Sofia Kouidou scite author profile

The gene coding for apolipoprotein Al (apoAl), a plasma protein involved in the transport of cholesterol and other lipids in the plasma, is expressed predominantly in liver and intestine. Previous work in our laboratory has shown that different cis-acting elements in the 5'-flanking region of the human apoAl gene control its expression in human hepatoma (HepG2) and colon carcinoma (Caco-2) cells. Hepatocyte-specific expression is mediated by elements within the -256 to -41 DNA region relative to the apoAl gene transcription start site (+1). In this study it was found that the -222 to -110 apoAI gene region is necessary and sufficient for expression in HepG2 cells. It was also found that this DNA region functions as a powerful hepatocyte-specific transcriptional enhancer. Gel retardation and DNase I protection experiments showed that HepG2 cells contain proteins that bind to specific sites, sites A (-214 to -192), B (-169 to -146), and C (-134 to -119), within this enhancer. Site-directed mutagenesis that prevents binding of these proteins to individual or different combinations of these sites followed by functional analysis of these mutants in HepG2 cells revealed that protein binding to any one of these sites in the absence of binding to the others was not sufficient for expression. Binding to any two of these sites in any combination was sufficient for only low levels of expression. Binding to all three sites was essential for maximal expression. These results indicate that the transcriptional activity of the apoAl gene in liver cells is dependent on synergistic interactions between transcription factors bound to its enhancer.The accumulation and utilization of cholesterol by tissues are dependent on a dynamic balance between the mechanisms that determine the rates of de novo cholesterol synthesis, the rates of synthesis and hydrolysis of stored pools of cholesteryl esters, and the rates of uptake and removal of cholesterol from cells by plasma lipoproteins (reviewed in references 4 and 20). Removed cholesterol binds to a species of high-density lipoprotein (HDL) particles containing primarily apolipoprotein AI (apoAI). After its esterification by lecithin:cholesterol acyltransferase (an enzyme activated by apoAI), cholesterol is transported to the liver, where it is excreted either directly or in the form of bile acids (reviewed in references 3, 20, and 24). The critical role of HDL and apoAI in cholesterol homeostasis, and in particular in preventing deposition of excessive amounts of cholesterol in coronary and other arteries, is exemplified by epidemiological and genetic evidence indicating a strong correlation between decreased HDL and apoAI plasma levels and the development of atherosclerotic heart disease (reviewed in references 3, 39, and 51). Thus, the recent observation that there is a direct correlation between apoAI plasma levels and hepatic apoAI mRNA concentrations (54, 55) suggests that factors controlling expression of the apoAI gene in liver could play an important role in tissue cholesterol a...

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Recovering circulating extracellular or cell-free RNA from bodily fluids

Tzimagiorgis

Michailidou

Κritis

et al. 2011

Cancer Epidemiology

100

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Human Epigenome Data Reveal Increased CpG Methylation in Alternatively Spliced Sites and Putative Exonic Splicing Enhancers

Anastasiadou

Malousi

Maglaveras

et al. 2011

DNA and Cell Biology

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The role of gene body methylation, which represents a major part of methylation in DNA, remains mostly unknown. Evidence based on the CpG distribution associates its presence with nucleosome positioning and alternative splicing. Recently, it was also shown that cytosine methylation influences splicing. However, to date, there is no methylation-based data on the association of methylation with alternative splicing and the distribution in exonic splicing enhancers (ESEs). We presently report that, based on the computational analysis of the Human Epigenome Project data, CpG hypermethylation (>80%) is frequent in alternatively spliced sites (particularly in noncanonical) but not in alternate promoters. The methylation frequency increases in sequences containing multiple putative ESEs. However, significant differences in the extent of methylation are observed among different ESEs. Specifically, moderate levels of methylation, ranging from 20% to 80%, are frequent in SRp55-binding elements, which are associated with response to extracellular conditions, but not in SF2/ASF, primarily responsible for alternative splicing, or in CpG islands. Finally, methylation is more frequent in the presence of AT repeats and CpGs separated by 10 nucleotides and lower in adjacent CpGs, probably indicating its dependence on helical formations and on the presence of nucleosome positioning-related sequences. In conclusion, our results show the regulation of methylation in ESEs and support its involvement in alternative splicing.

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Genetic Characterization of the M RNA Segment of Crimean Congo Hemorrhagic Fever Virus Strains, China

Papa

Ma²,

Kouidou³

et al. 2002

Emerg. Infect. Dis.

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We report the genetic characterization of the M RNA segment of Crimean Congo hemorrhagic fever virus (CCHFV). Two CCHFV strains isolated in Xinjiang Province, a region endemic for CCHF in northwestern China, were studied. These strains, designated BA66019 and BA8402, were isolated in 1965 and 1984 from a CCHF patient and Hyalomma ticks, respectively. Viral RNA was extracted from suckling mouse brains infected with these two strains, amplified, and sequenced. The full-length M RNA, consisting of 5.3 kb, was determined for both strains. The coding nucleotide sequences of the two strains differed from each other by 17.5% and from the reference CCHFV strain IbAr10200 by a mean of 22%, suggesting that the genus Nairovirus comprises a group of genetically highly diverse strains.

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Epigenetic mechanisms in metal toxicity

Fragou

Kouidou

et al. 2011

Toxicology Mechanisms and Methods

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The true understanding of epigenetics evolved over time as our knowledge on DNA methylation and chromatin modifications and their effects on gene expression increased. The current flurry of research on epigenetics and the increasing documentation of the effects of various environmental factors on DNA methylation, chromatin modification, as well as on the expression of small non-coding RNAs (ncRNAs) have expanded the scope of research on the etiology of various diseases including cancer. The current review briefly discusses various molecular mechanisms of epigenetic regulation of gene expression, and expands the discussion with examples of heavy metal-induced alterations of gene expression and the associated epigenetic changes.

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Sofia Kouidou

Synergistic interactions between transcription factors control expression of the apolipoprotein AI gene in liver cells.

Recovering circulating extracellular or cell-free RNA from bodily fluids

Human Epigenome Data Reveal Increased CpG Methylation in Alternatively Spliced Sites and Putative Exonic Splicing Enhancers

Genetic Characterization of the M RNA Segment of Crimean Congo Hemorrhagic Fever Virus Strains, China

Epigenetic mechanisms in metal toxicity

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