6533b822fe1ef96bd127c89d
RESEARCH PRODUCT
p14(ARF) Prevents Proliferation of Aneuploid Cells by Inducing p53-Dependent Apoptosis.
Lorena VenezianoV. BarraLaura LentiniS. SpataforaAldo Di Leonardosubject
Mad2 ProteinApoptosis; M Phase Cell Cycle Checkpoints; Mad2 Proteins; RNA Interference; Tumor Suppressor Protein p14ARF; AneuploidyApoptosiMitosisApoptosisM Phase Cell Cycle CheckpointAneuploidyHCT116 CellsSettore BIO/18 - GeneticaGene Knockout TechniquesMad2 ProteinsTumor Suppressor Protein p14ARFHumansM Phase Cell Cycle CheckpointsRNA InterferenceTumor Suppressor Protein p53Cell Proliferationdescription
Weakening the Spindle Assembly Checkpoint by reduced expression of its components induces chromosome instability and aneuploidy that are hallmarks of cancer cells. The tumor suppressor p14(ARF) is overexpressed in response to oncogenic stimuli to stabilize p53 halting cell progression. Previously, we found that lack or reduced expression of p14(ARF) is involved in the maintenance of aneuploid cells in primary human cells, suggesting that it could be part of a pathway controlling their proliferation. To investigate this aspect further, p14(ARF) was ectopically expressed in HCT116 cells after depletion of the Spindle Assembly Checkpoint MAD2 protein that was used as a trigger for aneuploidy. p14(ARF) Re-expression reduced the number of aneuploid cells in MAD2 post-transcriptionally silenced cells. Also aberrant mitoses, frequently displayed in MAD2-depleted cells, were decreased when p14(ARF) was expressed at the same time. In addition, p14(ARF) ectopic expression in MAD2-depleted cells induced apoptosis associated with increased p53 protein levels. Conversely, p14(ARF) ectopic expression did not induce apoptosis in HCT116 p53KO cells. Collectively, our results suggest that the tumor suppressor p14(ARF) may have an important role in counteracting proliferation of aneuploid cells by activating p53-dependent apoptosis.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2014-11-04 | Journal of cellular physiology |