Rejuvenating senescent and centenarian human cells by reprogramming through the pluripotent state
Laure Lapasset,Ollivier Milhavet,Alexandre Prieur,Emilie Besnard,Amélie Babled,Nafissa Aït-Hamou,Julia Leschik,Franck Pellestor,Jean-Marie Ramirez,John De Vos,Sylvain Lehmann,Jean-Marc Lemaitre +11 more
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TLDR
It is demonstrated that cellular senescence is not a limit to reprogramming and that age-related cellular physiology is reversible, and it is shown that senescent and centenarian-derived pluripotent stem cells are able to redifferentiate into fully rejuvenated cells.Abstract:
Direct reprogramming of somatic cells into induced pluripotent stem cells (iPSCs) provides a unique opportunity to derive patient-specific stem cells with potential applications in tissue replacement therapies and without the ethical concerns of human embryonic stem cells (hESCs). However, cellular senescence, which contributes to aging and restricted longevity, has been described as a barrier to the derivation of iPSCs. Here we demonstrate, using an optimized protocol, that cellular senescence is not a limit to reprogramming and that age-related cellular physiology is reversible. Thus, we show that our iPSCs generated from senescent and centenarian cells have reset telomere size, gene expression profiles, oxidative stress, and mitochondrial metabolism, and are indistinguishable from hESCs. Finally, we show that senescent and centenarian-derived pluripotent stem cells are able to redifferentiate into fully rejuvenated cells. These results provide new insights into iPSC technology and pave the way for regenerative medicine for aged patients.read more
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The role of senescent cells in ageing
TL;DR: A deeper understanding of the molecular mechanisms underlying the multi-step progression of senescence and the development and function of acute versus chronic senescent cells may lead to new therapeutic strategies for age-related pathologies and extend healthy lifespan.
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Stem cells: past, present, and future.
TL;DR: A wide variety of possibilities makes this cutting edge therapy a turning point in modern medicine, providing hope for untreatable diseases and challenges that stem cell therapy must overcome to be accepted worldwide.
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Aging of blood can be tracked by DNA methylation changes at just three CpG sites.
Carola I. Weidner,Qiong Lin,Carmen Maike Koch,Lewin Eisele,Fabian Beier,Patrick Ziegler,Dirk Bauerschlag,Karl-Heinz Jöckel,Raimund Erbel,Thomas W. Mühleisen,Thomas W. Mühleisen,Martin Zenke,Tim H. Brümmendorf,Wolfgang Wagner +13 more
TL;DR: The authors' epigenetic aging signature provides a simple biomarker to estimate the state of aging in blood that facilitates age predictions with a mean absolute deviation from chronological age of less than 5 years, and is higher than age predictions based on telomere length.
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Senescence and aging: Causes, consequences, and therapeutic avenues
TL;DR: The role ofsenescence in age-related diseases and how targeting senescence may improve health span and extend life span are reviewed.
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Cellular senescence and its effector programs
TL;DR: Some key features of senescence effectors are discussed and attempts are made to functionally link them when it is possible.
References
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Induction of Pluripotent Stem Cells from Adult Human Fibroblasts by Defined Factors
Kazutoshi Takahashi,Koji Tanabe,Mari Ohnuki,Megumi Narita,Tomoko Ichisaka,Kiichiro Tomoda,Shinya Yamanaka +6 more
TL;DR: It is demonstrated that iPS cells can be generated from adult human fibroblasts with the same four factors: Oct3/4, Sox2, Klf4, and c-Myc.
Journal ArticleDOI
Induced Pluripotent Stem Cell Lines Derived from Human Somatic Cells
Junying Yu,Maxim A. Vodyanik,Kim Smuga-Otto,Jessica Antosiewicz-Bourget,Jennifer L. Frane,Shulan Tian,Jeff Nie,Gudrun A. Jonsdottir,Victor Ruotti,Ron Stewart,Igor I. Slukvin,James A. Thomson +11 more
TL;DR: This article showed that OCT4, SOX2, NANOG, and LIN28 factors are sufficient to reprogram human somatic cells to pluripotent stem cells that exhibit the essential characteristics of embryonic stem (ES) cells.
Journal ArticleDOI
Cellular senescence: when bad things happen to good cells
TL;DR: Understanding the causes and consequences of cellular senescence has provided novel insights into how cells react to stress, especially genotoxic stress, and how this cellular response can affect complex organismal processes such as the development of cancer and ageing.
Supporting Online Material for Induced Pluripotent Stem Cell Lines Derived from Human Somatic Cells
Junying Yu,Maxim A. Vodyanik,Kim Smuga-Otto,Jessica Antosiewicz-Bourget,Jennifer L. Frane,Shulan Tian,Jeff Nie,Gudrun A. Jonsdottir,Victor Ruotti,Ron M. Stewart,Igor I. Slukvin,James A. Thomson +11 more
TL;DR: Yu et al. as discussed by the authors proposed online material for induced pluripotent stem cell lines derived from human Somatic Cells, which can be used for transplanting human stem cells to humans.
Journal ArticleDOI
Human Induced Pluripotent Stem Cells Free of Vector and Transgene Sequences
Junying Yu,Junying Yu,Kejin Hu,Kim Smuga-Otto,Kim Smuga-Otto,Shulan Tian,Shulan Tian,Ron Stewart,Ron Stewart,Igor I. Slukvin,James A. Thomson +10 more
TL;DR: Results demonstrate that reprograming human somatic cells does not require genomic integration or the continued presence of exogenous reprogramming factors and removes one obstacle to the clinical application of human iPS cells.