18 results on '"Eleni Aggelidou"'
Search Results
2. Hypoxia Promotes Cartilage Regeneration in Cell-Seeded 3D-Printed Bioscaffolds Cultured with a Bespoke 3D Culture Device
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Konstantinos Theodoridis, Eleni Aggelidou, Maria-Eleni Manthou, and Aristeidis Kritis
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Inorganic Chemistry ,cartilage ,hypoxia ,mesenchymal stem cells ,TGF-β2 ,PCL 3D-printed scaffolds ,3D culture device and method ,Organic Chemistry ,General Medicine ,Physical and Theoretical Chemistry ,Molecular Biology ,Spectroscopy ,Catalysis ,Computer Science Applications - Abstract
In this study, we investigated the effect of oxygen tension on the expansion of ADMSCs and on their differentiation toward their chondrocytic phenotype, regenerating a lab-based cartilaginous tissue with superior characteristics. Controversial results with reference to MSCs that were cultured under different hypoxic levels, mainly in 2D culturing settings combined with or without other biochemical stimulus factors, prompted our team to study the role of hypoxia on MSCs chondrogenic differentiation within an absolute 3D environment. Specifically, we used 3D-printed honeycomb-like PCL matrices seeded with ADMSCs in the presence or absence of TGF and cultured with a prototype 3D cell culture device, which was previously shown to favor nutrient/oxygen supply, cell adhesion, and infiltration within scaffolds. These conditions resulted in high-quality hyaline cartilage that was distributed uniformly within scaffolds. The presence of the TGF medium was necessary to successfully produce cartilaginous tissues with superior molecular and increased biomechanical properties. Despite hypoxia’s beneficial effect, it was overall not enough to fully differentiate ADMSCs or even promote cell expansion within 3D scaffolds alone.
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- 2023
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3. Evaluation of Cocaine Effect on Endogenous Metabolites of HepG2 Cells Using Targeted Metabolomics
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Georgios Theodoridis, Eleni Aggelidou, Adamantios Krokos, Aristeidis Kritis, Olga Deda, Christina Virgiliou, Helen G. Gika, and Nikolaos Raikos
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Taurine ,HepG2 ,Pharmaceutical Science ,Organic chemistry ,Glutamic Acid ,Endogeny ,Hypotaurine ,Pharmacology ,01 natural sciences ,Article ,Analytical Chemistry ,03 medical and health sciences ,chemistry.chemical_compound ,QD241-441 ,Cocaine ,Tandem Mass Spectrometry ,Drug Discovery ,Extracellular ,targeted metabolomics ,Cytotoxic T cell ,Humans ,Metabolomics ,liquid chromatography ,Physical and Theoretical Chemistry ,030304 developmental biology ,mass spectrometry ,0303 health sciences ,Aspartic Acid ,Alanine ,010401 analytical chemistry ,cocaine toxicity ,Metabolism ,Hep G2 Cells ,0104 chemical sciences ,Metabolic pathway ,chemistry ,Chemistry (miscellaneous) ,Multivariate Analysis ,Metabolome ,Molecular Medicine ,Hydrophobic and Hydrophilic Interactions ,Intracellular ,Biomarkers ,Metabolic Networks and Pathways ,Chromatography, Liquid - Abstract
Cocaine toxicity has been a subject of study because cocaine is one of the most common and potent drugs of abuse. In the current study the effect of cocaine on human liver cancer cell line (HepG2) was assessed. Cocaine toxicity (IC50) on HepG2 cells was experimentally calculated using an XTT assay at 2.428 mM. The metabolic profile of HepG2 cells was further evaluated to investigate the cytotoxic activity of cocaine at 2 mM at three different time points. Cell medium and intracellular material samples were analyzed with a validated HILIC-MS/MS method for targeted metabolomics on an ACQUITY Amide column in gradient mode with detection on a triple quadrupole mass spectrometer in multiple reaction monitoring. About 106 hydrophilic metabolites from different metabolic pathways were monitored. Multivariate analysis clearly separated the studied groups (cocaine-treated and control samples) and revealed potential biomarkers in the extracellular and intracellular samples. A predominant effect of cocaine administration on alanine, aspartate, and glutamate metabolic pathway was observed. Moreover, taurine and hypotaurine metabolism were found to be affected in cocaine-treated cells. Targeted metabolomics managed to reveal metabolic changes upon cocaine administration, however deciphering the exact cocaine cytotoxic mechanism is still challenging.
