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Artikel ; Online: Epigenetic alterations in stem cell ageing-a promising target for age-reversing interventions?

Pouikli, Andromachi / Tessarz, Peter

2021 Band 21, Heft 1, Seite(n) 35–42

Abstract: Ageing is accompanied by loss of tissue integrity and organismal homeostasis partly due to decline in stem cell function. The age-associated decrease in stem cell abundance and activity is often referred to as stem cell exhaustion and is considered one ... ...

Abstract	Ageing is accompanied by loss of tissue integrity and organismal homeostasis partly due to decline in stem cell function. The age-associated decrease in stem cell abundance and activity is often referred to as stem cell exhaustion and is considered one major hallmark of ageing. Importantly, stem cell proliferation and differentiation potential are tightly coupled to the cellular epigenetic state. Thus, research during the last years has started to investigate how the epigenome regulates stem cell function upon ageing. Here, we summarize the role of epigenetic regulation in stem cell fate decisions and we review the impact of age-related changes of the epigenome on stem cell activity. Finally, we discuss how targeted interventions on the epigenetic landscape might delay ageing and extend health-span.
Mesh-Begriff(e)	Cell Differentiation/genetics ; Cellular Senescence/genetics ; Epigenesis, Genetic ; Stem Cells/physiology
Sprache	Englisch
Erscheinungsdatum	2021-03-18
Erscheinungsland	England
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't ; Review
ZDB-ID	2540916-5
ISSN	2041-2657 ; 2041-2649 ; 2041-2647
ISSN (online)	2041-2657
ISSN	2041-2649 ; 2041-2647
DOI	10.1093/bfgp/elab010
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Metabolism and chromatin: A dynamic duo that regulates development and ageing: Elucidating the metabolism-chromatin axis in bone-marrow mesenchymal stem cell fate decisions.

Pouikli, Andromachi / Tessarz, Peter

BioEssays : news and reviews in molecular, cellular and developmental biology

2021 Band 43, Heft 5, Seite(n) e2000273

Abstract: Bone-marrow mesenchymal stem cell (BM-MSC) proliferation and lineage commitment are under the coordinated control of metabolism and epigenetics; the MSC niche contains low oxygen, which is an important determinant of the cellular metabolic state. In turn, ...

Abstract	Bone-marrow mesenchymal stem cell (BM-MSC) proliferation and lineage commitment are under the coordinated control of metabolism and epigenetics; the MSC niche contains low oxygen, which is an important determinant of the cellular metabolic state. In turn, metabolism drives stem cell fate decisions via alterations of the chromatin landscape. Due to the fundamental role of BM-MSCs in the development of adipose tissue, bones and cartilage, age-associated changes in metabolism and the epigenome perturb the balance between stem cell proliferation and differentiation leading to stem cell depletion, fat accumulation and bone-quality related diseases. Therefore, understanding the dynamics of the metabolism-chromatin interplay is crucial for maintaining the stem cell pool and delaying the development and progression of ageing. This review summarizes the current knowledge on the role of metabolism in stem cell identity and highlights the impact of the metabolic inputs on the epigenome, with regards to stemness and pluripotency.
Mesh-Begriff(e)	Bone Marrow ; Bone Marrow Cells ; Cell Differentiation ; Cell Proliferation/genetics ; Chromatin/genetics ; Mesenchymal Stem Cells
Chemische Substanzen	Chromatin
Sprache	Englisch
Erscheinungsdatum	2021-02-25
Erscheinungsland	United States
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't ; Review
ZDB-ID	50140-2
ISSN	1521-1878 ; 0265-9247
ISSN (online)	1521-1878
ISSN	0265-9247
DOI	10.1002/bies.202000273
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel: Metabolism and chromatin: A dynamic duo that regulates development and ageing: Elucidating the metabolism‐chromatin axis in bone‐marrow mesenchymal stem cell fate decisions

Pouikli, Andromachi / Tessarz, Peter

BioEssays. 2021 May, v. 43, no. 5

2021

Abstract: Bone‐marrow mesenchymal stem cell (BM‐MSC) proliferation and lineage commitment are under the coordinated control of metabolism and epigenetics; the MSC niche contains low oxygen, which is an important determinant of the cellular metabolic state. In turn, ...

