Gene/Protein
Disease
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P05412 (
c-Jun
)
11,453
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
PRIMA
-1 (p53 reactivation and induction of massive apoptosis) is a chemical compound that was originally identified as a selective mutant p53-dependent growth suppressor by screening a library of low-molecular-weight compounds. However, its mechanism of action is unknown. In this study, we examined toxicity of
PRIMA
-1 to three premalignant human colorectal adenoma cell lines (RG/C2, BR/C1, and AA/C1) and four colorectal carcinoma cell lines (DLD-1, SW480, LOVO, and HCT116) and its mechanism of action. It selectively induced apoptosis only in the mutant p53 premalignant and malignant colon cell lines, but was not toxic to the wild-type p53 premalignant and malignant colon cell lines. Using stable transfectants of temperature-sensitive p53 mutant Ala(143) in null p53 H1299 lung cancer cells, we found that
PRIMA
-1 induced significantly more apoptosis in cells with mutant p53 conformation (37 degrees C) than the wild-type p53 conformation (32.5 degrees C). Cell cycle analysis indicated that its inhibition of cell growth was correlated with induction of G(2) arrest. Western blot analysis showed
PRIMA
-1 increased p21 and GADD45 expression selectively in the mutant p53 cells. However, Fas, Bcl-2 family proteins, and caspases were not involved in
PRIMA
-1-induced cell death. The
c-Jun
-NH(2)-kinase (JNK) inhibitor SP 600125, but not p38 mitogen-activated protein kinase inhibitor SB 203580 or extracellular signal-regulated kinase inhibitor PD 98059, blocked
PRIMA
-1-induced apoptosis. Transfection with a dominant-negative phosphorylation mutant JNK, but not a dominant-negative p38 or wild-type JNK, inhibited
PRIMA
-1-induced cell death, suggesting that the JNK pathway plays an important role in
PRIMA
-1-induced apoptosis.
PRIMA
-1 is a highly selective small molecule toxic to p53 mutant cells and may serve as a prototype for the development of new p53-targeting agents for therapy of premalignant and malignant cells.
...
PMID:Selective induction of apoptosis in mutant p53 premalignant and malignant cancer cells by PRIMA-1 through the c-Jun-NH2-kinase pathway. 1595 47
The p53 protein plays a major role in the maintenance of genome stability in mammalian cells. Mutations of p53 occur in over 40% of breast cancers and are indicative of tumor resistance to chemotherapeutic agents. Recently, there has been a high degree of interest in pharmacological approaches for restoring the normal function to mutant p53. The low molecular weight compound p53 reactivation and induction of massive apoptosis (
PRIMA
-1) was shown to induce cytotoxic effects and apoptosis in human tumor cells with mutant p53. Here, we studied the molecular mechanisms of
PRIMA
-1-induced apoptosis in human breast cancer cells with p53 mutations such as MDA-231 and GI-101A as compared to MCF-7 cells. We show that
PRIMA
-1 selectively induces apoptosis in human breast cancer cells MDA-231 and GI-101A compared to the MCF-7. This effect was paralleled by an increase in total p53 level in the nucleus and the induction of its phosphorylation at Ser-15 site. Using the chromatin immunoprecipitation (ChIP) assays, we show that
PRIMA
-1 restored p53 DNA binding activity to the promoters of the proapoptotic genes such as Bax and PUMA, but inhibited the binding activity to the promoters of the MAP4K4 gene. Knockdown of p53 protein in breast cancer cells using siRNA followed by
PRIMA
-1 treatment resulted in decline of Bax and PUMA proteins expression. Cell incubation with either
PRIMA
-1 or SP600125 (
c-Jun
NH2-terminal kinase inhibitor) resulted in the abrogation of adriamycin-induced
c-Jun
NH2-terminal kinase (JNK) activation, whereas Bax activation was not inhibited. We conclude that both Bax and PUMA but not JNK signaling are involved in
PRIMA
-1-induced apoptosis in breast cancer cells with p53 mutation.
...
PMID:PRIMA-1 induces apoptosis by inhibiting JNK signaling but promoting the activation of Bax. 1711 36
There is emerging evidence that the oncogenic potential of hdm2 (human and/or murine double minute-2 protein) stems not only from its ability to counteract tumor suppressor p53 but also from its less understood p53-independent functions. Surprisingly, little is known about the role and regulation of hdm2 in pancreatic tumors, a large proportion (50-75%) of which contain mutant p53. In this study, we determined that hdm2 was expressed in a Ras-signaling-dependent manner in various pancreatic cancer cell lines. As p53 was mutated and inactive in these cells, the expression of hdm2 was seemingly redundant. Indeed, the proliferation and survival of cell lines such as Panc-1 and Panc-28 could be inhibited by
PRIMA
-1 (mutant p53 activator) but not by Nutlin-3 (inhibitor of the hdm2-p53 interaction). Unexpectedly, however, the proliferation of both cell lines was strongly inhibited by hdm2-specific RNAi. Our data also revealed cyclin D1,
c-Jun
and c-Myc to be novel targets of hdm2 and suggested that they might mediate hdm2's role in cellular proliferation and/or survival. We conclude from our results that hdm2 is expressed in pancreatic cancer cells as a result of activated Ras signaling, and that it regulates cellular proliferation and the expression of three novel target genes by p53-independent mechanisms.
...
PMID:Hdm2 is regulated by K-Ras and mediates p53-independent functions in pancreatic cancer cells. 1902 54
