p53 in survival, death and metabolic health: a lifeguard with a licence to kill

被引:828
作者
Kruiswijk, Flore [1 ]
Labuschagne, Christiaan F. [1 ]
Vousden, Karen H. [1 ]
机构
[1] Canc Res UK Beatson Inst, Glasgow G61 1BD, Lanark, Scotland
来源
NATURE REVIEWS MOLECULAR CELL BIOLOGY | 2015年 / 16卷 / 07期
基金
欧洲研究理事会;
关键词
TUMOR-SUPPRESSOR P53; CELL-CYCLE ARREST; REGULATES GLUCOSE-METABOLISM; DNA-BINDING COOPERATIVITY; FATTY-ACID OXIDATION; WILD-TYPE P53; UP-REGULATION; CANCER-CELLS; IN-VIVO; TRANSCRIPTIONAL ACTIVATION;
D O I
10.1038/nrm4007
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
The function of p53 as a tumour suppressor has been attributed to its ability to promote cell death or permanently inhibit cell proliferation. However, in recent years, it has become clear that p53 can also contribute to cell survival. p53 regulates various metabolic pathways, helping to balance glycolysis and oxidative phosphorylation, limiting the production of reactive oxygen species, and contributing to the ability of cells to adapt to and survive mild metabolic stresses. Although these activities may be integrated into the tumour suppressive functions of p53, deregulation of some elements of the p53-induced response might also provide tumours with a survival advantage.
引用
收藏
页码:393 / 405
页数:13
相关论文
共 176 条
  • [81] Kondoh H, 2005, CANCER RES, V65, P177
  • [82] Plasminogen activator inhibitor-1 is a critical downstream target of p53 in the induction of replicative senescence
    Kortlever, Roderik M.
    Higgins, Paul J.
    Bernards, Rene
    [J]. NATURE CELL BIOLOGY, 2006, 8 (08) : 877 - U155
  • [83] A threshold mechanism mediates p53 cell fate decision between growth arrest and apoptosis
    Kracikova, M.
    Akiri, G.
    George, A.
    Sachidanandam, R.
    Aaronson, S. A.
    [J]. CELL DEATH AND DIFFERENTIATION, 2013, 20 (04) : 576 - 588
  • [84] Modes of p53 Regulation
    Kruse, Jan-Philipp
    Gu, Wei
    [J]. CELL, 2009, 137 (04) : 609 - 622
  • [85] Regulation of p53 stability by Mdm2
    Kubbutat, MHG
    Jones, SN
    Vousden, KH
    [J]. NATURE, 1997, 387 (6630) : 299 - 303
  • [86] Serine, but Not Glycine, Supports One-Carbon Metabolism and Proliferation of Cancer Cells
    Labuschagne, Christiaan F.
    van den Broek, Niels J. F.
    Mackay, Gillian M.
    Vousden, Karen H.
    Maddocks, Oliver D. K.
    [J]. CELL REPORTS, 2014, 7 (04): : 1248 - 1258
  • [87] Loss of p53 causes mitochondrial DNA depletion and altered mitochondrial reactive oxygen species homeostasis
    Lebedeva, Maria A.
    Eaton, Jana S.
    Shadel, Gerald S.
    [J]. BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS, 2009, 1787 (05): : 328 - 334
  • [88] AMPK Promotes p53 Acetylation via Phosphorylation and Inactivation of SIRT1 in Liver Cancer Cells
    Lee, Chi-Wai
    Wong, Leo Lap-Yan
    Tse, Edith Yuk-Ting
    Liu, Heong-Fai
    Leong, Veronica Yee-Law
    Lee, Joyce Man-Fong
    Hardie, D. Grahame
    Ng, Irene Oi-Lin
    Ching, Yick-Pang
    [J]. CANCER RESEARCH, 2012, 72 (17) : 4394 - 4404
  • [89] Atg7 Modulates p53 Activity to Regulate Cell Cycle and Survival During Metabolic Stress
    Lee, In Hye
    Kawai, Yoshichika
    Fergusson, Maria M.
    Rovira, Ilsa I.
    Bishop, Alexander J. R.
    Motoyama, Noboru
    Cao, Liu
    Finkel, Toren
    [J]. SCIENCE, 2012, 336 (6078) : 225 - 228
  • [90] A nucleocytoplasmic malate dehydrogenase regulates p53 transcriptional activity in response to metabolic stress
    Lee, S. M.
    Kim, J. H.
    Cho, E. J.
    Youn, H. D.
    [J]. CELL DEATH AND DIFFERENTIATION, 2009, 16 (05) : 738 - 748
45678910111213