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Target Concepts:
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Query: UMLS:C0699790 (
colon cancer
)
28,837
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.
...
PMID:De novo N-palmitoylsphingosine synthesis is the major biochemical mechanism of ceramide accumulation following p53 up-regulation. 1840 May 37
Pancreatic cancer, the fourth leading cause of cancer death in the United States, has a negative prognosis because metastasis occurs before symptoms manifest. Leiodermatolide, a polyketide macrolide with antimitotic activity isolated from a deep water sponge of the genus Leiodermatium, exhibits potent and selective cytotoxicity toward the pancreatic cancer cell lines AsPC-1, PANC-1, BxPC-3, and MIA PaCa-2, and potent cytotoxicity against skin, breast and
colon cancer
cell lines. Induction of apoptosis by leiodermatolide was confirmed in the AsPC-1, BxPC-3 and MIA PaCa-2 cells. Leiodermatolide induces cell cycle arrest but has no effects on in vitro polymerization or depolymerization of tubulin alone, while it enhances polymerization of tubulin containing microtubule associated proteins (MAPs). Observations through confocal microscopy show that leiodermatolide, at low concentrations, causes minimal effects on polymerization or depolymerization of the microtubule network in interphase cells, but disruption of spindle formation in mitotic cells. At higher concentrations, depolymerization of the microtubule network is observed. Visualization of the growing microtubule in HeLa cells expressing GFP-tagged plus end binding protein
EB-1
showed that leiodermatolide stopped the polymerization of tubulin. These results suggest that leiodermatolide may affect tubulin dynamics without directly interacting with tubulin and hint at a unique mechanism of action. In a mouse model of metastatic pancreatic cancer, leiodermatolide exhibited significant tumor reduction when compared to gemcitabine and controls. The antitumor activities of leiodermatolide, as well as the proven utility of antimitotic compounds against cancer, make leiodermatolide an interesting compound with potential chemotherapeutic effects that may merit further research.
...
PMID:Leiodermatolide, a novel marine natural product, has potent cytotoxic and antimitotic activity against cancer cells, appears to affect microtubule dynamics, and exhibits antitumor activity. 2737 28
