Single Cell Biology

Abstract

Δ133p53 Functions to Maintain Redox Homeostasis in Response to Low ROS Stresses.

Jiang Jun Chen

Reactive oxygen species (ROS) can serve as intracellular signals that promote cell proliferation and survival, or as toxicants that cause abnormal cell death and senescence. Tumour repressor p53 is a ROS-active transcription factor that upregulates the expression of antioxidant genes during low oxidative stresses, but promotes the expression of pro-oxidative and apoptotic genes during high level stresses. The underlying mechanisms for p53 selectively to transcribe different groups of genes remain elusive. We recently found that p53 isoform Δ133p53 is strongly induced by a low concentration of H2O2 (50 μM), as opposed to higher concentrations, and functions to promote cell survival. Under the low oxidative stress, Δ133p53 is required for p53 to selectively upregulate the transcription of the antioxidant genes SESN1 and SOD1 by binding to their promoters. The knockdown of either p53 or Δ133p53 in low oxidative stresses increases the intracellular O2•– level, which results in accumulation of DNA damage, cell growth arrest at the G2 phase that in turn leads to enhanced cell senescence. Our findings suggest that an induction of Δ133p53 may correlate with ageing and human pathologies associated with oxidative stresses.