Cell-cycle restriction limits DNA damage and maintains self-renewal of leukaemia stem cells

Andrea Viale; Francesca De Franco; Annette Orleth; Valeria Cambiaghi; Virginia Giuliani; Daniela Bossi; Chiara Ronchini; Simona Ronzoni; Ivan Muradore; Silvia Monestiroli; Alberto Gobbi; Myriam Alcalay; Saverio Minucci; Pier Giuseppe Pelicci

doi:10.1038/nature07618

Cell-cycle restriction limits DNA damage and maintains self-renewal of leukaemia stem cells

Andrea Viale, Francesca De Franco, Annette Orleth, Valeria Cambiaghi, Virginia Giuliani, Daniela Bossi, Chiara Ronchini, Simona Ronzoni, Ivan Muradore, Silvia Monestiroli, Alberto Gobbi, Myriam Alcalay, Saverio Minucci, Pier Giuseppe Pelicci

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Abstract

Rare cells with the properties of stem cells are integral to the development and perpetuation of leukaemias. A defining characteristic of stem cells is their capacity to self-renew, which is markedly extended in leukaemia stem cells. The underlying molecular mechanisms, however, are largely unknown. Here we demonstrate that expression of the cell-cycle inhibitor p21 is indispensable for maintaining self-renewal of leukaemia stem cells. Expression of leukaemia-associated oncogenes in mouse haematopoietic stem cells (HSCs) induces DNA damage and activates a p21-dependent cellular response, which leads to reversible cell-cycle arrest and DNA repair. Activated p21 is critical in preventing excess DNA-damage accumulation and functional exhaustion of leukaemic stem cells. These data unravel the oncogenic potential of p21 and suggest that inhibition of DNA repair mechanisms might function as potent strategy for the eradication of the slowly proliferating leukaemia stem cells.

Original language	English (US)
Pages (from-to)	51-56
Number of pages	6
Journal	Nature
Volume	457
Issue number	7225
DOIs	https://doi.org/10.1038/nature07618
State	Published - Jan 1 2009
Externally published	Yes

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title = "Cell-cycle restriction limits DNA damage and maintains self-renewal of leukaemia stem cells",

abstract = "Rare cells with the properties of stem cells are integral to the development and perpetuation of leukaemias. A defining characteristic of stem cells is their capacity to self-renew, which is markedly extended in leukaemia stem cells. The underlying molecular mechanisms, however, are largely unknown. Here we demonstrate that expression of the cell-cycle inhibitor p21 is indispensable for maintaining self-renewal of leukaemia stem cells. Expression of leukaemia-associated oncogenes in mouse haematopoietic stem cells (HSCs) induces DNA damage and activates a p21-dependent cellular response, which leads to reversible cell-cycle arrest and DNA repair. Activated p21 is critical in preventing excess DNA-damage accumulation and functional exhaustion of leukaemic stem cells. These data unravel the oncogenic potential of p21 and suggest that inhibition of DNA repair mechanisms might function as potent strategy for the eradication of the slowly proliferating leukaemia stem cells.",

author = "Andrea Viale and {De Franco}, Francesca and Annette Orleth and Valeria Cambiaghi and Virginia Giuliani and Daniela Bossi and Chiara Ronchini and Simona Ronzoni and Ivan Muradore and Silvia Monestiroli and Alberto Gobbi and Myriam Alcalay and Saverio Minucci and Pelicci, {Pier Giuseppe}",

note = "Funding Information: Acknowledgements We thank L. Luzi, D. Shing and M. Faretta for discussions and suggestions; M. Capillo, M. Stendardo and D. Sardella for assistance in maintenance of mouse colonies and for mouse genotyping; B. Amati, G. McVie, P. P. Di Fiore and C. Basilico for reviewing the manuscript; and P. Dalton for editing the manuscript. This study was supported by grants from the Italian Association on Cancer Research (AIRC), Ministero Italiano della Salute, Cariplo and the European Community (FP6: EPITRON and GENICA) to P.G.P. A.V. is a fellow of the Vollaro Foundation.",

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AU - Viale, Andrea

AU - De Franco, Francesca

AU - Orleth, Annette

AU - Cambiaghi, Valeria

AU - Giuliani, Virginia

AU - Bossi, Daniela

AU - Ronchini, Chiara

AU - Ronzoni, Simona

AU - Muradore, Ivan

AU - Monestiroli, Silvia

AU - Gobbi, Alberto

AU - Alcalay, Myriam

AU - Minucci, Saverio

AU - Pelicci, Pier Giuseppe

N1 - Funding Information: Acknowledgements We thank L. Luzi, D. Shing and M. Faretta for discussions and suggestions; M. Capillo, M. Stendardo and D. Sardella for assistance in maintenance of mouse colonies and for mouse genotyping; B. Amati, G. McVie, P. P. Di Fiore and C. Basilico for reviewing the manuscript; and P. Dalton for editing the manuscript. This study was supported by grants from the Italian Association on Cancer Research (AIRC), Ministero Italiano della Salute, Cariplo and the European Community (FP6: EPITRON and GENICA) to P.G.P. A.V. is a fellow of the Vollaro Foundation.

PY - 2009/1/1

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N2 - Rare cells with the properties of stem cells are integral to the development and perpetuation of leukaemias. A defining characteristic of stem cells is their capacity to self-renew, which is markedly extended in leukaemia stem cells. The underlying molecular mechanisms, however, are largely unknown. Here we demonstrate that expression of the cell-cycle inhibitor p21 is indispensable for maintaining self-renewal of leukaemia stem cells. Expression of leukaemia-associated oncogenes in mouse haematopoietic stem cells (HSCs) induces DNA damage and activates a p21-dependent cellular response, which leads to reversible cell-cycle arrest and DNA repair. Activated p21 is critical in preventing excess DNA-damage accumulation and functional exhaustion of leukaemic stem cells. These data unravel the oncogenic potential of p21 and suggest that inhibition of DNA repair mechanisms might function as potent strategy for the eradication of the slowly proliferating leukaemia stem cells.

AB - Rare cells with the properties of stem cells are integral to the development and perpetuation of leukaemias. A defining characteristic of stem cells is their capacity to self-renew, which is markedly extended in leukaemia stem cells. The underlying molecular mechanisms, however, are largely unknown. Here we demonstrate that expression of the cell-cycle inhibitor p21 is indispensable for maintaining self-renewal of leukaemia stem cells. Expression of leukaemia-associated oncogenes in mouse haematopoietic stem cells (HSCs) induces DNA damage and activates a p21-dependent cellular response, which leads to reversible cell-cycle arrest and DNA repair. Activated p21 is critical in preventing excess DNA-damage accumulation and functional exhaustion of leukaemic stem cells. These data unravel the oncogenic potential of p21 and suggest that inhibition of DNA repair mechanisms might function as potent strategy for the eradication of the slowly proliferating leukaemia stem cells.

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Cell-cycle restriction limits DNA damage and maintains self-renewal of leukaemia stem cells

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