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Query: UMLS:C0345904 (
liver cancer
)
15,188
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
VEGF, a potent angiogenic growth factor, is up-regulated in many tumors including human breast tumors and stimulates growth of vascular networks that support tumor growth and metastasis. We previously reported that natural and synthetic progestins (P) increased VEGF mRNA and protein levels in progesterone receptor (PR) containing T47-D human breast cancer cells in a PR dependent manner, but not in PR positive ZR-75 and MCF-7, or in PR negative MDA-MB-231 cells. This indicated that factors beside PR are involved in progesterone-dependent VEGF regulation. We, therefore, tested additional tumor cell lines reported to contain PR for progestin-dependent VEGF induction. Out of nine PR-positive breast tumor cell lines, progestins induced VEGF in three cell lines that lack wild-type p53 (T47-D, BT-474, and
HCC
-1428) but not in cell lines that contained the wild-type p53 protein. The T47-D and BT-474 cells express mutant p53, while the p53 protein is absent
HCC
-1428 cells. The anti-progestin RU-486 blocked progestin-dependent induction of VEGF in T47-D and BT-474 cells but not in
HCC
-1428 cells. However, RU-486 partially blocked medroxyprogesterone acetate-dependent induction of VEGF in
HCC
-1428 cells. Estrogen receptor (ER) and PR agonists and antagonists also induce VEGF in
HCC
-1428 cells and this effect was partially blocked by anti-estrogen ICI-182, 780. Progestin-dependent VEGF induction was completely inhibited by
PRIMA
-1-activated p53 in all cell-types, but progestin-dependent transcription of a progesterone-regulated minimal promoter was only partially inhibited.
PRIMA
-1 induced activation of p53 in tumor cell lines was confirmed with a p53-responsive p21 reporter plasmid and by detecting increased levels of p21 proteins in cell lysates.
PRIMA
-1 induced p53 protein in the
HCC
-1428 cells while levels of mutant p53 protein in T47-D and BT-474 remained unaltered. Progestin-dependent induction of VEGF was also inhibited by stable transfection of wild-type p53 in T47-D cells. These results are consistent with the hypothesis that wild-type p53 blocks progestin-dependent induction of VEGF in breast cancer cells and this may be a novel anti-angiogenic mechanism for controlling the growth of progestin-dependent tumors.
...
PMID:p53-dependent inhibition of progestin-induced VEGF expression in human breast cancer cells. 1586 Feb 60
Mutation of the p53 tumor suppressor gene is a common event in many types of tumors, including breast cancers. Mutant p53 (mtp53) protein is thought to promote tumor cell survival and resistance to chemotherapeutic drugs. Therefore, restoring p53 function by converting existing mtp53 to the wild-type p53 (wtp53) conformation is being pursued as one strategy to promote apoptosis of tumor cells.
PRIMA
-1 (p53 re-activation and induction of massive apoptosis) is a non-toxic small molecule that converts mtp53 to the active conformation and induces apoptosis in tumor cells. Here we examined whether
PRIMA
-1 activates mtp53 and induces cell death in vitro and in vivo in estrogen-responsive breast cancer cell lines that express mtp53 (BT-474,
HCC
-1428, and T47-D). Fluorescent staining with conformation-specific p53 antibodies demonstrated that
PRIMA
-1 converted mtp53 into the wtp53 conformation. In vitro treatment of tumor cells with
PRIMA
-1 (0-50 microM) led to a dose-dependent loss of cell viability and induced cell death markers. In contrast,
PRIMA
-1 had no effect on the viability of MCF-7 cells, normal breast cells, and endothelial cells, all of which express wtp53 protein.
PRIMA
-1 treatment of mice inhibited the growth of tumors from xenografts of BT-474,
HCC
-1428, and T47-D cells but did not influence xenografts obtained from MCF-7 cells. Mechanistic studies showed that
PRIMA
-1 induced the mitochondrial-dependent apoptotic pathway in mtp53-expressing breast cancer cells. Our findings suggest that
PRIMA
-1 renews the susceptibility of mtp53-expressing breast tumors to apoptosis and should be investigated for use in breast cancer therapy.
