Wynand P. Roos scite author profile

DNA is vulnerable to damage resulting from endogenous metabolites, environmental and dietary carcinogens, some anti-inflammatory drugs, and genotoxic cancer therapeutics. Cells respond to DNA damage by activating complex signalling networks that decide cell fate, promoting not only DNA repair and survival but also cell death. The decision between cell survival and death following DNA damage rests on factors that are involved in DNA damage recognition, and DNA repair and damage tolerance, as well as on factors involved in the activation of apoptosis, necrosis, autophagy and senescence. The pathways that dictate cell fate are entwined and have key roles in cancer initiation and progression. Furthermore, they determine the outcome of cancer therapy with genotoxic drugs. Understanding the molecular basis of these pathways is important not only for gaining insight into carcinogenesis, but also in promoting successful cancer therapy. In this Review, we describe key decision-making nodes in the complex interplay between cell survival and death following DNA damage.

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DNA damage-induced cell death: From specific DNA lesions to the DNA damage response and apoptosis

Roos¹,

Kaina²

2013

Cancer Letters

764

565

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MGMT: Key node in the battle against genotoxicity, carcinogenicity and apoptosis induced by alkylating agents

Kaina¹,

Christmann²,

Naumann³

et al. 2007

DNA Repair

579

537

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Apoptosis in malignant glioma cells triggered by the temozolomide-induced DNA lesion O6-methylguanine

Roos¹,

et al. 2006

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Methylating drugs such as temozolomide (TMZ) are widely used in the treatment of brain tumours (malignant gliomas). The mechanism of TMZ-induced glioma cell death is unknown. Here, we show that malignant glioma cells undergo apoptosis following treatment with the methylating agents N-methyl-N 0 -nitro-N-nitrosoguanidine (MNNG) and TMZ. Cell death determined by colony formation and apoptosis following methylation is greatly stimulated by p53. Transfection experiments with O 6 -methylguanine-DNA methyltransferase (MGMT) and depletion of MGMT by O 6 -benzylguanine showed that, in gliomas, the apoptotic signal originates from O 6 -methylguanine (O 6 MeG) and that repair of O 6 MeG by MGMT prevents apoptosis. We further demonstrate that O 6 MeGtriggered apoptosis requires Fas/CD95/Apo-1 receptor activation in p53 non-mutated glioma cells, whereas in p53 mutated gliomas the same DNA lesion triggers the mitochondrial apoptotic pathway. This occurs less effectively via Bcl-2 degradation and caspase-9, -2, -7 and -3 activation. O 6 MeG-triggered apoptosis in gliomas is a late response (occurring >120 h after treatment) that requires extensive cell proliferation. Stimulation of cell cycle progression by the Pasteurella multocida toxin promoted apoptosis whereas serum starvation attenuated it. O 6 MeGinduced apoptosis in glioma cells was preceded by the formation of DNA double-strand breaks (DSBs), as measured by cH2AX formation. Glioma cells mutated in DNA-PK cs , which is involved in non-homologous endjoining, were more sensitive to TMZ-induced apoptosis, supporting the involvement of DSBs as a downstream apoptosis triggering lesion. Overall, the data demonstrate that cell death induced by TMZ in gliomas is due to apoptosis and that determinants of sensitivity of gliomas to TMZ are MGMT, p53, proliferation rate and DSB repair.

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Wynand P. Roos

DNA damage-induced cell death by apoptosis

DNA damage and the balance between survival and death in cancer biology

DNA damage-induced cell death: From specific DNA lesions to the DNA damage response and apoptosis

MGMT: Key node in the battle against genotoxicity, carcinogenicity and apoptosis induced by alkylating agents

Apoptosis in malignant glioma cells triggered by the temozolomide-induced DNA lesion O6-methylguanine

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