Matilde Murga scite author profile

The reprogramming of differentiated cells to pluripotent cells (induced pluripotent stem (iPS) cells) is known to be an inefficient process. We recently reported that cells with short telomeres cannot be reprogrammed to iPS cells despite their normal proliferation rates, probably reflecting the existence of 'reprogramming barriers' that abort the reprogramming of cells with uncapped telomeres. Here we show that p53 (also known as Trp53 in mice and TP53 in humans) is critically involved in preventing the reprogramming of cells carrying various types of DNA damage, including short telomeres, DNA repair deficiencies, or exogenously inflicted DNA damage. Reprogramming in the presence of pre-existing, but tolerated, DNA damage is aborted by the activation of a DNA damage response and p53-dependent apoptosis. Abrogation of p53 allows efficient reprogramming in the face of DNA damage and the generation of iPS cells carrying persistent DNA damage and chromosomal aberrations. These observations indicate that during reprogramming cells increase their intolerance to different types of DNA damage and that p53 is critical in preventing the generation of human and mouse pluripotent cells from suboptimal parental cells.

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A cell-based screen identifies ATR inhibitors with synthetic lethal properties for cancer-associated mutations

Toledo

Murga

Zur

et al. 2011

Nat Struct Mol Biol

427

430

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SUMMARYOncogene activation has been shown to generate replication-born DNA damage, also known as replicative stress (RS). Notably, the ATR kinase -and not ATM-is the primary responder to RS. One limitation for the study of ATR is the lack of potent inhibitors. We here describe a cell-based screening strategy that has allowed us to identify compounds with ATR inhibitory activity in the nanomolar range. Pharmacological inhibition of ATR generates RS, leading to chromosomal breakage in the presence of conditions that stall replication forks. Moreover, ATR inhibition is particularly toxic for p53 deficient cells, this toxicity being exacerbated by RS-generating conditions such as the overexpression of cyclin E. Importantly, one of the compounds is NVP-BEZ235, a dual PI3K/mTOR inhibitor that is currently being tested for cancer chemotherapy, but which we now show is also very potent against ATM, ATR and DNA-PKcs.

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A mouse model of ATR-Seckel shows embryonic replicative stress and accelerated aging

et al. 2009

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The progressive accumulation of DNA damage is thought to be one of the driving forces that initiates ageing. However, the nature of the damage that arises endogenously is still ill-defined. A known source of endogenous damage is replicative stress (RS), which is intrinsically associated to DNA replication and prevented mainly by the ATR kinase. Here, we have developed a murine model of the human Seckel Syndrome characterized by a severe deficiency in ATR. Seckel mice suffer high levels of RS during embryogenesis when proliferation is widespread, but which decrease to marginal levels in postnatal life. In spite of this decrease, adult Seckel mice present accelerated ageing, which is further aggravated in the absence of p53 due to a further increase of RS. Together, these results support the concept that endogenous RS, particularly in utero, contributes to the onset of ageing in postnatal life and this is counterbalanced by the RS-limiting role of the checkpoint proteins ATR and p53.

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Exploiting oncogene-induced replicative stress for the selective killing of Myc-driven tumors

Murga

Campaner

López-Contreras

et al. 2011

Nat Struct Mol Biol

367

318

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Oncogene-induced replicative stress activates an Atr- and Chk1-dependent response, which has been proposed to be widespread in tumors. We explored whether the presence of replicative stress could be exploited for the selective elimination of cancer cells. To this end, we evaluated the impact of targeting the replicative stress-response on cancer development. In mice (Mus musculus), the reduced levels of Atr found on a mouse model of the Atr-Seckel syndrome completely prevented the development of Myc-induced lymphomas or pancreatic tumors, both of which showed abundant levels of replicative stress. Moreover, Chk1 inhibitors were highly effective in killing Myc-driven lymphomas. By contrast, pancreatic adenocarcinomas initiated by K-Ras(G12V) showed no detectable evidence of replicative stress and were nonresponsive to this therapy. Besides its impact on cancer, Myc overexpression aggravated the phenotypes of Atr-Seckel mice, revealing that oncogenes can modulate the severity of replicative stress-associated diseases.

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Up-regulation of the Notch ligand Delta-like 4 inhibits VEGF-induced endothelial cell function

et al. 2006

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Delta-like 4 (Dll4), a membrane-bound ligand for Notch1 and Notch4, is selectively expressed in the developing endothelium and in some tumor endothelium, and it is induced by vascular endothelial growth factor (VEGF)-A and hypoxia. Gene targeting studies have shown that Dll4 is required for normal embryonic vascular remodeling, but the mechanisms underlying Dll4 regulatory functions are currently not defined. In this study, we generated primary human endothelial cells that overexpress Dll4

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Matilde Murga

A p53-mediated DNA damage response limits reprogramming to ensure iPS cell genomic integrity

A cell-based screen identifies ATR inhibitors with synthetic lethal properties for cancer-associated mutations

A mouse model of ATR-Seckel shows embryonic replicative stress and accelerated aging

Exploiting oncogene-induced replicative stress for the selective killing of Myc-driven tumors

Up-regulation of the Notch ligand Delta-like 4 inhibits VEGF-induced endothelial cell function

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