Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0004135 (
ATM
)
13,001
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In response to DNA damage, eukaryotic cells initiate a complex signalling pathway, termed the DNA damage response (DDR), which coordinates cell cycle arrest with DNA repair. Studies have shown that oncogene-induced senescence, which provides a barrier to tumour development, involves activation of the DDR. Using a genome-wide RNA interference (RNAi) screen, we have identified 17 factors required for oncogenic BRAF to induce senescence in primary fibroblasts and melanocytes. One of these factors is an F-box protein,
FBXO31
, a candidate tumour suppressor encoded in 16q24.3, a region in which there is loss of heterozygosity in breast, ovarian, hepatocellular and prostate cancers. Here we study the cellular role of
FBXO31
, identify its target substrate and determine the basis for its growth inhibitory activity. We show that ectopic expression of
FBXO31
acts through a proteasome-directed pathway to mediate the degradation of cyclin D1, an important regulator of progression from G1 to S phase, resulting in arrest in G1. Cyclin D1 degradation results from a direct interaction with
FBXO31
and is dependent on the F-box motif of
FBXO31
and phosphorylation of cyclin D1 at Thr 286, which is known to be required for cyclin D1 proteolysis. The involvement of the DDR in oncogene-induced senescence prompted us to investigate the role of
FBXO31
in DNA repair. We find that DNA damage induced by gamma-irradiation results in increased
FBXO31
levels, which requires phosphorylation of
FBXO31
by the DDR-initiating kinase
ATM
. RNAi-mediated knockdown of
FBXO31
prevents cells from undergoing efficient arrest in G1 after gamma-irradiation and markedly increases sensitivity to DNA damage. Finally, we show that a variety of DNA damaging agents all result in a large increase in
FBXO31
levels, indicating that induction of
FBXO31
is a general response to genotoxic stress. Our results reveal
FBXO31
as a regulator of the G1/S transition that is specifically required for DNA damage-induced growth arrest.
...
PMID:F-box protein FBXO31 mediates cyclin D1 degradation to induce G1 arrest after DNA damage. 1941 62
The tumor suppressor p53 plays a critical role in maintaining genomic stability. In response to genotoxic stress, p53 levels increase and induce cell-cycle arrest, senescence, or apoptosis, thereby preventing replication of damaged DNA. In unstressed cells, p53 is maintained at a low level. The major negative regulator of p53 is MDM2, an E3 ubiquitin ligase that directly interacts with p53 and promotes its polyubiquitination, leading to the subsequent destruction of p53 by the 26S proteasome. Following DNA damage, MDM2 is degraded rapidly, resulting in increased p53 stability. Because of the important role of MDM2 in modulating p53 function, it is critical to understand how MDM2 levels are regulated. Here we show that the F-box protein
FBXO31
, a candidate tumor suppressor encoded in 16q24.3 for which there is loss of heterozygosity in various solid tumors, is responsible for promoting MDM2 degradation. Following genotoxic stress,
FBXO31
is phosphorylated by the DNA damage serine/threonine kinase
ATM
, resulting in increased levels of
FBXO31
.
FBXO31
then interacts with and directs the degradation of MDM2, which is dependent on phosphorylation of MDM2 by
ATM
.
FBXO31
-mediated loss of MDM2 leads to elevated levels of p53, resulting in growth arrest. In cells depleted of
FBXO31
, MDM2 is not degraded and p53 levels do not increase following genotoxic stress. Thus,
FBXO31
is essential for the classic robust increase in p53 levels following DNA damage.
...
PMID:F-box protein FBXO31 directs degradation of MDM2 to facilitate p53-mediated growth arrest following genotoxic stress. 2612 8
The F-box protein
FBXO31
is a tumor suppressor that is encoded in 16q24.3, for which there is loss of heterozygosity in various solid tumors.
FBXO31
serves as the substrate-recognition component of the SKP/Cullin/F-box protein class of E3 ubiquitin ligases and has been shown to direct degradation of pivotal cell-cycle regulatory proteins including cyclin D1 and the p53 antagonist MDM2.
FBXO31
levels are normally low but increase substantially following genotoxic stress through a mechanism that remains to be determined. Here we show that the low levels of
FBXO31
are maintained through proteasomal degradation by anaphase-promoting complex/cyclosome (APC/C). We find that the APC/C coactivators CDH1 and CDC20 bind to a destruction-box (D-box) motif present in
FBXO31
to promote its polyubiquitination and degradation in a cell-cycle-regulated manner, which requires phosphorylation of
FBXO31
on serine-33 by the prosurvival kinase AKT. Following genotoxic stress, phosphorylation of
FBXO31
on serine-278 by another kinase, the DNA damage kinase
ATM
, results in disruption of its interaction with CDH1 and CDC20, thereby preventing
FBXO31
degradation. Collectively, our results reveal how alterations in
FBXO31
phosphorylation, mediated by AKT and
ATM
, underlie physiological regulation of
FBXO31
levels in unstressed and genotoxically stressed cells.
...
PMID:Degradation of FBXO31 by APC/C is regulated by AKT- and ATM-mediated phosphorylation. 2934 41
