ageing process might be possible. However, these techniques usually involve complete dedifferentiation, i.e. somatic cell identity is lost as cells are converted to a pluripotent state. Separating the rejuvenative properties of reprogramming from dedifferentiation is a promising prospect, termed epigenetic rejuvenation. Reprogramming-induced rejuvenation strategies currently involve using Yamanaka factors (typically transiently expressed to prevent full dedifferentiation) and are promising candidates to safely reduce biological age. Here, we review the development and potential of reprogramming-induced rejuvenation as an anti-ageing strategy.Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered preliminary evidence that slowing down and reversing the ageing process might be possible. However, these techniques usually involve complete dedifferentiation, i.e. somatic cell identity is lost as cells are converted to a pluripotent state. Separating the rejuvenative properties of reprogramming from dedifferentiation is a promising prospect, termed epigenetic rejuvenation. Reprogramming-induced rejuvenation strategies currently involve using Yamanaka factors (typically transiently expressed to prevent full dedifferentiation) and are promising candidates to safely reduce biological age. Here, we review the development and potential of reprogramming-induced rejuvenation as an anti-ageing strategy.
Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered preliminary evidence that slowing down and reversing the ageing process might be possible. However, these techniques usually involve complete dedifferentiation, i.e. somatic cell identity is lost as cells are converted to a pluripotent state. Separating the rejuvenative properties of reprogramming from dedifferentiation is a promising prospect, termed epigenetic rejuvenation. Reprogramming-induced rejuvenation strategies currently involve using Yamanaka factors (typically transiently expressed to prevent full dedifferentiation) and are promising candidates to safely reduce biological age. Here, we review the development and potential of reprogramming-induced rejuvenation as an anti-ageing strategy. Keywords: Cellular reprogramming, Ageing, Rejuvenation, Epigenetic clocks, Transient reprogramming, Reprogramming-induced rejuvenation, Epigenetic age
ArticleNumber 170
Audience Academic
Author Simpson, Daniel J.
Olova, Nelly N.
Chandra, Tamir
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  organization: MRC Human Genetics Unit, MRC Institute of Genetics and Cancer, University of Edinburgh
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Issue 1
Keywords Cellular reprogramming
Epigenetic clocks
Ageing
Rejuvenation
Reprogramming-induced rejuvenation
Transient reprogramming
Epigenetic age
Language English
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springer_journals_10_1186_s13148_021_01158_7
PublicationCentury 2000
PublicationDate 20210906
PublicationDateYYYYMMDD 2021-09-06
PublicationDate_xml – month: 9
  year: 2021
  text: 20210906
  day: 6
PublicationDecade 2020
PublicationPlace London
PublicationPlace_xml – name: London
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PublicationTitle Clinical epigenetics
PublicationTitleAbbrev Clin Epigenet
PublicationTitleAlternate Clin Epigenetics
PublicationYear 2021
Publisher BioMed Central
BioMed Central Ltd
Springer Nature B.V
Publisher_xml – name: BioMed Central
– name: BioMed Central Ltd
– name: Springer Nature B.V
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Snippet Ageing is an inevitable condition that afflicts all humans. Recent achievements, such as the generation of induced pluripotent stem cells, have delivered...
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SubjectTerms Age
Aged
Aged, 80 and over
Aging
Aging - genetics
Biomedical and Life Sciences
Biomedicine
Cancer
Cellular Reprogramming - genetics
Cellular Senescence - genetics
Cloning
DNA Methylation - genetics
Epigenesis, Genetic
Epigenetic inheritance
Epigenetics
Epigenomics
Female
Fibroblasts
Gene expression
Gene Function
Genetic engineering
Human Genetics
Humans
Male
Morphology
Physiology
Pluripotency
Regenerative Medicine
Regenerative Medicine and Epigenetics
Rejuvenation - physiology
Review
Sheep
Stem cells
Telomerase
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Title Cellular reprogramming and epigenetic rejuvenation
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