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- 2021
4. Electrospun wound dressings containing bioactive natural products: physico-chemical characterization and biological assessment
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Ioannis Tsivintzelis, Eleni Aggelidou, Aristeidis Kritis, Konstantinos N. Kontogiannopoulos, Angélique Rat, Vassilios P. Papageorgiou, Konstantinos Theodoridis, Anne Willems, Andreana N. Assimopoulou, and Athanasios S Arampatzis
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Biomedical Engineering ,Nanofibers ,Medicine (miscellaneous) ,Wound healing ,Context (language use) ,02 engineering and technology ,01 natural sciences ,SHIKONIN ,Biomaterials ,Alkannin ,chemistry.chemical_compound ,Tissue engineering ,CHEMISTRY ,Medical technology ,Medicine and Health Sciences ,R855-855.5 ,Shikonin ,Skin tissue engineering ,Skin ,RELEASE ,Electrospinning ,010405 organic chemistry ,SCAFFOLD ,PROLIFERATION ,Biology and Life Sciences ,POLYCAPROLACTONE ,021001 nanoscience & nanotechnology ,Cellulose acetate ,0104 chemical sciences ,Wound dressings ,chemistry ,TISSUE ,Nanofiber ,tissue engineering ,Drug delivery ,Ceramics and Composites ,ALKANNIN DERIVATIVES ,0210 nano-technology ,Antibacterial activity ,Nuclear chemistry ,Research Article - Abstract
Background Current research on skin tissue engineering has been focusing on novel therapies for the effective management of chronic wounds. A critical aspect is to develop matrices that promote growth and uniform distribution of cells across the wound area, and at the same time offer protection, as well as deliver drugs that help wound healing and tissue regeneration. In this context, we aimed at developing electrospun scaffolds that could serve as carriers for the bioactive natural products alkannin and shikonin (A/S). Methods A series of polymeric nanofibers composed of cellulose acetate (CA) or poly(ε-caprolactone) (PCL) and varying ratios of a mixture of A/S derivatives, has been successfully fabricated and their physico-chemical and biological properties have been explored. Results Scanning electron microscopy revealed a uniform and bead-free morphology for CA scaffolds, while for PCL beads along the fibers were observed. The average diameters for all nanofibers ranged between 361 ± 47 and 487 ± 88 nm. During the assessment of physicochemical characteristics, CA fiber mats exhibited a more favored profile, while the assessment of the biological properties of the scaffolds showed that CA samples containing A/S mixture up to 1 wt.% achieved to facilitate attachment, survival and migration of Hs27 fibroblasts. With respect to the antimicrobial properties of the scaffolds, higher drug-loaded (1 and 5 wt.%) samples succeeded in inhibiting the growth of Staphylococcus epidermidis and S. aureus around the edges of the fiber mats. Finally, carrying out a structure-activity relationship study regarding the biological activities (fibroblast toxicity/proliferation and antibacterial activity) of pure A/S compounds – present in the A/S mixture – we concluded that A/S ester derivatives and the dimeric A/S augmented cell proliferation after 3 days, whereas shikonin proved to be toxic at 500 nM and 1 μM and alkannin only at 1 μM. Additionally, alkannin, shikonin and acetyl-shikonin showed more pronounced antibacterial properties than the other esters, the dimeric derivative and the A/S mixture itself. Conclusions Taken together, these findings indicate that embedding A/S derivatives into CA nanofibers might be an advantageous drug delivery system that could also serve as a potential candidate for biomedical applications in the field of skin tissue engineering.
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- 2021
5. An effective device and method for enhanced cell growth in 3D scaffolds: Investigation of cell seeding and proliferation under static and dynamic conditions
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Eleni Aggelidou, Aristeidis Kritis, Konstantinos Theodoridis, Kleoniki Keklikoglou, Antonios Tsimponis, Athanasios Mihailidis, Maria Eleni Manthou, Athina Bakopoulou, and Efterpi Demiri
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Scaffold ,Materials science ,Cell seeding ,Cell ,Cell Culture Techniques ,Bioengineering ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,Biomaterials ,3D cell culture ,medicine ,Humans ,Cell adhesion ,Cells, Cultured ,Cell Proliferation ,Tissue Engineering ,Tissue Scaffolds ,Cell growth ,High cell ,021001 nanoscience & nanotechnology ,0104 chemical sciences ,medicine.anatomical_structure ,Mechanics of Materials ,Printing, Three-Dimensional ,Seeding ,0210 nano-technology ,Biomedical engineering - Abstract
Cell adhesion on 3D-scaffolds is a challenging task to succeed high cell densities and even cell distribution. We aimed to design a 3D-cell Culture Device (3D-CD) for static seeding and cultivation, to be used with any kind of scaffold, limiting cell loss and facilitating nutrient supply. 3D printing technology was used for both scaffold and device fabrication. Apart from testing the device, the purpose of this study was to assess and compare static and dynamic seeding and cultivation methods, of wet and dry scaffolds, under normoxic and hypoxic conditions and their effects on parameters such as cell seeding efficiency, cell distribution and cell proliferation. Human adipose tissue was harvested and cultured in 3D-printed poly(epsilon-caprolactone) scaffolds. Micro-CT scans were performed and projection images were reconstructed into cross section images. We created 3D images to visualize cell distribution and orientation inside the scaffolds. The group of prewetted scaffolds was the most favorable to cell attachment. The 3D-cell Culture Device (3D-CD) enhanced cell seeding efficiency with almost no cell loss. We suggest that the most favorable outcome can be produced with static seeding in the device for 24 h, followed either by static cultivation in the same device or by dynamic cultivation.
