Here, using recombinant hepatoma (HepG2; VL-17A) cells that metabolize ethanol, we show that alcohol dehydrogenase catalysis of ethanol oxidation Z-DEVD-FMK order and subsequent acetaldehyde production controls Egr-1 expression. Further, the induction of Egr-1 enhances expression of other steatosis-related genes, resulting in triglyceride accumulation. Ethanol exposure increased Egr-1 promoter activity, messenger RNA and Egr-1 protein levels in VL-17A cells. Elevated Egr-1 protein was sustained by an ethanol-induced decrease in proteasome activity, thereby stabilizing the Egr-1 protein. Egr-1 induction depended on ethanol oxidation, as it was prevented when ethanol oxidation was blocked. Ethanol exposure induced Egr-1 and triglyceride
accumulation only in alcohol dehydrogenase-expressing cells that produced acetaldehyde. Such induction did not occur in parental, non-metabolizing HepG2 cells or in cells that express only cytochrome P450 2E1. However, direct exposure of HepG2 cells to acetaldehyde induced both Egr-1 protein and triglycerides. Egr-1 over-expression elevated triglyceride levels, which were augmented by ethanol, exposure. However, these triglyceride levels did not exceed those in ethanol-exposed cells that had normal Egr-1 expression. Conversely, Egr-1 knockdown by siRNA only partially
blocked ethanol-induced triglyceride accumulation and was associated not only with lower Egr-1 expression but also attenuation of AZD6738 order SREBP1c and TNF-alpha mRNAs. Double knockdown of both Egr-1 and SREBP-1c abolished ethanol-elicited steatosis. Collectively, our findings provide important new insights into the temporal regulation by ethanol oxidation of Egr-1 and cellular steatosis. (c) 2012 Elsevier Ltd. All rights reserved.”
“Acute myeloid leukemia with inv(3)(q21q26.2) or
t(3;3)(q21;q26.2) is a rare type of leukemia recently added to the World Health Organization (WHO) classification scheme. In this study, we analyzed the clinicopathologic and cytogenetic features of 30 cases of de novo acute myeloid leukemia with inv(3)/t(3;3). The median patient age was 53 years (range, 27-77 years). The platelet count was variable (range, 21-597 x 10(9)/l, median: 128 x 10(9)/l), and two (6.7%) patients presented with thrombocytosis (> 450 x 10(9)/l). Morphologically, these neoplasms showed a spectrum of findings. Myelomonocytic differentiation was most common in 11 HDAC inhibitors list (37%) cases. Morphological evidence of dysplasia was observed in at least one lineage in 23 of 25 (92%) cases in which maturing elements could be assessed. In all, 5 (17%) patients had isolated inv(3) or t(3;3) and 25 (83%) patients had additional cytogenetic abnormalities, most often monosomy 7 (40%). Eleven (37%) patients had a complex karyotype (>= 3 additional abnormalities). FLT3 gene mutation by internal tandem duplication was identified in 2 of 23 (9%) cases assessed. No clinical, pathological, or cytogenetic features independent of inv(3) or t(3;3) correlated with a worse outcome.