...
PMID:PRIMA-1 inhibits growth of breast cancer cells by re-activating mutant p53 protein. 1978 55
Breast cancer progression depends upon the elaboration of a vasculature sufficient for the nourishment of the developing tumor. Breast tumor cells frequently contain a mutant form of p53 (mtp53), a protein which promotes their survival. The aim of this study was to determine whether combination therapy targeting mtp53 and anionic phospholipids (AP) on tumor blood vessels might be an effective therapeutic strategy for suppressing advanced breast cancer. We examined the therapeutic effects, singly, or in combination, of p53 reactivation and induction of massive apoptosis (
PRIMA
-1), which reactivates mtp53 and induces tumor cell apoptosis, and 2aG4, a monoclonal antibody that disrupts tumor vasculature by targeting AP on the surface of tumor endothelial cells and causes antibody-dependent destruction of tumor blood vessels, leading to ischemia and tumor cell death. Xenografts from two tumor cell lines containing mtp53, BT-474 and
HCC
-1428, were grown in nude mice to provide models of advanced breast tumors. After treatment with
PRIMA
-1 and/or 2aG4, regressing tumors were analyzed for vascular endothelial growth factor (VEGF) expression, blood vessel loss, and apoptotic markers. Individual drug treatment led to partial suppression of breast cancer progression. In contrast, combined treatment with
PRIMA
-1 and 2aG4 was extremely effective in suppressing tumor growth in both models and completely eradicated approximately 30% of tumors in the BT-474 model. Importantly, no toxic effects were observed in any treatment group. Mechanistic studies determined that
PRIMA
-1 reactivated mtp53 and also exposed AP on the surface of tumor cells as determined by enhanced 2aG4 binding. Combination treatment led to significant induction of tumor cell apoptosis, loss of VEGF expression, as well as destruction of tumor blood vessels. Furthermore, combination treatment severely disrupted tumor blood vessel perfusion in both tumor models. The observed in vitro
PRIMA
-1-induced exposure of tumor epithelial cell AP might provide a target for 2aG4 and contribute to the increased effectiveness of such combination therapy in vivo. We conclude that the combined targeting of mtp53 and the tumor vasculature is a novel effective strategy for combating advanced breast tumors.
...
PMID:Targeting mutant p53 protein and the tumor vasculature: an effective combination therapy for advanced breast tumors. 2034 29
p53 transduction is a potentially effective cancer therapy but does not result in a good therapeutic response in all human cancers due to resistance to apoptosis. To discover factors that overcome resistance to p53-induced apoptosis, we attempted to identify RNAi sequences that enhance p53-induced apoptosis. We screened a genome-wide lentiviral shRNA library in
liver cancer
Huh-7 and pancreatic cancer Panc-1 cells, both of which resist p53-induced apoptosis. After the infection of adenovirus expressing p53 or LacZ as a control, shRNA-treated populations were analyzed by microarray. We identified shRNAs that were significantly decreased in p53-infected cells compared with control cells. Among these shRNAs, shRNA-58335 was markedly decreased in both cancer cell lines tested. shRNA-58335 enhanced p53-related apoptosis in vitro and augmented the inhibitory effect of adenoviral p53 transduction on tumor growth in vivo. Furthermore, the enhanced apoptotic response by shRNA-58335 was also confirmed by treatment with
PRIMA
-1, which reactivates mutant p53, instead of adenoviral p53 transduction. We found that shRNA-58335 evokes the apoptotic response following p53 transduction or functional restoration of p53 with a small molecule drug in cancer cells resistant to p53-induced apoptosis. The combination of p53 restoration and RNAi-based drugs is expected to be a promising novel cancer therapy.
...
PMID:Array-based genome-wide RNAi screening to identify shRNAs that enhance p53-related apoptosis in human cancer cells. 2527 88