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- 2020
6. Novel tissue engineering scaffolds as wound dressings loaded with Alkannins/Shikonins as active ingredients
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Konstantinos N. Kontogiannopoulos, Andreana N. Assimopoulou, Eleni Aggelidou, Athanasios S Arampatzis, VP Papageorgiou, Aristeidis Kritis, Konstantinos Theodoridis, and Ioannis Tsivintzelis
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Active ingredient ,Tissue engineering ,Chemistry ,Biomedical engineering - Published
- 2019
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7. Hyaline cartilage next generation implants from adipose-tissue-derived mesenchymal stem cells: Comparative study on 3D-printed polycaprolactone scaffold patterns
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Maria Eleni Manthou, Efterpi Demiri, Athina Bakopoulou, Christos Salpistis, Eleni Aggelidou, Theofanis Vavilis, Konstantinos Theodoridis, Athanassios Mihailidis, Aristeidis Kritis, Anna Boukla, and Antonios Tsimponis
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Adult ,Scaffold ,Materials science ,Polyesters ,0206 medical engineering ,Biomedical Engineering ,Medicine (miscellaneous) ,02 engineering and technology ,Regenerative medicine ,Biomaterials ,03 medical and health sciences ,chemistry.chemical_compound ,Tissue engineering ,medicine ,Humans ,030304 developmental biology ,Bioprosthesis ,0303 health sciences ,Tissue Scaffolds ,Hyaline cartilage ,Cartilage ,Mesenchymal stem cell ,Mesenchymal Stem Cells ,Middle Aged ,Chondrogenesis ,020601 biomedical engineering ,medicine.anatomical_structure ,Hyaline Cartilage ,chemistry ,Adipose Tissue ,Polycaprolactone ,Printing, Three-Dimensional ,Female ,Biomedical engineering - Abstract
We used additive manufacturing to fabricate 3D-printed polycaprolactone scaffolds of different geometry topologies and porosities. We present a comparative analysis of hyaline cartilage development from adipose-tissue-derived mesenchymal stem cells (ADMSCs) on three different, newly designed scaffold geometry patterns. The first scaffold design (MESO) was based on a rectilinear layer pattern. For the second pattern (RO45), we employed a 45° rotational layer loop. The design for the third scaffold (3DHC) was a three-dimensional honeycomb-like pattern with a hexagonal cellular distribution and small square shapes. We examined cell proliferation, colonization, and differentiation, in relation to the scaffold's structure, as well as to the mechanical properties of the final constructs. We gave emphasis on the scaffolds, both microarchitecture and macroarchitecture, for optimal and enhanced chondrogenic differentiation, as an important parameter, not well studied in the literature. Among the three patterns tested, RO45 was the most favourable for chondrogenic differentiation, whereas 3DHC better supported cell proliferation and scaffold penetration, exhibiting also the highest rate of increase onto the mechanical properties of the final construct. We conclude that by choosing the optimal scaffold architecture, the resulting properties of our cartilaginous constructs can better approximate those of the physiological cartilage.
