Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The tumor suppressor protein p53 and the putative lipid tumor suppressor ceramide play pivotal roles in inducing cell cycle arrest or in driving the cell towards apoptosis. Previously we had shown that, in a p53-dependent model of cell death, ceramide accumulated in a p53-dependent manner [Dbaibo GS, Pushkareva MY, Rachid RA, Alter N, Smyth MJ, Obeid LM, Hannun YA. J Clin Invest 1998;102:329-339]. In the current study, we investigated the biochemical pathways by which ceramide accumulated following p53 up-regulation. In both Molt-4 LXSN leukemia cells exposed to gamma-irradiation and in EB-1 colon cancer cells treated with ZnCl(2), p53 up-regulation led to de novo ceramide synthesis with predominance of N-palmitoylsphingosine (C16-ceramide) synthesis. The activation of the de novo pathway was not associated with increased activity of the key enzyme serine palmitoyltransferase (SPT) but rather with the increased activity of ceramide synthase. Furthermore, transcriptional up-regulation of the palmitoyl-specific Lass5 ceramide synthase gene was observed in Molt-4 but not in EB-1 cells. The SPT inhibitor ISP-1 or the ceramide synthase inhibitor fumonisin B1 led to substantial inhibition of ceramide accumulation in response to p53 up-regulation. Other biochemical pathways of ceramide generation such as sphingomyelinase activation were examined and found unlikely to contribute to p53-dependent ceramide formation. These studies indicate that p53 specifically drives de novo ceramide synthesis by activation of a ceramide synthase that favors the synthesis of N-palmitoylsphingosine.
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PMID:De novo N-palmitoylsphingosine synthesis is the major biochemical mechanism of ceramide accumulation following p53 up-regulation. 1840 May 37

Advanced melanoma is the most virulent form of cancer and has a poor prognosis. In a previous study, myriocin, an inhibitor of serine palmitoyltransferase, was found to suppress melanoma cell proliferation by cell cycle arrest at the G 2/M phase through decreased sphingolipid levels and increased p53 and p21 (waf1/cip1) expression. ( 1) In the present study, myriocin (1 mg/kg, every other day for 3 weeks) was administered intradermally or intraperitoneally to melanoma mice. Tumor formation was significantly inhibited by intradermal and intraperitoneal administration of myriocin. The expression of Cdc25C, Cdc2 and cyclin B1 was decreased in tumor tissues from myriocin-treated mice, while the expression of p53 and p21 (waf1/cip1) was increased compared with that of the controls. The levels of sphingolipids in serum, liver and tumor tissue from myriocin-treated mice were decreased compared with those of controls. The decreased levels of sphingolipids in serum and liver of melanoma mice treated with myriocin suggests that myriocin may be accessible to tumor tissues of advanced melanoma. Taken together, the suppression of sphingolipid synthesis by myriocin inhibits the expression of Cdc25C or activates the expression of p53 and p21 (waf1/cip1) . This is followed by Cdc2 and cyclin B1 inhibition which results in the suppression of tumor growth.
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PMID:Myriocin, a serine palmitoyltransferase inhibitor, suppresses tumor growth in a murine melanoma model by inhibiting de novo sphingolipid synthesis. 2233 10

Glioblastoma is the most common malignant brain tumor, which, despite combined radio- and chemotherapy, recurs and is invariably fatal for affected patients. Members of the sphingolipid (SL) family are potent effectors of glioma cell proliferation. In particular sphingosine-1-phosphate (S1P) and the corresponding G protein-coupled S1P receptors transmit proliferative signals to glioma cells. To investigate the contribution to glioma cell proliferation we inhibited the first step of de novo SL synthesis in p53(wt) and p53(mut) glioma cells, and interfered with S1P signaling specifically in p53(wt) U87MG cells. Subunit silencing (RNAi) or pharmacological antagonism (using myriocin) of serine palmitoyltransferase (SPT; catalyzing the first committed step of SL biosynthesis) reduced proliferation of p53(wt) but not p53(mut) GBM cells. In U87MG cells these observations were accompanied by decreased ceramide, sphingomyelin, and S1P content. Inhibition of SPT upregulated p53 and p21 expression and induced an increase in early and late apoptotic U87MG cells. Exogenously added S1P (complexed to physiological carriers) increased U87MG proliferation. In line, silencing of individual members of the S1P receptor family decreased U87MG proliferation. Silencing and pharmacological inhibition of the ATP-dependent cassette transporter A1 (ABCA1) that facilitates S1P efflux in astrocytes attenuated U87MG growth. Glyburide-mediated inhibition of ABCA1 resulted in intracellular accumulation of S1P raising the possibility that ABCA1 promotes S1P efflux in U87MG glioma cells thereby contributing to inside-out signaling. Our findings indicate that de novo SL synthesis, S1P receptor-mediated signaling, and ABCA1-mediated S1P efflux could provide pharmacological targets to interfere with glioma cell proliferation.
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PMID:Interference with distinct steps of sphingolipid synthesis and signaling attenuates proliferation of U87MG glioma cells. 2600 72