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Target Concepts:
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Query: UMLS:C0003129 (
Anoxia
)
551
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tumors must adapt to the hypoxic environment in order to grow beyond a benign microscopic mass. In addition to transcriptional activation mediated by HIF-1alpha, hypoxia has also been reported to inhibit translation. The degree of translational inhibition is dependent on the duration as well as the severity of the hypoxic insult.
Anoxia
(<0.02% O(2)) seems to have a more rapid and dramatic effect on translation as compared to hypoxia. We show here that prolonged hypoxia dramatically and reversibly inhibits translation in
PC-3
cells. We also found that mTOR is inactivated and eIF-2alpha is phosphorylated during hypoxic treatment but only the eIF-2alpha phosphorylation correlates with the translational repression. We further used polysome analysis and microarray technology to analyze the impact of this translational repression on gene expression. We found that 33 mRNAs were refractory to this translational repression and that there was no correlation between mRNA induction and the ability to recruit ribosomes during hypoxia. We also found that ribosomal protein encoding mRNAs are more sensitive to this translational repression as compared to the majority of mRNAs. Although other reports have analyzed the effect of translation inhibition on gene expression under anoxic conditions, we believe that this is the first report in hypoxic cells. Our results show that the translational repression that occurs during hypoxia does impact gene expression in the highly transformed prostate cancer cell line,
PC-3
.
...
PMID:Identification of mRNAs that continue to associate with polysomes during hypoxia. 1748 73
Nutlin-3 is a small-molecule inhibitor that acts to inhibit MDM2 binding to p53 and subsequent p53-dependent DNA damage signaling. Whether Nutlin-3 alters cell toxicity following DNA damage under oxic versus hypoxic conditions has not been studied. The potential radiosensitization (0-10 Gy) properties of Nutlin-3 (dose range, 2-10 micromol/L for up to 24 h) were investigated in vitro using three prostate cancer cell lines, 22RV1 [wild-type p53 (WTp53)], DU145 (mutated p53), and
PC-3
(p53-null) under oxic (21% O(2)), hypoxic (0.2% O(2)), and anoxic (0% O(2)) conditions. As a single agent, Nutlin-3 (2-10 micromol/L) stabilized p53 and p21(WAF) levels and was toxic to WTp53-22RV1 cells (IC(50), 4.3 micromol/L) but had minimal toxicity toward p53-deficient cells (IC(50), >10 micromol/L). When combined with radiation under oxic conditions, Nutlin-3 decreased clonogenic survival in all three cell lines: 22RV1 [sensitizing enhancement ratio (SER), 1.24], DU145 (SER, 1.27), and
PC-3
(SER, 1.12).
Anoxia
induced p53 protein expression in 22RV1 cells and this was augmented by Nutlin-3 treatment. Furthermore, Nutlin-3 was more effective as a radiosensitizer under hypoxic conditions particularly in WTp53-expressing cells: 22RV1 (SER, 1.78), DU145 (SER, 1.31), and
PC-3
(SER, 1.28). The decrease in clonogenic survival with Nutlin-3 was not correlated to altered levels of radiation-induced apoptosis within the three cell lines. Our results indicate that Nutlin-3 can act as a radiosensitizer via p53-independent mechanisms under low O(2) levels. Nutlin-3 may be a useful adjunct to improve the therapeutic ratio using precision radiotherapy targeted to hypoxic cells and warrants further study in vivo.
...
PMID:Nutlin-3 radiosensitizes hypoxic prostate cancer cells independent of p53. 1841 12