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- 2018
8. Oxygen–Glucose Deprivation (OGD) Modulates the Unfolded Protein Response (UPR) and Inflicts Autophagy in a PC12 Hypoxia Cell Line Model
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Kyriakos Mellidis, Maria Albani, Aristeidis Kritis, Antigone Lazou, Chryssa Pourzitaki, Angeliki Cheva, Katerina Chatzimeletiou, Aikaterini Kaidoglou, Eleni Stamoula, Nikoleta Delivanoglou, Theofanis Vavilis, and Eleni Aggelidou
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0301 basic medicine ,Programmed cell death ,Cell Survival ,Cell ,PC12 cell line ,Apoptosis ,Biology ,PC12 Cells ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,chemistry.chemical_compound ,0302 clinical medicine ,Downregulation and upregulation ,Autophagy ,medicine ,Animals ,Endoplasmic Reticulum Chaperone BiP ,Neurons ,Cell Biology ,General Medicine ,Hypoxia (medical) ,Cell Hypoxia ,Rats ,Cell biology ,Oxygen ,Glucose ,030104 developmental biology ,medicine.anatomical_structure ,chemistry ,Cell culture ,Unfolded Protein Response ,Unfolded protein response ,medicine.symptom ,030217 neurology & neurosurgery - Abstract
Hypoxia is the lack of sufficient oxygenation of tissue, imposing severe stress upon cells. It is a major feature of many pathological conditions such as stroke, traumatic brain injury, cerebral hemorrhage, perinatal asphyxia and can lead to cell death due to energy depletion and increased free radical generation. The present study investigates the effect of hypoxia on the unfolded protein response of the cell (UPR), utilizing a 16-h oxygen-glucose deprivation protocol (OGD) in a PC12 cell line model. Expression of glucose-regulated protein 78 (GRP78) and glucose-regulated protein 94 (GRP94), key players of the UPR, was studied along with the expression of glucose-regulated protein 75 (GRP75), heat shock cognate 70 (HSC70), and glyceraldehyde 3-phosphate dehydrogenase, all with respect to the cell death mechanism(s). Cells subjected to OGD displayed upregulation of GRP78 and GRP94 and concurrent downregulation of GRP75. These findings were accompanied with minimal apoptotic cell death and induction of autophagy. The above observation warrants further investigation to elucidate whether autophagy acts as a pro-survival mechanism that upon severe and prolonged hypoxia acts as a concerted cell response leading to cell death. In our OGD model, hypoxia modulates UPR and induces autophagy.
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- 2015
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9. Assessment of cartilage regeneration on 3D collagen-polycaprolactone scaffolds: Evaluation of growth media in static and in perfusion bioreactor dynamic culture
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Eleni Aggelidou, Marilena Manthou, Athina Bakopoulou, Konstantinos Theodoridis, Aristeidis Kritis, and Efterpi Demiri
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Scaffold ,Biocompatibility ,Cell Survival ,Surface Properties ,Polyesters ,Primary Cell Culture ,Gene Expression ,Biocompatible Materials ,02 engineering and technology ,01 natural sciences ,Regenerative medicine ,chemistry.chemical_compound ,Bioreactors ,Chondrocytes ,Colloid and Surface Chemistry ,Tissue engineering ,0103 physical sciences ,Humans ,Regeneration ,Aggrecans ,Physical and Theoretical Chemistry ,Cell Proliferation ,Tissue Engineering ,Tissue Scaffolds ,010304 chemical physics ,Mesenchymal stem cell ,Biomaterial ,Cell Differentiation ,Mesenchymal Stem Cells ,SOX9 Transcription Factor ,Surfaces and Interfaces ,General Medicine ,021001 nanoscience & nanotechnology ,Chondrogenesis ,Culture Media ,Cartilage ,chemistry ,Printing, Three-Dimensional ,Polycaprolactone ,Collagen ,0210 nano-technology ,Porosity ,Biomarkers ,Biotechnology ,Biomedical engineering - Abstract
Efforts on bioengineering are directed towards the construction of biocompatible scaffolds and the determination of the most favorable microenvironment, which will better support cell proliferation and differentiation. Perfusion bioreactors are attracting growing attention as an effective, modern tool in tissue engineering. A natural biomaterial extensively used in regenerative medicine with outstanding biocompatibility, biodegradability and non-toxic characteristics, is collagen, a structural protein with undisputed beneficial characteristics. This is a study designed according to the above considerations. 3D printed polycaprolactone (PCL) scaffolds with rectangular pores were coated with collagen either as a coating on the scaffold's trabeculae, or as a gel-cell solution penetrating scaffolds' pores. We employed histological, molecular and imaging techniques to analyze colonization, proliferation and chondrogenic differentiation of Adipose Derived Mesenchymal Stem Cells (ADMSCs). Two different differentiation culture media were employed to test chondrogenic differentiation on gelated and non gelated PCL scaffolds in static and in perfusion bioreactors dynamic culture conditions. In dynamic culture, non gelated scaffolds combined with our in house TGF-β2 based medium, augmented chondrogenic differentiation performance, which overall was significantly less favorable compared to StemPro™ propriety medium. The beneficial mechanical stimulus of dynamic culture, appears to outgrow the disadvantage of the "weaker" TGF-β2 medium used for chondrogenic differentiation. Even though cells in static culture grew well on the scaffold, there was limited penetration inside the construct, so the purpose of the 3D culture was not fully served. In contrast dynamic culture achieved better penetration and uniform distribution of the cells within the scaffold.
