Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Thymidylate synthase (TS) is an essential enzyme for the de novo synthesis of thymidylate and subsequently DNA synthesis. TS has been used as a target for cancer chemotherapy in the development of fluoropyrimidines such as 5-fluorouracil (5-FU) and 5-fluorodeoxyuridine and of novel folate-based TS inhibitors such as ZD1694 (Tomudex, Raltitrexed), ZD9331, LY231514 (ALIMTA,
Pemetrexed
), AG337 (Thymitaq, Nolatrexed) and AG331. Although TS has been considered as a target for chemotherapy, the precise mechanism by which TS inhibition leads to cell death is still not completely resolved. TS inhibition results in depletion of dTTP, an essential precursor for DNA, and an increase in dUTP. This results in the so-called thymine-less death due to misincorporation of dUTP into DNA; its excision, catalysed by uracil-DNA glycosylase, results in DNA damage. Both this imbalance in dTTP/dUTP and DNA damage can result in induction of downstream events, leading to apoptosis. On the other hand a specific interaction exists between oncogenes and TS, by binding of TS protein to the
p53
and c-myc RNA, while wt
p53
can also inhibit TS promotor activity. TS inhibition by either 5-FU or antifolates can also result in a depression of TS protein mediated inhibition of TS mRNA translation leading to induction of more TS protein synthesis, and
p53 protein
may further deregulate this process. These complex indirect and direct interactions between oncogenes and TS may have as yet unclear clinical implications, since most data are based on in vitro or in vivo studies and some results are contradictive. In some preliminary clinical studies evidence was postulated for a combined prognostic role for TS and
p53
. This knowledge should be used to design clinical studies with the aim to deliver effective treatment to potentially sensitive patients both in the adjuvant setting and in advanced stage disease.
...
PMID:Downstream molecular determinants of response to 5-fluorouracil and antifolate thymidylate synthase inhibitors. 1084 55
Thymidylate synthase (TS) is an important target for chemotherapy and can be inhibited by 5-fluorouracil (5-FU) and the antifolates, AG337 (Nolatrexed) and multitargeted antifolate (MTA or
Pemetrexed
). In addition, 5-FU can be incorporated into RNA and DNA, and MTA can inhibit two other enzymes. It is, however, unclear to what extent these differences in drug action will influence activation of downstream mechanisms mediated via TS inhibition. Therefore, two human colon cancer cell lines, WiDr and Lovo, with a different clonogenic origin, were treated with equitoxic concentrations of 5-FU, AG337, and MTA to determine the induction of DNA damage, cell cycle arrest, downstream protein expression, and cell death. At these concentrations, the specific TS inhibitor AG337 induced more DNA damage (up to 20%) than MTA and 5-FU. FACS analysis showed that all drugs induced S phase arrest in Lovo and WiDr that was most pronounced after 5-FU and AG337 exposure (50-70%). Western blotting showed that
p53
induction was not detectable in mutant (mt)
p53
WiDr and increased much earlier in wild-type (wt) Lovo cells after 5-FU and MTA (24 h) than after AG337 exposure (72 h). In contrast to 5-FU-treated Lovo cells, the bcl-2/bax ratio decreased after antifolate exposure. Nevertheless, both 5-FU and antifolates induced similar amounts of cell death (up to 60%). These results demonstrate that in human colon cancer cells differences in downstream events between AG337 and 5-FU or MTA are related to the additional effects of 5-FU and MTA, which are not associated with TS inhibition.
...
PMID:Differences in the induction of DNA damage, cell cycle arrest, and cell death by 5-fluorouracil and antifolates. 1141 48
The impact of
p53
status on cellular sensitivity to antifolate drugs has been examined in seven human cell lines (A549, MCF7, T-47D, CCRF-CEM, COR-L23, A2780, and HCT-116) and
p53
nonfunctional counterparts of two of the cell lines (HCT-116/N7 and A2780/CP70).
p53
status was determined by sequencing and functional assays. The sensitivities of the cell lines to growth inhibition (sulphorhodamine B assay) produced by four antifolate drugs (
Alimta
, methotrexate, raltitrexed, and lometrexol) were studied. There was no clear relationship between functional
p53
status and sensitivity to methotrexate or lometrexol, whereas a functional
p53
status was possibly associated with resistance to
Alimta
- and raltitrexed-induced growth inhibition. In contrast, in the two pairs of related human tumor cell lines (HCT-116 and HCT-116/N7 and A2780 and A2780/CP70) cells with functional
p53
were more sensitive to
Alimta
- and raltitrexed-induced growth inhibition (P = 0.002). Detailed studies were performed with the A2780 cell lines, and in the parental cells sensitivity to
Alimta
- and raltitrexed-induced cytotoxicity (clonogenic assay) was similar to the sensitivity determined in the sulphorhodamine B assay. However, in A2780/CP70 cells, 1 microM of drug resulted in only 40-60% growth inhibition yet > or = 85% cytotoxicity. After
Alimta
and raltitrexed exposure for < or = 72 h, there were no differences between the A2780 and A278/CP70 cell lines in cell cycle phase distribution, absolute cell number, or the induction of apoptosis. However, the cellular protein content of the A2780/CP70 cells was 3-6-fold higher than in A2780 cells after
Alimta
and raltitrexed treatment, suggesting that cells without functional
p53
can maintain protein synthesis in the absence of cell division (unbalanced cell growth). In conclusion, the apparent impact of functional
p53
status on sensitivity to antifolate drugs may depend upon the phenotypic/genotypic background as well as the assay used to measure cellular sensitivity.
