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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have recently demonstrated that the PPAR gamma ligand troglitazone induced cell growth arrest and evoked apoptosis in a gastric cancer cell line, MKN-45. Since in general,
p53
plays an important role in the induction of apoptosis and growth inhibition, we tried to clarify whether or not
p53
mediates troglitazone-induced apoptosis and growth arrest in gastric cancer cells.
Troglitazone
increased the number of apoptoic cells in MKN-28, MKN-45 and MKN-74, but not in KATO-III cells. The troglitazone-induced apoptotic change was significantly reduced by coincubation with bisphenol A digycidyl ether (BADGE), a synthetic PPAR gamma antagonist, in MKN-74 cells, suggesting that PPAR gamma mediates the apoptotic effect of troglitazone. Since KATO-III lacks the
p53
gene, we speculated that
p53
might be implicated in the PPAR gamma ligand-induced apoptosis. Western blot analysis revealed that
p53
expression was increased by troglitazone in a time-dependent manner in MKN-74 cells, further suggesting that
p53
may mediate the apoptotic process induced by troglitazone. We next established a dominant-negative
p53
mutant by stable transfection of
p53
mutant into MKN-74 cells. In the dominant-negative
p53
mutant cells, troglitazone failed to induce apoptosis, strongly supporting the hypothesis that
p53
indeed mediates the process of the troglitazone-induced apoptosis. In the dominant-negative
p53
mutant cells, troglitazone significantly induced cell growth arrest and increased expression of p27(Kip1) protein, which is thought to be the key molecule to evoke growth arrest, suggesting that
p53
is not involved in the growth inhibition by troglitazone. All these results suggest that
p53
mediates the PPAR gamma ligand-induced apoptosis, but not the cell growth inhibition.
...
PMID:PPAR gamma ligand-induced apoptosis through a p53-dependent mechanism in human gastric cancer cells. 1282 1
PPARgamma is expressed in both the rodent and human ovary, but the endogenous activation state of PPARgamma in the ovary and its normal role in ovarian function remain unclear. Here, we investigated mRNA and protein expression as well as DNA-binding activity of PPARgamma during follicle growth and luteinization in the immature, gonadotropin-primed rat model. Gel shift analysis demonstrated binding of ovarian PPAR to a consensus peroxisome proliferator response element (PPRE) that was supershifted with an antibody specific for PPARgamma, but not with antibodies specific for PPARalpha or beta/delta. PPARgamma expression and DNA-binding activity was highest 0-12 h post-PMSG, but declined during later stages of follicle growth (24-36 h post-PMSG). Administration of hCG induced a decline in PPARgamma mRNA, protein, and DNA-binding activity beginning at 4 h. Treatment of preovulatory granulosa cells with the PPARgamma ligand troglitazone (1-10 microM) in vitro decreased cell viability, increased sub-G1 apoptosis, and reduced DNA synthesis.
Troglitazone
induced
p53 protein
expression and decreased bcl-2 mRNA, suggesting possible mechanisms for troglitazone-induced apoptosis. These data indicate that PPARgamma is in the ovary is capable of binding DNA in the absence of pharmacological activation and provide evidence for a possible physiologic role for this receptor in regulating granulosa cell survival.
...
PMID:The peroxisome proliferator-activated receptor gamma ligand troglitazone induces apoptosis and p53 in rat granulosa cells. 1576 42
Despite dramatic advances in adjuvant therapies, patients with malignant glioma face a bleak prognosis. Because many adjuvant therapies seek to induce glioma apoptosis, strategies that lower thresholds for the induction of apoptosis may improve patient outcomes. Therefore, elucidation of the biological mechanisms that underlie resistance to current therapies is needed to develop new therapeutic strategies. Here we proposed a novel mechanism of proapoptotic effect induced by a pharmacological peroxisome proliferator-activated receptor-gamma (PPARgamma) agonist, troglitazone, that facilitates caspase signaling in human glioma cells.