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- 2019
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10. An HNF4α-miRNA Inflammatory Feedback Circuit Regulates Hepatocellular Oncogenesis
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Eleni Aggelidou, Christos Polytarchou, Dimitrios Iliopoulos, Maria Hatziapostolou, George A. Poultsides, Hisanobu Ogata, Alexandra Drakaki, Savina Jaeger, Kevin Struhl, Michael Karin, and Margarita Hadzopoulou-Cladaras
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STAT3 Transcription Factor ,Carcinoma, Hepatocellular ,Cell ,Biology ,medicine.disease_cause ,General Biochemistry, Genetics and Molecular Biology ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Cell Line, Tumor ,microRNA ,medicine ,Animals ,Humans ,STAT3 ,Receptor ,030304 developmental biology ,Inflammation ,0303 health sciences ,Biochemistry, Genetics and Molecular Biology(all) ,Liver Neoplasms ,medicine.disease ,Receptors, Interleukin-6 ,3. Good health ,Disease Models, Animal ,MicroRNAs ,Hepatocyte nuclear factors ,Cell Transformation, Neoplastic ,medicine.anatomical_structure ,Hepatocyte Nuclear Factor 4 ,Apoptosis ,030220 oncology & carcinogenesis ,Immunology ,Systemic administration ,biology.protein ,Cancer research ,Liver cancer ,Carcinogenesis ,030217 neurology & neurosurgery - Abstract
SummaryHepatocyte nuclear factor 4α (HNF4α) is essential for liver development and hepatocyte function. Here, we show that transient inhibition of HNF4α initiates hepatocellular transformation through a microRNA-inflammatory feedback loop circuit consisting of miR-124, IL6R, STAT3, miR-24, and miR-629. Moreover, we show that, once this circuit is activated, it maintains suppression of HNF4α and sustains oncogenesis. Systemic administration of miR-124, which modulates inflammatory signaling, prevents and suppresses hepatocellular carcinogenesis by inducing tumor-specific apoptosis without toxic side effects. As we also show that this HNF4α circuit is perturbed in human hepatocellular carcinomas, our data raise the possibility that manipulation of this microRNA feedback-inflammatory loop has therapeutic potential for treating liver cancer.
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- 2011
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11. Investigation of the effects of aldosterone on the cardiac cycle in the HL-1 mouse atrial cardiomyocyte cell line
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Maria Albani, Kostantinos Tsirlis, Eleni Aggelidou, Aristeidis Kritis, Konstantinos Kallaras, Efstratios K. Kosmidis, and Anastasios Tsarouhas
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chemistry.chemical_compound ,medicine.medical_specialty ,Aldosterone ,Cardiac cycle ,chemistry ,Cell culture ,business.industry ,Internal medicine ,Cardiology ,Medicine ,business - Published
- 2015
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12. Functional characterization of hepatocyte nuclear factor-4α dimerization interface mutants
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Constantinos Demetriades, Panagiota Iordanidou, Margarita Hadzopoulou-Cladaras, Eleni Aggelidou, and Olga Piltsi
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Chemistry ,Immunoprecipitation ,Dimer ,Point mutation ,Mutant ,Cell Biology ,Biochemistry ,Nuclear receptor coactivator 1 ,chemistry.chemical_compound ,Nuclear receptor ,Coactivator ,Biophysics ,Molecular Biology ,DNA - Abstract
Hepatocyte nuclear factor-4 (HNF-4α), a member of the nuclear receptor superfamily, binds DNA exclusively as a homodimer. Dimerization controls important aspects of receptor function, such as DNA binding, protein stability, ligand binding and interaction with coactivators. Crystallographic data of the HNF-4α ligand-binding domain (LBD) demonstrated that the homodimer interface is composed of residues in helices 7, 9 and 10 with intermolecular salt bridges, hydrogen bonds and hydrophobic interactions contributing to the stability of the interface. To investigate the importance of the proposed ionic interactions for HNF-4α dimerization, interactions critical for formation of the LBD homodimer interface were disrupted by introducing point mutations in residues D261N (H7), E269Q (H7), Q307L (H9), D312N (H9) and Q336L (H10). Mutants were analysed for transactivation, coactivator interaction, DNA binding and dimerization. EMSA analysis showed that the mutants are able to bind DNA as dimers and coimmunoprecipitation assays confirmed dimerization in solution. Furthermore, the mutations do not compromise HNF-4α activity and are responsive to PPAR-gamma coactivator-1 (PGC-1). Finally, residue R324, located in the H9/H10 loop, which was suspected to be involved in dimer stabilization via an ionic interaction with residue E276, was studied. In contrast to the conservative substitution R324H the mutation R324L abolishes HNF-4α transcriptional activity and coactivator recruitment, revealing that the nature of substitution may play an important role in HNF-4α function.