...
PMID:The impact of p53 status on cellular sensitivity to antifolate drugs. 1144 31
Pemetrexed
(
Alimta
; Eli Lilly and Co, Indianapolis, IN) is a novel antifolate/antimetabolite with activity in breast cancer and has well-defined molecular targets, including thymidylate synthase, dihydrofolate reductase, and glycinamide ribonucleotide formyltransferase. In a phase II trial in patients with T3-4, N0-2 breast cancer, expression of thymidylate synthase, dihydrofolate reductase, glycinamide ribonucleotide formyltransferase,
p53
, and c-erb-B2 (at the mRNA or protein level) is being examined before and 24 hours after the first dose of neoadjuvant pemetrexed and after three cycles of single-agent treatment to establish correlations of biomarker levels and changes with clinical outcome and toxicity. Full biomarker and clinical data are not yet available from this study; however, clinical responses to pemetrexed treatment have been observed in patients. Results of this trial should provide both an idea of the activity of neoadjuvant pemetrexed in breast cancer and information on biomarker association with clinical performance that can be used in the design of additional clinical studies to assess the predictive value of these markers.
...
PMID:Pemetrexed: translational research in breast cancer. 1209 37
Fas (CD95/Apo-1) is a member of the tumor necrosis factor receptor family. Receptor binding results in activation of caspase 8, leading to activation of proapoptotic downstream molecules. We found that expression of Fas was up-regulated >10-fold in MCF-7 breast and HCT116 and RKO colon cancer cell lines after treatment with IC(60) doses of 5-fluorouracil (5-FU) and raltitrexed (RTX). Combined treatment with the agonistic Fas antibody CH-11 and either 5-FU or RTX resulted in a highly synergistic induction of apoptosis in these cell lines. Similar results were obtained for another antifolate,
Alimta
. Induction of thymidylate synthase expression inhibited Fas induction in response to RTX and
Alimta
, but not in response to 5-FU. Furthermore, thymidylate synthase induction abrogated the synergy between CH-11 and both antifolates but had no effect on the synergistic interaction between 5-FU and CH-11. Inactivation of
p53
in MCF-7 and HCT116 cell lines blocked 5-FU- and antifolate-mediated up-regulation of Fas. Furthermore, Fas was not up-regulated in response to 5-FU or antifolates in the
p53
-mutant H630 colon cancer cell line. Lack of Fas up-regulation in the
p53
-null and -mutant lines abolished the synergistic interaction between 5-FU and CH-11. Interestingly, synergy was still observed between the antifolates and CH-11 in the
p53
-null HCT116 and
p53
-mutant H630 cell lines, although this was significantly reduced compared with the
p53
wild-type cell lines. Our results indicate that Fas is an important mediator of apoptosis in response to both 5-FU and antifolates.
...
PMID:The roles of thymidylate synthase and p53 in regulating Fas-mediated apoptosis in response to antimetabolites. 1516 16
Pemetrexed
(
Alimta
) is a novel folate antimetabolite that primarily inhibits the enzymes thymidylate synthase (TS), dihydrofolate reductase (DHFR), and glycinamide ribonucleotide formyl transferase (GARFT), all of which are involved in pyrimidine and purine synthesis. In a phase II trial of patients with T3/4, N0-2 breast cancer, expression of thymidylate synthase (TS), dihydrofolate reductase (DHFR), glycinamide ribonucleotide formyltransferase (GARFT),
p53
, and c-erb-B2 (at the mRNA or protein level) was examined in tumor biopsy specimens before and 24 hours after the first dose of pemetrexed and after three cycles of single-agent treatment to establish correlations of biomarker levels and changes with clinical outcome and toxicity. Although final data are not available, initial indications are that clinical response may correlate with decreased or low TS expression. The results obtained from clinical data are supported by laboratory results in three cell lines (MDA-231, MCF-7, and ZR-75). These results suggest that in vitro transcript profiling to identify which genes are important predictors of successful cytotoxic chemotherapy, followed by a focused clinical trial to confirm the in vitro results, may be the best approach for translational research.
...
PMID:Translational research with pemetrexed in breast cancer. 1565 41
RRM1 is a determinant of gemcitabine efficacy in cancer patients. However, the precision of predicting tumor response based on RRM1 levels is not optimal. We used gene-specific overexpression and RNA interference to assess RRM1's impact on different classes of cytotoxic agents, on drug-drug interactions, and the modulating impact of other molecular and cellular parameters. RRM1 was the dominant determinant of gemcitabine efficacy in various cancer cell lines. RRM1 also impacted the efficacy of other antimetabolite agents. It did not disrupt the interaction of two cytotoxic agents when combined. Cell lines with truncation, deletion, and null status of
p53
were resistant to gemcitabine without apparent relationship to RRM1 levels.
