Literature DB >> 23257053

Implications of long-term culture for mesenchymal stem cells: genetic defects or epigenetic regulation?

Wolfgang Wagner.   

Abstract

Mesenchymal stem cells change dramatically during culture expansion. Long-term culture has been suspected to evoke oncogenic transformation: overall, the genome appears to be relatively stable throughout culture but transient clonal aneuploidies have been observed. Oncogenic transformation does not necessarily entail growth advantage in vitro and, therefore, the available methods - such as karyotypic analysis or genomic profiling - cannot exclude this risk. On the other hand, long-term culture is associated with specific senescence-associated DNA methylation (SA-DNAm) changes, particularly in developmental genes. SA-DNAm changes are highly reproducible and can be used to monitor the state of senescence for quality control. Notably, neither telomere attrition nor SA-DNAm changes occur in pluripotent stem cells, which can evade the 'Hayflick limit'. Long-term culture of mesenchymal stem cells seems to involve a tightly regulated epigenetic program. These epigenetic modifications may counteract dominant clones, which are more prone to transformation.

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Year:  2012        PMID: 23257053      PMCID: PMC3580484          DOI: 10.1186/scrt145

Source DB:  PubMed          Journal:  Stem Cell Res Ther        ISSN: 1757-6512            Impact factor:   6.832


  10 in total

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Authors:  Carmen M Koch; Sylvia Joussen; Anne Schellenberg; Qiong Lin; Martin Zenke; Wolfgang Wagner
Journal:  Aging Cell       Date:  2012-01-19       Impact factor: 9.304

2.  Spontaneous malignant transformation of human mesenchymal stem cells reflects cross-contamination: putting the research field on track - letter.

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Journal:  Cancer Res       Date:  2010-07-14       Impact factor: 12.701

3.  Pitfalls in spontaneous in vitro transformation of human mesenchymal stem cells.

Authors:  S Garcia; A Bernad; M C Martín; J C Cigudosa; J Garcia-Castro; R de la Fuente
Journal:  Exp Cell Res       Date:  2010-02-18       Impact factor: 3.905

4.  Rejuvenating senescent and centenarian human cells by reprogramming through the pluripotent state.

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Journal:  Genes Dev       Date:  2011-11-01       Impact factor: 11.361

5.  Human bone marrow derived mesenchymal stem cells do not undergo transformation after long-term in vitro culture and do not exhibit telomere maintenance mechanisms.

Authors:  Maria Ester Bernardo; Nadia Zaffaroni; Francesca Novara; Angela Maria Cometa; Maria Antonietta Avanzini; Antonia Moretta; Daniela Montagna; Rita Maccario; Raffaella Villa; Maria Grazia Daidone; Orsetta Zuffardi; Franco Locatelli
Journal:  Cancer Res       Date:  2007-10-01       Impact factor: 12.701

6.  Clinical-grade production of human mesenchymal stromal cells: occurrence of aneuploidy without transformation.

Authors:  Karin Tarte; Julien Gaillard; Jean-Jacques Lataillade; Loic Fouillard; Martine Becker; Hossein Mossafa; Andrei Tchirkov; Hélène Rouard; Catherine Henry; Marie Splingard; Joelle Dulong; Delphine Monnier; Patrick Gourmelon; Norbert-Claude Gorin; Luc Sensebé
Journal:  Blood       Date:  2009-12-23       Impact factor: 22.113

7.  From cytogenomic to epigenomic profiles: monitoring the biologic behavior of in vitro cultured human bone marrow mesenchymal stem cells.

Authors:  Serena Redaelli; Angela Bentivegna; Dana Foudah; Mariarosaria Miloso; Juliana Redondo; Gabriele Riva; Simona Baronchelli; Leda Dalprà; Giovanni Tredici
Journal:  Stem Cell Res Ther       Date:  2012-11-20       Impact factor: 6.832

8.  Pluripotent stem cells escape from senescence-associated DNA methylation changes.

Authors:  Carmen M Koch; Kristina Reck; Kaifeng Shao; Qiong Lin; Sylvia Joussen; Patrick Ziegler; Gudrun Walenda; Wolf Drescher; Bertram Opalka; Tobias May; Tim Brümmendorf; Martin Zenke; Tomo Saric; Wolfgang Wagner
Journal:  Genome Res       Date:  2012-10-18       Impact factor: 9.043

9.  Replicative senescence of mesenchymal stem cells causes DNA-methylation changes which correlate with repressive histone marks.