Abstract	Bone‐marrow mesenchymal stem cell (BM‐MSC) proliferation and lineage commitment are under the coordinated control of metabolism and epigenetics; the MSC niche contains low oxygen, which is an important determinant of the cellular metabolic state. In turn, metabolism drives stem cell fate decisions via alterations of the chromatin landscape. Due to the fundamental role of BM‐MSCs in the development of adipose tissue, bones and cartilage, age‐associated changes in metabolism and the epigenome perturb the balance between stem cell proliferation and differentiation leading to stem cell depletion, fat accumulation and bone‐quality related diseases. Therefore, understanding the dynamics of the metabolism‐chromatin interplay is crucial for maintaining the stem cell pool and delaying the development and progression of ageing. This review summarizes the current knowledge on the role of metabolism in stem cell identity and highlights the impact of the metabolic inputs on the epigenome, with regards to stemness and pluripotency.
Schlagwörter	adipose tissue ; bone marrow ; cartilage ; cell proliferation ; chromatin ; epigenetics ; epigenome ; mesenchymal stromal cells ; metabolism ; oxygen ; stem cells
Sprache	Englisch
Erscheinungsverlauf	2021-05
Erscheinungsort	John Wiley & Sons, Ltd
Dokumenttyp	Artikel
Anmerkung	NAL-AP-2-clean ; REVIEW
ZDB-ID	50140-2
ISSN	1521-1878 ; 0265-9247
ISSN (online)	1521-1878
ISSN	0265-9247
DOI	10.1002/bies.202000273
Datenquelle	NAL Katalog (AGRICOLA)

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Buch ; Online ; Dissertation / Habilitation: Citrate carrier links chromatin, metabolism and stemness upon ageing and exposure to high oxygen

Pouikli, Andromachi [Verfasser] / Tessarz, Peter [Gutachter]

2022

Verfasserangabe	Andromachi Pouikli ; Gutachter: Peter Tessarz
Schlagwörter	Biowissenschaften, Biologie ; Life Science, Biology
Thema/Rubrik (Code)	sg570
Sprache	Englisch
Verlag	Universitäts- und Stadtbibliothek Köln
Erscheinungsort	Köln
Dokumenttyp	Buch ; Online ; Dissertation / Habilitation
Datenquelle	Digitale Dissertationen im Internet

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Artikel ; Online: Editorial: Molecular Role of Lipids in Aging.

Skowronska-Krawczyk, Dorota / Narayan, Priyanka / Tessarz, Peter

Frontiers in aging

2022 Band 3, Seite(n) 946884

Sprache	Englisch
Erscheinungsdatum	2022-06-20
Erscheinungsland	Switzerland
Dokumenttyp	Editorial
ZDB-ID	3076785-4
ISSN	2673-6217 ; 2673-6217
ISSN (online)	2673-6217
ISSN	2673-6217
DOI	10.3389/fragi.2022.946884
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: NET-prism enables RNA polymerase-dedicated transcriptional interrogation at nucleotide resolution.

Mylonas, Constantine / Tessarz, Peter

RNA biology

2019 Band 16, Heft 9, Seite(n) 1156–1165

Abstract: The advent of quantitative approaches that enable interrogation of transcription at single nucleotide resolution has allowed a novel understanding of transcriptional regulation previously undefined. However, little is known, at such high resolution, how ... ...

Abstract	The advent of quantitative approaches that enable interrogation of transcription at single nucleotide resolution has allowed a novel understanding of transcriptional regulation previously undefined. However, little is known, at such high resolution, how transcription factors directly influence RNA Pol II pausing and directionality. To map the impact of transcription/elongation factors on transcription dynamics genome-wide at base pair resolution, we developed an adapted NET-seq protocol called NET-prism (Native Elongating Transcription by Polymerase-Regulated Immunoprecipitants in the Mammalian genome). Application of NET-prism on elongation factors (Spt6, Ssrp1), splicing factors (Sf1), and components of the pre-initiation complex (PIC) (TFIID, and Mediator) reveals their inherent command on transcription dynamics, with regards to directionality and pausing over promoters, splice sites, and enhancers/super-enhancers. NET-prism will be broadly applicable as it exposes transcription factor/Pol II dependent topographic specificity and thus, a new degree of regulatory complexity during gene expression.
Mesh-Begriff(e)	DNA-Binding Proteins/genetics ; Gene Expression Regulation/genetics ; Genome/genetics ; Humans ; Nucleotides/genetics ; Phosphorylation ; Promoter Regions, Genetic ; RNA Polymerase II/genetics ; RNA Splicing/genetics ; Sequence Analysis, RNA ; Transcription, Genetic ; Transcriptional Elongation Factors/genetics
Chemische Substanzen	DNA-Binding Proteins ; Nucleotides ; Transcriptional Elongation Factors ; RNA Polymerase II (EC 2.7.7.-)
Sprache	Englisch
Erscheinungsdatum	2019-06-03
Erscheinungsland	United States
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't
ISSN	1555-8584
ISSN (online)	1555-8584
DOI	10.1080/15476286.2019.1621625
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Artikel ; Online: Artificial Hsp104-mediated systems for re-localizing protein aggregates.

Fischbach, Arthur / Johns, Angela / Schneider, Kara L / Hao, Xinxin / Tessarz, Peter / Nyström, Thomas

Nature communications

2023 Band 14, Heft 1, Seite(n) 2663

Abstract: Spatial Protein Quality Control (sPQC) sequesters misfolded proteins into specific, organelle-associated inclusions within the cell to control their toxicity. To approach the role of sPQC in cellular fitness, neurodegenerative diseases and aging, we ... ...