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- 2006
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13. Critical Role of Residues Defining the Ligand Binding Pocket in Hepatocyte Nuclear Factor-4α
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Margarita Hadzopoulou-Cladaras, Panayota Tsantili, Panagiota Iordanidou, Georgios Papadopoulos, and Eleni Aggelidou
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Chloramphenicol O-Acetyltransferase ,Models, Molecular ,Transcriptional Activation ,Transcription, Genetic ,Protein Conformation ,Blotting, Western ,Molecular Sequence Data ,Plasma protein binding ,Biology ,Crystallography, X-Ray ,Ligands ,Transfection ,Biochemistry ,Protein Structure, Secondary ,Cell Line ,Transactivation ,Protein structure ,Animals ,Humans ,Point Mutation ,Amino Acid Sequence ,Molecular Biology ,Peptide sequence ,DNA ,Cell Biology ,Phosphoproteins ,Ligand (biochemistry) ,Protein Structure, Tertiary ,DNA-Binding Proteins ,Hepatocyte nuclear factors ,Hepatocyte Nuclear Factor 4 ,Hepatocyte nuclear factor 4 ,Nuclear receptor ,COS Cells ,Mutation ,Dimerization ,Plasmids ,Protein Binding ,Transcription Factors - Abstract
Hepatocyte nuclear factor-4alpha (HNF-4alpha), a member of the nuclear receptor superfamily, is a crucial regulator of a large number of genes involved in glucose, cholesterol, and fatty acid metabolism. Unlike other members of the superfamily, HNF-4alpha activates transcription in the absence of exogenously added ligand. Recently published crystallographic data show that fatty acids are endogenous ligands for HNF-4. Transcriptional analysis of point mutations of the residues that are located in helices H3, H5, H10, and H11, which have been shown to come in contact with the ligand, resulted in a dramatic decrease in activity, without affecting DNA binding and dimerization. Our results show the importance of residues Ser-181, Met-182 in H3, Leu-219, Leu-220 and Arg-226 in H5, Ile-338 in H10, and Ile-346 in H11 that line the ligand-binding domain pocket in HNF-4alpha and impair its transactivation potential. Structural modeling reveals that the mutations do not cause any large scale structural alterations, and the observed loss in transactivation can be attributed to local changes, demonstrating that these residues play a significant role in maintaining the structural integrity of the HNF-4alpha ligand binding pocket.
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- 2004
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14. Ρόλος του πυρηνικού υποδοχέα HNF-4α στην έκφραση γονιδίων του ήπατος
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Eleni Aggelidou
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- 2014
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15. SAFB1 interacts with and suppresses the transcriptional activity of p53
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Eleni Aggelidou, Eleni Nikolakaki, Nikolaos Voukkalis, Margarita Hadzopoulou-Cladaras, Thomas Giannakouros, Robert E. Scott, Philippos Peidis, and Eleni Georgatsou
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p53 ,Transcriptional Activation ,Green Fluorescent Proteins ,Immunoblotting ,Biophysics ,Antineoplastic Agents ,Plasma protein binding ,Biology ,Protein Serine-Threonine Kinases ,Transfection ,Biochemistry ,Scaffold Attachment Factor B1 ,SRPK1a ,Nuclear Matrix-Associated Proteins ,Structural Biology ,Two-Hybrid System Techniques ,Gene expression ,Genetics ,medicine ,Humans ,Scaffold/matrix attachment region ,Nuclear export signal ,Nuclear matrix ,Molecular Biology ,Cell Nucleus ,Reporter gene ,Cell Biology ,Transcription regulation ,Hep G2 Cells ,Matrix Attachment Region Binding Proteins ,Plicamycin ,Molecular biology ,Transport protein ,Cell biology ,Cell nucleus ,Protein Transport ,medicine.anatomical_structure ,HEK293 Cells ,Microscopy, Fluorescence ,Receptors, Estrogen ,RNA Interference ,Fluorouracil ,Tumor Suppressor Protein p53 ,K562 Cells ,Protein Binding - Abstract