Authors:  Anne Schellenberg; Qiong Lin; Herdit Schüler; Carmen M Koch; Sylvia Joussen; Bernd Denecke; Gudrun Walenda; Norbert Pallua; Christoph V Suschek; Martin Zenke; Wolfga Wagner
Journal:  Aging (Albany NY)       Date:  2011-09       Impact factor: 5.682

10.  DNA methylation pattern changes upon long-term culture and aging of human mesenchymal stromal cells.

Authors:  Simone Bork; Stefan Pfister; Hendrik Witt; Patrick Horn; Bernhard Korn; Anthony D Ho; Wolfgang Wagner
Journal:  Aging Cell       Date:  2009-11-06       Impact factor: 9.304
  10 in total
  13 in total

Review 1.  From skeletal development to the creation of pluripotent stem cell-derived bone-forming progenitors.

Authors:  Wai Long Tam; Frank P Luyten; Scott J Roberts
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2018-07-05       Impact factor: 6.237

2.  Engineered Mesenchymal Stem Cells as an Anti-Cancer Trojan Horse.

Authors:  Adam Nowakowski; Katarzyna Drela; Justyna Rozycka; Miroslaw Janowski; Barbara Lukomska
Journal:  Stem Cells Dev       Date:  2016-09-07       Impact factor: 3.272

Review 3.  Making β cells from adult cells within the pancreas.

Authors:  Philippe A Lysy; Gordon C Weir; Susan Bonner-Weir
Journal:  Curr Diab Rep       Date:  2013-10       Impact factor: 4.810

4.  Alteration of histone acetylation pattern during long-term serum-free culture conditions of human fetal placental mesenchymal stem cells.

Authors:  Yongzhao Zhu; Xumei Song; Fei Han; Yukui Li; Jun Wei; Xiaoming Liu
Journal:  PLoS One       Date:  2015-02-11       Impact factor: 3.240

5.  Immortalized porcine mesenchymal cells derived from nasal mucosa, lungs, lymph nodes, spleen and bone marrow retain their stemness properties and trigger the expression of siglec-1 in co-cultured blood monocytic cells.

Authors:  Abubakar Garba; Lowiese M B Desmarets; Delphine D Acar; Bert Devriendt; Hans J Nauwynck
Journal:  PLoS One       Date:  2017-10-16       Impact factor: 3.240

6.  Gene expression and functional comparison between multipotential stromal cells from lateral and medial condyles of knee osteoarthritis patients.

Authors:  Clara Sanjurjo-Rodriguez; Thomas G Baboolal; Agata N Burska; Frederique Ponchel; Jehan J El-Jawhari; Hemant Pandit; Dennis McGonagle; Elena Jones
Journal:  Sci Rep       Date:  2019-06-27       Impact factor: 4.379

7.  To clone or not to clone? Induced pluripotent stem cells can be generated in bulk culture.

Authors:  Charlotte A Willmann; Hatim Hemeda; Lisa A Pieper; Michael Lenz; Jie Qin; Sylvia Joussen; Stephanie Sontag; Paul Wanek; Bernd Denecke; Herdit M Schüler; Martin Zenke; Wolfgang Wagner
Journal:  PLoS One       Date:  2013-05-29       Impact factor: 3.240

Review 8.  DNA Methylation Changes during In Vitro Propagation of Human Mesenchymal Stem Cells: Implications for Their Genomic Stability?

Authors:  Angela Bentivegna; Mariarosaria Miloso; Gabriele Riva; Dana Foudah; Valentina Butta; Leda Dalprà; Giovanni Tredici
Journal:  Stem Cells Int       Date:  2013-10-30       Impact factor: 5.443

9.  NGF and TERT co-transfected BMSCs improve the restoration of cognitive impairment in vascular dementia rats.

Authors:  Fei Wang; Guangming Chang; Xin Geng
Journal:  PLoS One       Date:  2014-06-02       Impact factor: 3.240

10.  Impact of the source and serial passaging of goat mesenchymal stem cells on osteogenic differentiation potential: implications for bone tissue engineering.

Authors:  Hoda Elkhenany; Lisa Amelse; Marc Caldwell; Ramadan Abdelwahed; Madhu Dhar
Journal:  J Anim Sci Biotechnol       Date:  2016-03-05
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