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April 2, 2007

Research Shows Mechanism For Arresting Tumor Growth

Topics: Medicine

p53.jpg[p53 is a nuclear phospho-protein which, in response to DNA damage, slows progression through the cell cycle and initiates apoptosis if damage is severe.]

New research by scientists from the MD Anderson Cancer Center has shown that inducing senescence, a state of permanent cell-cycle arrest, may be sufficient to guard against cancer development in aged cells. The study shows that in the presence of the tumor suppressor gene, p53(also known as 'the guardian of the genome', has previously been shown to be functionally impaired in more than 60 per cent of human cancers), dysfunctional telomeres can induce senescence whereas in the absence of p53 these abnormalities can lead to a higher incidence of cancer. In other words, activation of the p53-mediated senescence pathway was sufficient to suppress tumorigenesis:


The gene works by initiating cell-cycle arrest, cellular senescence or apoptosis to suppress the onset of cancer in response to genotoxic stress. However, it is unknown which function is more important for in vivo tumour suppression.

The prevalence of human cancer increases with advancing age, with most cancers occurring in older adults due to instability in the genome. This instability can be caused by a loss in the functional stability of telomeres, a repetitive TTAGGG sequence that protects the end of linear chromosomes.

Global induction of the p53 and p21 genes was observed in the mice as well as the senescence marker beta-galactosidase. The results indicate that halting cellular proliferation may act as an important tumour suppressor mechanism for many cancers.

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Interestingly, there is a relationship between p53, telomeres, telomerase, and cancer. The clinical relevance of telomeres is that a cancer cell, unlike a normal cell, can repair eroded telomeres. The existence of this repair mechanism suggests a novel target for cancer.

... in vitro interactions between telomerase and p53 suggest that the activity of telomerase may be regulated by p53, down-regulation of which in turn would favor up-regulation of telomerase activity in cancer cell development.
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Posted by Richard at April 2, 2007 4:06 PM



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