A significant amount of nuclear p53 is found associated with the nuclear matrix in cells that were exposed to genotoxic stress. In this study we identified Scaffold attachment factor B1 (SAFB1), a nuclear matrix-associated protein that binds the scaffold or matrix attachment regions (S/MARs) of genomic DNA, as a novel p53-interacting protein. SAFB1 was able to associate with p53 through its C-terminal domain, while significant co-localization of the two proteins was observed in cells treated with 5-fluorouracil or mithramycin. Binding of p53 to SAFB1 had a significant functional outcome, since SAFB1 was shown to suppress p53-mediated reporter gene expression. These data suggest that nuclear matrix-associated proteins may play a critical role in regulating p53 localization and activity.Structured summaryp53 physically interacts with SRPK1a: shown by two hybrid (view interaction)p53 physically interacts with SRPK1a: shown by pull down (view interaction)p53 physically interacts with SRPK1a: shown by anti bait coimmunoprecipitation (view interaction)p53 physically interacts with SRPK1a: shown by anti tag coimmunoprecipitation (view interaction)SAFB1 physically interacts with p53: shown by pull down (view interactions 1, 2)SAFB1 physically interacts with p53: shown by anti bait coimmunoprecipitation (view interactions 1, 2)SAFB1 and p53 colocalize: shown by fluorescence microscopy (view interaction)SAFB2 physically interacts with p53: shown by pull down (view interaction)
- Published
- 2010
16. Functional characterization of hepatocyte nuclear factor-4 alpha dimerization interface mutants
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Eleni, Aggelidou, Panagiota, Iordanidou, Constantinos, Demetriades, Olga, Piltsi, and Margarita, Hadzopoulou-Cladaras
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Amino Acid Substitution ,Hepatocyte Nuclear Factor 4 ,COS Cells ,Chlorocebus aethiops ,Molecular Sequence Data ,Mutation ,Animals ,Humans ,Amino Acid Sequence ,DNA ,Dimerization ,Protein Binding ,Rats - Abstract
Hepatocyte nuclear factor-4 (HNF-4alpha), a member of the nuclear receptor superfamily, binds DNA exclusively as a homodimer. Dimerization controls important aspects of receptor function, such as DNA binding, protein stability, ligand binding and interaction with coactivators. Crystallographic data of the HNF-4alpha ligand-binding domain (LBD) demonstrated that the homodimer interface is composed of residues in helices 7, 9 and 10 with intermolecular salt bridges, hydrogen bonds and hydrophobic interactions contributing to the stability of the interface. To investigate the importance of the proposed ionic interactions for HNF-4alpha dimerization, interactions critical for formation of the LBD homodimer interface were disrupted by introducing point mutations in residues D261N (H7), E269Q (H7), Q307L (H9), D312N (H9) and Q336L (H10). Mutants were analysed for transactivation, coactivator interaction, DNA binding and dimerization. EMSA analysis showed that the mutants are able to bind DNA as dimers and coimmunoprecipitation assays confirmed dimerization in solution. Furthermore, the mutations do not compromise HNF-4alpha activity and are responsive to PPAR-gamma coactivator-1 (PGC-1). Finally, residue R324, located in the H9/H10 loop, which was suspected to be involved in dimer stabilization via an ionic interaction with residue E276, was studied. In contrast to the conservative substitution R324H the mutation R324L abolishes HNF-4alpha transcriptional activity and coactivator recruitment, revealing that the nature of substitution may play an important role in HNF-4alpha function.