Abstract	Spatial Protein Quality Control (sPQC) sequesters misfolded proteins into specific, organelle-associated inclusions within the cell to control their toxicity. To approach the role of sPQC in cellular fitness, neurodegenerative diseases and aging, we report on the construction of Hsp100-based systems in budding yeast cells, which can artificially target protein aggregates to non-canonical locations. We demonstrate that aggregates of mutant huntingtin (mHtt), the disease-causing agent of Huntington's disease can be artificially targeted to daughter cells as well as to eisosomes and endosomes with this approach. We find that the artificial removal of mHtt inclusions from mother cells protects them from cell death suggesting that even large mHtt inclusions may be cytotoxic, a trait that has been widely debated. In contrast, removing inclusions of endogenous age-associated misfolded proteins does not significantly affect the lifespan of mother cells. We demonstrate also that this approach is able to manipulate mHtt inclusion formation in human cells and has the potential to be useful as an alternative, complementary approach to study the role of sPQC, for example in aging and neurodegenerative disease.
Mesh-Begriff(e)	Humans ; Protein Aggregates ; Neurodegenerative Diseases/genetics ; Aging ; Longevity ; Cell Death
Chemische Substanzen	Protein Aggregates
Sprache	Englisch
Erscheinungsdatum	2023-05-09
Erscheinungsland	England
Dokumenttyp	Journal Article ; Research Support, Non-U.S. Gov't
ZDB-ID	2553671-0
ISSN	2041-1723 ; 2041-1723
ISSN (online)	2041-1723
ISSN	2041-1723
DOI	10.1038/s41467-023-37706-3
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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Buch ; Online ; Dissertation / Habilitation: Orphan CpG islands dictate the compatibility between poised enhancers and their target genes

Pachano, Tomas [Verfasser] / Uhlirova, Mirka [Gutachter] / Tessarz, Peter [Gutachter]

2022

Verfasserangabe	Tomas Pachano ; Gutachter: Mirka Uhlirova, Peter Tessarz
Schlagwörter	Biowissenschaften, Biologie ; Life Science, Biology
Thema/Rubrik (Code)	sg570
Sprache	Englisch
Verlag	Universitäts- und Stadtbibliothek Köln
Erscheinungsort	Köln
Dokumenttyp	Buch ; Online ; Dissertation / Habilitation
Datenquelle	Digitale Dissertationen im Internet

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Buch ; Online ; Dissertation / Habilitation: Interpreting gene expression changes in single cells and during ageing using transcriptional regulatory networks

Leote, Ana Carolina [Verfasser] / Beyer, Andreas [Gutachter] / Tessarz, Peter [Gutachter]

2022

Verfasserangabe	Ana Carolina Leote ; Gutachter: Andreas Beyer, Peter Tessarz
Schlagwörter	Biowissenschaften, Biologie ; Life Science, Biology
Thema/Rubrik (Code)	sg570
Sprache	Englisch
Verlag	Universitäts- und Stadtbibliothek Köln
Erscheinungsort	Köln
Dokumenttyp	Buch ; Online ; Dissertation / Habilitation
Datenquelle	Digitale Dissertationen im Internet

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Artikel ; Online: Transcriptional repression by FACT is linked to regulation of chromatin accessibility at the promoter of ES cells.

Mylonas, Constantine / Tessarz, Peter

Life science alliance

2018 Band 1, Heft 3, Seite(n) e201800085

Abstract: The conserved and essential histone chaperone, facilitates chromatin transcription (FACT), reorganizes nucleosomes during DNA transcription, replication, and repair and ensures both efficient elongation of RNA Pol II and nucleosome integrity. In ... ...

Abstract	The conserved and essential histone chaperone, facilitates chromatin transcription (FACT), reorganizes nucleosomes during DNA transcription, replication, and repair and ensures both efficient elongation of RNA Pol II and nucleosome integrity. In mammalian cells, FACT is a heterodimer, consisting of SSRP1 and SUPT16. Here, we show that in contrast to yeast, FACT accumulates at the transcription start site of genes reminiscent of RNA polymerase II profile. Depletion of FACT in mouse embryonic stem cells leads to deregulation of developmental and pro-proliferative genes concomitant with hyper-proliferation of mES cells. Using MNase-seq, Assay for Transposase-Accessible Chromatin sequencing, and nascent elongating transcript sequencing, we show that up-regulation of genes coincides with loss of nucleosomes upstream of the transcription start site and concomitant increase in antisense transcription, indicating that FACT impacts the promoter architecture to regulate the expression of these genes. Finally, we demonstrate a role for FACT in cell fate determination and show that FACT depletion primes embryonic stem cells for the neuronal lineage.
Sprache	Englisch
Erscheinungsdatum	2018-06-13
Erscheinungsland	United States
Dokumenttyp	Journal Article
ISSN	2575-1077
ISSN (online)	2575-1077
DOI	10.26508/lsa.201800085
Datenquelle	MEDical Literature Analysis and Retrieval System OnLINE

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