A case of benign sugar (clear) cell tumor of the lung with an unusual clinical presentation and its evaluation with computed tomography are reported. A 48-year-old man presented with one episode of hemoptysis. Chest radiographs revealed a round nodule in the lower left lung lobe, and fiberoptic bronchoscopy was normal. On the computed tomography scans, the nodule showed intense post-contrast enhancement (74.7 Hounsfield units). The patient underwent a left thoracotomy, and a segmentectomy was performed. Pathologic examination showed a benign sugar cell tumor of the lung. The patient is alive and has remained free of disease for the last 2 years. To the best of our knowledge, this is the first case report of sugar cell tumor located in lung parenchyma that presented with hemoptysis and the second report of the contrast-enhanced computed tomography findings in this neoplasm.
Folate and its synthetic form, folic acid (FA), are essential vitamins for the regeneration of S-adenosyl methionine molecules, thereby maintaining adequate cellular methylation. The deregulation of DNA methylation is a contributing factor to carcinogenesis, as alterations in genetic methylation may contribute to stem cell reprogramming and dedifferentiation processes that lead to a cancer stem cell (CSC) phenotype. Here, we investigate the potential effects of FA exposure on DNA methylation and colonosphere formation in cultured human colorectal cancer (CRC) cell lines. We show for the first time that HCT116, LS174T, and SW480 cells grown without adequate FA demonstrate significantly impaired colonosphere forming ability with limited changes in CD133, CD166, and EpCAM surface expression. These differences were accompanied by concomitant changes to DNA methyltransferase (DNMT) enzyme expression and DNA methylation levels, which varied depending on cell line. Taken together, these results demonstrate an interaction between FA metabolism and CSC phenotype in vitro and help elucidate a connection between supplemental FA intake and CRC development.
Dichloroacetate (DCA) is a metabolic reprogramming agent that reverses the Warburg effect, causing cancer cells to couple glycolysis to oxidative phosphorylation. This has been shown to induce apoptosis and reduce the growth of various types of cancer but not normal cells. Colorectal cancer cells HCT116, HCT116 p53(-/-), and HCT116 Bax(-/-), were treated with DCA in vitro. Response to treatment was determined by measuring PDH phosphorylation, apoptosis, proliferation, and cell cycle. Molecular changes associated with these responses were determined using western immunoblotting and quantitative PCR. Treatment with 20 mM DCA did not increase apoptosis, despite decreasing levels of anti-apoptotic protein Mcl-1 after 6 h, in any of the cell lines observed. Mcl-1 expression was stabilized with MG-132, an inhibitor of proteasomal degradation. A decrease in Mcl-1 correlated with a decrease in proliferation, both of which showed dose-dependence in DCA treated cells. Cells showed nuclear localization of Mcl-1, however cell cycle was unaffected by DCA treatment. These data suggest that a reduction in the prosurvival Bcl-2 family member Mcl-1 due to increased proteasomal degradation is correlated with the ability of DCA to reduce proliferation of HCT116 human colorectal cancer cells without causing apoptosis.
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