Pemetrexed
and carboplatin sensitivity did not appear to be related to
p53
mutation status. The impact of
p53
mutations in patients treated with gemcitabine should be studied in prospective clinical trials to develop a model with improved precision of predicting drug efficacy.
...
PMID:Modulation of the ribonucleotide reductase-antimetabolite drug interaction in cancer cell lines. 2097 59
Melanoma is one of the most common cancers, and its incidence has continued to increase over the past few decades. Chemotherapy resistance and related defects in apoptotic signaling are critical for the high mortality of melanoma. Effective drugs are lacking because apoptosis regulation in this tumor type is not well understood. The folate pathway has been considered an interesting target for anticancer therapies, and approaches targeting this pathway have recently been extended to melanoma treatment. In this study, the intracellular apoptosis signaling pathways of two melanoma cells lines (SK-MEL-2 and SK-MEL-28) were investigated after treatment with a new experimental antifolate substance (MR36) that targets thymidylate synthase. In both melanoma cell lines, apoptosis induction was triggered by a
p53
-independent mechanism. MR36-induced apoptosis was associated with a loss of both mitochondrial membrane potential and caspase-3 activation. Induction of cell cycle arrest by MR36 was associated with changes in the expression of key cell cycle regulators, such as p21 and cyclin D1, and the hypophosphorylation of pRb. In addition, Fas signaling was also analyzed. These findings suggest that, unlike classical antifolates, MR36 exerted an inhibitory effect on both the enzymatic function and expression of thymidylate synthase, thereby inducing apoptosis through the activation of the extrinsic and intrinsic pathways in the melanoma cell lines. MR36 showed a different mechanism of action from the known antifolates (Nolatrexed and
Pemetrexed
) that resulted in higher anticancer activity. Therefore, MR36 should be included as a potential new therapeutic treatment in melanoma research.
...
PMID:Biological evaluation of MR36, a novel non-polyglutamatable thymidylate synthase inhibitor that blocks cell cycle progression in melanoma cell lines. 2188 17
Pemetrexed
, a new-generation antifolate, has demonstrated promising single-agent activity in front- and second-line treatments of non-small cell lung cancer. However, the molecular mechanism of pemetrexed-mediated antitumor activity remains unclear. The current study shows that pemetrexed induced DNA damage and caspase-2, -3, -8, and -9 activation in A549 cells and that treatment with caspase inhibitors significantly abolished cell death, suggesting a caspase-dependent apoptotic mechanism. The molecular events of pemetrexed-mediated apoptosis was associated with the activation of ataxia telangiectasia mutated (ATM)/
p53
-dependent and -independent signaling pathways, which promoted intrinsic and extrinsic apoptosis by upregulating Bax, PUMA, Fas, DR4, and DR5 and activating the caspase signaling cascade. Supplementation with dTTP allowed normal S-phase progression and rescued apoptotic death in response to pemetrexed. Overall, our findings reveal that the decrease of thymidylate synthase and the increase of Bax, PUMA, Fas, DR4, and DR5 genes may serve as biomarkers for predicting responsiveness to pemetrexed.
...
PMID:Pemetrexed induces both intrinsic and extrinsic apoptosis through ataxia telangiectasia mutated/p53-dependent and -independent signaling pathways. 2208 58
The present studies sought to determine whether the anti-folate pemetrexed (
Alimta
) and the sphingosine-1-phosphate receptor modulator FTY720 (Fingolimod, Gilenya) interacted to kill tumor cells. FTY720 and pemetrexed interacted in a greater than additive fashion to kill breast, brain and colorectal cancer cells. Loss of
p53
function weakly enhanced the toxicity of FTY720 whereas deletion of activated RAS strongly or expression of catalytically inactive AKT facilitated killing. Combined drug exposure reduced the activity of AKT, p70 S6K and mTOR and activated JNK and p38 MAPK. Expression of activated forms of AKT, p70 S6K and mTOR or inhibition of JNK and p38 MAPK suppressed the interaction between FTY720 and pemetrexed. Treatment of cells with FTY720 and pemetrexed increased the numbers of early autophagosomes but not autolysosomes, which correlated with increased LC3II processing and increased p62 levels, suggestive of stalled autophagic flux. Knock down of ATG5 or Beclin1 suppressed autophagosome formation and cell killing. Knock down of ceramide synthase 6 suppressed autophagosome production and cell killing whereas knock down of ceramide synthase 2 enhanced vesicle formation and facilitated death. Collectively our findings argue that pemetrexed and FTY720 could be a novel adjunct modality for breast cancer treatment.
...
PMID:Differential regulation of autophagy and cell viability by ceramide species. 2580 31
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