- Published
- 2006
17. Distinct amino acid residues may be involved in coactivator and ligand interactions in hepatocyte nuclear factor-4alpha
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Panagiota Iordanidou, Constantinos Demetriades, Margarita Hadzopoulou-Cladaras, and Eleni Aggelidou
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Chloramphenicol O-Acetyltransferase ,Transcription, Genetic ,Detergents ,Genetic Vectors ,Biotin ,Biology ,Arginine ,Ligands ,Transfection ,Models, Biological ,Biochemistry ,Cell Line ,Transactivation ,Methionine ,Protein structure ,Leucine ,Coactivator ,Serine ,Animals ,Humans ,Point Mutation ,Amino Acids ,Isoleucine ,Molecular Biology ,Transcription factor ,Glutathione Transferase ,Cell Biology ,Phosphoproteins ,Ligand (biochemistry) ,Protein Structure, Tertiary ,Cell biology ,DNA-Binding Proteins ,Hepatocyte nuclear factors ,Hepatocyte Nuclear Factor 4 ,Hepatocyte nuclear factor 4 ,Nuclear receptor ,COS Cells ,Mutation ,Dimerization ,Gene Deletion ,Plasmids ,Protein Binding ,Transcription Factors - Abstract
Hepatocyte nuclear factor-4 (HNF-4) is a transcription factor of the nuclear hormone receptor superfamily that is constitutively active without the addition of exogenous ligand. Crystallographic analysis of the HNF-4alpha and HNF-4gamma ligand binding domains (LBDs) demonstrated the presence of endogenous ligands that may act as structural cofactors for HNF-4. It was also proposed by crystallographic studies that a combination of ligand and coactivator might be required to lock the receptor in its active state. We previously showed that mutations in amino acid residues Ser-181 and Met-182 in H3, Leu-219 and Leu-220 and Arg-226 in H5, Ileu-338 in H10, and Ileu-346 in H11, which line the LBD pocket in HNF-4alpha and come in contact with the ligand, impair its transactivation potential. In the present study, physical and functional interaction assays were utilized with two different coactivators, PGC-1 and SRC-3, to address the role of coactivators in HNF-4 function. We show that the integrity of the hinge (D) domain of HNF-4alpha and the activation function (AF)-2 activation domain region are critical for coactivation. Surprisingly, a different mode of coactivation is observed among the LBD point mutants that lack transcriptional activity. In particular, coactivation is maintained in mutants Ser-181, Arg-226, and Ile-346 but is abolished in mutants Met-182, Leu-219, and Ile-338. Physical interactions confirm this pattern of activation, implying that distinct amino acid residues may be involved in coactivator and ligand interactions, although some residues may be critical for both functions. Our results provide evidence and expand predictions based on the crystallographic data as to the role of coactivators in HNF-4alpha constitutive transcriptional activity.
- Published
- 2005
18. Up-regulation of nitric oxide synthase and modulation of the guanylate cyclase activity by corticotropin-releasing hormone but not urocortin II or urocortin III in cultured human pregnant myometrial cells
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Edward W. Hillhouse, Eleni Aggelidou, and Dimitris K. Grammatopoulos
- Subjects
medicine.medical_specialty ,endocrine system ,Nitric Oxide Synthase Type III ,Corticotropin-Releasing Hormone ,Gene Expression ,Nitric Oxide Synthase Type II ,Nitric Oxide Synthase Type I ,Biology ,Receptors, Corticotropin-Releasing Hormone ,Gene Expression Regulation, Enzymologic ,Nitric oxide ,chemistry.chemical_compound ,Corticotropin-releasing hormone ,GTP-Binding Proteins ,Pregnancy ,Internal medicine ,medicine ,Humans ,RNA, Messenger ,Protein kinase A ,Cells, Cultured ,Protein Kinase C ,Urocortins ,Urocortin ,Multidisciplinary ,Guanylate cyclase activity ,Biological Sciences ,Up-Regulation ,Nitric oxide synthase ,Enzyme Activation ,Isoenzymes ,Endocrinology ,chemistry ,Urocortin II ,Guanylate Cyclase ,biology.protein ,Myometrium ,Female ,Nitric Oxide Synthase ,hormones, hormone substitutes, and hormone antagonists - Abstract
The biological actions of corticotropin-releasing hormone (CRH) in the human myometrium during pregnancy and labor are unknown. We hypothesized that CRH may modulate the nitric oxide system, and influence myometrial relaxation/contractility. Incubation of myometrial cells with CRH, but not urocortin II or urocortin III, for 8–16 h significantly induced mRNA and protein expression of endothelial and brain but not inducible nitric oxide synthase (NOS) isoforms. This action resulted in increased activity of soluble guanylate cyclase (GC s ), demonstrated by the enhanced cGMP-producing capacity of the NO donor, sodium nitroprusside. CRH also caused acute activation of the membrane-bound GC, shown by increased basal or atrial natriuretic peptide (ANP)-stimulated cGMP production. These effects appeared to be mediated via the R1 receptors because the CRH receptor antagonists, astressin and antalarmin but not anti-sauvagine 30, could block them. The acute effects of CRH were significantly reduced by inhibition of protein kinase A (PKA) activity, suggesting it is partially PKA dependant. Activation of protein kinase C (PKC) resulted in significant inhibition of both ANP-and CRH-stimulated cGMP production, suggesting a direct effect of PKC on membrane-bound GC. In conclusion, CRH appears to have a dual effect on myometrial NOS/GC pathway, a short term effect predominantly mediated by PKA, and a long-term effect increasing constitutive NOS expression, mediated by a PKA-independent mechanism. This mechanism could potentially be active during human pregnancy, and, because cGMP stimulates myometrial relaxation, these findings further suggest that during pregnancy CRH primarily activates intracellular signals that contribute to the maintenance of myometrial quiescence.
- Published
- 2002
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