Troglitazone
activates protein-tyrosine phosphatase (PTP)-1B, which subsequently reduces phosphotyrosine 705 STAT3 (pY705-STAT3) via a PPARgamma-independent pathway. Reduction of pY705-STAT3 in glioma cells caused down-regulation of FLIP (FADD-like IL-1beta-converting enzyme-inhibitory protein) and Bcl-2. Furthermore, troglitazone induced Ser-392 phosphorylation of
p53
via a PPARgamma-dependent pathway and up-regulation of Bax in a
p53
wild-type glioma. When given with tumor necrosis factor-related apoptosis-inducing ligand or caspase-dependent chemotherapeutic agents, such as etoposide and paclitaxel, troglitazone exhibited a synergistic effect by facilitating caspase-8/9 activities. A PPARgamma antagonist, GW9662, did not block this effect, although a PTP inhibitor abrogated it. Knockdown of STAT3 by STAT3-small interfering RNA negated the inhibitory effect of PTP inhibitor on troglitazone, indicating that troglitazone uses a STAT3 inactivation mechanism that makes caspase-8/9 activities susceptible to cytotoxic agents in glioma cells and that PTP1B plays a critical role in the down-regulation of activated STAT3, as well as FLIP and Bcl-2. When taken with caspase-dependent anti-neoplastic agents, troglitazone may be a promising drug for use against malignant gliomas because it facilitates the caspase cascade, thereby lowering thresholds for the apoptosis induction of glioma cells.
...
PMID:A peroxisome proliferator-activated receptor-gamma agonist, troglitazone, facilitates caspase-8 and -9 activities by increasing the enzymatic activity of protein-tyrosine phosphatase-1B on human glioma cells. 1631 70
Chronic lymphocytic leukemia (CLL) is characterized by the accumulation of long-lived monoclonal B cells mostly arrested at the G(0)/G(1) phase of the cell cycle. CLL cells strongly express intracellular melanoma differentiation-associated gene-7 (MDA7)/IL-24. However, adenovirus-delivered MDA7 was reported to be cytotoxic in several tumor cell lines. We report herein that rIL-24 alone had no effect; however, sequential incubation with rIL-2 and rIL-24 reduced thymidine incorporation by 50% and induced apoptosis of CLL cells in S and G(2)/M phases of the cell cycle, but not of normal adult blood or tonsil B cells. IL-24 stimulated STAT3 phosphorylation in IL-24R1-transfected cells but not in normal or CLL B cells. In contrast, IL-24 reversed the IL-2-induced phosphorylation of STAT3 in CLL, and this effect was neutralized by anti-IL-24 Ab. Phospho- (P)STAT3 inhibition induced by IL-24 was reversed by pervanadate, an inhibitor of tyrosine phosphatases. The addition of rIL-24 to IL-2-activated CLL B cells resulted in increases of transcription, protein synthesis. and phosphorylation of
p53
. The biological effects of IL-24 were reversed by the
p53
inhibitor pifithrin-alpha and partly by the caspase inhibitor zvad.
Troglitazone
(a protein tyrosine phosphatase, PTP1B activator) phosphatase inhibited PSTAT3 and augmented
p53
expression. PSTAT3 is a transcriptional repressor of
p53
, and therefore IL-24 induction of
p53
secondary to PSTAT3 dephosphorylation may be sensed as a stress signal and promote apoptosis in cycling cells. This model explains why IL-24 can protect some resting/differentiated cells and be deleterious to proliferating cells.
...
PMID:IL-24 induces apoptosis of chronic lymphocytic leukemia B cells engaged into the cell cycle through dephosphorylation of STAT3 and stabilization of p53 expression. 1894 Nov 94
Troglitazone
causes severe hepatic injury in certain individuals and multiple mechanisms related to hepato-toxicity has been reported creating confusion. In the present study, the mechanism for the hepatic injury of glitazones was investigated by PASS. The results suggest that chromane containing glitazones are apoptic agonist (activating
p53
by intrinsic pathway leading to the apoptosis) and those which do not contain the chromane are devoid of this. In case of hepato-toxicity by non-chromane glitazone and their metabolite such as M-3, RM-3, rosiglitazone and pioglitazone; PASS suggest that these chemicals are not apoptic agonist but they are the substrate for CYP enzyme (Phase-I Oxidative Enzyme) and Phase-II conjugating enzymes; interfering with bile acid metabolism rendering bile acid more toxic (cholestasis). This unmetabolised bile salt further initiates the process apoptosis via intrinsic and extrinsic pathway leading to the apoptosis. Immunoblot analysis further confirm our hypothesis that troglitazone (chromane containing glitazone), but not rosiglitazone and pioglitazone (non-chromane containing glitazone) increased the levels of
p53
in a time-dependent manner. Hence our prediction related to the mechanism of hepato-toxicity by apoptosis and structural insight of glitazone can be helpful in improving the drug profile of this category.
...
PMID:Structural insight of glitazone for hepato-toxicity: Resolving mystery by PASS. 2585 39
