Format

Send to

Choose Destination
Cell Cycle. 2002 Nov-Dec;1(6):362-8.

Therapeutic exploitation of checkpoint defects in cancer cells lacking p53 function.

Author information

1
Cancer Research UK Molecular Oncology Laboratory, University of Oxford Weatherall Institute of Molecular Medicine, John Radcliffe Hospital, Oxford UK.

Abstract

Cytotoxic agents form the basis of most cancer therapies. These agents primarily affect rapidly proliferating cells, so their use incurs morbidity associated with damage to tissues such as bone marrow and gastrointestinal mucosa. Clinical outcome would be improved if it were possible to develop therapeutics with more specific activity against p53-deficient cancers, which account for over 50% of all cases. p53 deficiency alters the cellular response to DNA damage in that it leaves cells with attenuated DNA damage checkpoint controls and a reduced propensity for apoptotic cell death. Thus, the DNA repair capacity of these cells is reduced but survival is increased. This promotes genomic instability and contributes to the resistance of p53-deficient cells to cytotoxic agents. Disabling the residual G(2) checkpoint function of p53-deficient cells may favour cell death following DNA damage. Several potential strategies for G(2) checkpoint abrogation show promise for the specific sensitization of cancer cells. Here we detail how the G(2) DNA damage checkpoint is influenced by p53 status and how the loss of p53 function in cancer cells can be exploited to enhance the cytotoxicity of anti-cancer agents.

PMID:
12548006
DOI:
10.4161/cc.1.6.257
[Indexed for MEDLINE]

Supplemental Content

Full text links

Icon for Taylor & Francis
Loading ...
Support Center