Your search keyword '"Iliopoulos, Dimitris"' showing total 3 results

1. Pulmonary microRNA profiling in a mouse model of ventilator-induced lung injury.

Author

Vaporidi, Katerina, Vergadi, Eleni, Kaniaris, Evangelos, Hatziapostolou, Maria, Lagoudaki, Eleni, Georgopoulos, Dimitrios, Zapol, Warren M., Bloch, Kenneth D., and Iliopoulos, Dimitris

Abstract

The aim of this study was to investigate the changes induced by high tidal volume ventilation (HVTV) in pulmonary expression of micro-RNAs (miRNAs) and identify potential target genes and corresponding miRNA-gene networks. Using a real-time RT-PCR-based array in RNA samples from lungs of mice subjected to HVTV for 1 or 4 h and control mice, we identified 65 miRNAs whose expression changed more than twofold upon HVTV. An inflammatory and a TGF-β-signaling miRNA-gene network were identified by in silico pathway analysis being at highest statistical significance (P = 10-43 and P = 10-28, respectively). In the inflammatory network, IL-6 and SOCS-1, regulated by miRNAs let-7 and miR-155, respectively, appeared as central nodes. In TGF-β-signaling network, SMAD-4, regulated by miR-146, appeared as a central node. The contribution of miRNAs to the development of lung injury was evaluated in mice subjected to HVTV treated with a precursor or antagonist of miR-21, a miRNA highly upregulated by HVTV. Lung compliance was preserved only in mice treated with anti-miR-21 but not in mice treated with pre-miR-21 or negative-control miRNA. Both alveolar-arterial oxygen difference and protein levels in bronchoalveolar lavage were lower in mice treated with anti-miR-21 than in mice treated with pre-miR-21 or negative-control miRNA (DA-a: 66 ± 27 vs. 131 ± 22, 144 ± 10 mmHg, respectively, P < 0.001; protein concentration: 1.1 ± 0.2 vs. 2.3 ± 1, 2.1 ± 0.4 mg/ml, respectively, P < 0.01). Our results show that HVTV induces changes in miRNA expression in mouse lungs. Modulation of miRNA expression can affect the development of HVTV-induced lung injury. [ABSTRACT FROM AUTHOR]

Published

2012

2. The role of the pro-apoptotic protein Siva in the pathogenesis of Familial Mediterranean fever: A structural and functional analysis

Author

Goulielmos, George N., Petraki, Eleni, Vassou, Despoina, Eliopoulos, Elias, Iliopoulos, Dimitris, Sidiropoulos, Prodromos, Aksentijevich, Ivona, Kardassis, Dimitrios, and Boumpas, Dimitrios T.

Subjects

*APOPTOSIS, *FAMILIAL Mediterranean fever, *GENETIC mutation, *MEDICAL imaging systems, *THREE-dimensional imaging, *BIOLOGY experiments, *INFLAMMATION, *GENETICS

Abstract

Abstract: Familial Mediterranean fever (FMF) is an autosomal, recessive disease, attributed to mutations in MEFV gene encoding pyrin, which is characterized by recurrent, acute and self-limiting attacks of fever as well as an increased neutrophil and monocyte apoptosis. Most disease-associated mutations in MEFV gene reside on the C-terminal PRYSPRY (B30.2) domain of pyrin, an area found to interact with the pro-apoptotic protein Siva. Because apoptotic events may be contributing to endogenous inflammation we hypothesized that mutations in pyrin may affect Siva-mediated apoptosis. The confirmation of this hypothesis would be of a great biological significance since it would be demonstrated a connection between apoptosis and inflammation. We used homology modeling to construct a 3-D model of Siva protein and the constructed model of Siva defined structural elements with potential of binding other proteins to induce apoptosis. Given that Siva protein binds pyrin as shown by transfection and immunoprecipitation experiments, apoptosis was assessed by FACS and Western blotting. No differences in rates of apoptosis in myeloid cells (THP-1) upon transfection with either wt pyrin or mutant forms of pyrin were found. Patients with FMF did not display any mutations in the Siva-1 (full length) gene. Siva-1 was not linked to pyrin in the major predicted FMF gene network constructed using a literature-curated gene signature for FMF. These results suggest that Siva-mediated unprovoked apoptosis is not likely to be involved in the pathogenesis of FMF. [ABSTRACT FROM AUTHOR]

Published

2010

3. In Vivo Aortic Valve Thermal Heterogeneity in Patients With Nonrheumatic Aortic Valve Stenosis: The First In Vivo Experience in Humans

Author

Toutouzas, Konstantinos, Drakopoulou, Maria, Synetos, Andreas, Tsiamis, Eleftherios, Agrogiannis, George, Kavantzas, Nikolaos, Patsouris, Eustratios, Iliopoulos, Dimitris, Theodoropoulos, Stergios, Yacoub, Magdi, and Stefanadis, Christodoulos

Subjects

*AORTIC stenosis, *CYTOKINES, *INFLAMMATION, *AORTIC valve insufficiency

Abstract

Objectives: We investigated in vivo in aortic valve stenosis (AVS) whether there is: 1) thermal heterogeneity within the valve leaflets; 2) temperature difference between the leaflets and the ascending aortic wall; and 3) a possible correlation between heat production, inflammation, and neoangiogenesis. Background: Histological studies have demonstrated a potential role of inflammation and neoangiogenesis in AVS. Methods: We examined 96 leaflets scheduled for aortic valve replacement. Twenty-five patients had AVS, and 7 had aortic valve insufficiency (AVI). Temperature measurements were performed right before hypothermic cardioplegia. Temperature difference (ΔT) was assigned as the mean temperature of each leaflet minus the temperature of the aortic wall. Histological, immunohistological analysis, and vascular endothelial growth factor (VEGF) immunoreactivity was performed. Results: Significant thermal heterogeneity was recorded within the leaflets of AVS, compared with AVI (1.52 ± 1.35°C vs. 0.13 ± 0.11°C, p < 0.01). In AVS ΔT was greater in all leaflets compared with the AVI group (p < 0.01). Leaflets of AVS had increased inflammatory cell infiltration, calcium deposit, and anti-VEGF expression compared with AVI (p < 0.01). Conclusions: Thermal heterogeneity is increased in AVS and correlates with inflammatory mononuclear cell infiltration, expression of pro-inflammatory cytokines and neoangiogenic factors. [Copyright &y& Elsevier]

Published

2008