Your search keyword '"D. Dumas"' showing total 12 results

1. New tools for non-invasive exploration of collagen network in cartilaginous tissue-engineered substitute.

Author

Henrionnet C, Dumas D, Hupont S, Stoltz JF, Mainard D, Gillet P, and Pinzano A

Subjects

Cartilage chemistry, Cartilage cytology, Cartilage growth & development, Chondrocytes metabolism, Chondrogenesis, Humans, Mesenchymal Stem Cells metabolism, Transforming Growth Factor beta1 administration & dosage, Transforming Growth Factor beta1 metabolism, Cartilage anatomy & histology, Chondrocytes cytology, Collagen Type II analysis, Mesenchymal Stem Cells cytology, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

In tissue engineering approaches, the quality of substitutes is a key element to determine its ability to treat cartilage defects. However, in clinical practice, the evaluation of tissue-engineered cartilage substitute quality is not possible due to the invasiveness of the standard procedure, which is to date histology. The aim of this work was to validate a new innovative system performed from two-photon excitation laser adapted to an optical macroscope to evaluate at macroscopic scale the collagen network in cartilage tissue-engineered substitutes in confrontation with gold standard histologic techniques or immunohistochemistry to visualize type II collagen. This system permitted to differentiate the quality of collagen network between ITS and TGF-β1 treatments. Multiscale large field imaging combined to multimodality approaches (SHG-TCSPC) at macroscopical scale represent an innovative and non-invasive technique to monitor the quality of collagen network in cartilage tissue-engineered substitutes before in vivo implantation.

Published

2017

2. Chondrocalcin is internalized by chondrocytes and triggers cartilage destruction via an interleukin-1β-dependent pathway.

Author

Bantsimba-Malanda C, Cottet J, Netter P, Dumas D, Mainard D, Magdalou J, and Vincourt JB

Subjects

Antibodies, Monoclonal, Arsenicals, Blotting, Western, Calcium-Binding Proteins chemistry, Calcium-Binding Proteins pharmacology, Collagen Type II chemistry, Collagen Type II pharmacology, Enzyme-Linked Immunosorbent Assay, Humans, Microscopy, Fluorescence, Protein Engineering, Signal Transduction drug effects, Calcium-Binding Proteins metabolism, Cartilage, Articular drug effects, Chondrocytes metabolism, Collagen Type II metabolism, Gene Expression Regulation drug effects, Interleukin-1beta metabolism, Models, Molecular, Signal Transduction physiology

Abstract

Chondrocalcin is among the most highly synthesized polypeptides in cartilage. This protein is released from its parent molecule, type II pro-collagen, after secretion by chondrocytes. A participation of extracellular, isolated chondrocalcin in mineralization was proposed more than 25 years ago, but never demonstrated. Here, exogenous chondrocalcin was found to trigger MMP13 secretion and cartilage destruction ex vivo in human cartilage explants and did so by modulating the expression of interleukin-1β in primary chondrocyte cultures in vitro. Chondrocalcin was found internalized by chondrocytes. Uptake was found mediated by a single 18-mer peptide of chondrocalcin, which does not exhibit homology to any known cell-penetrating peptide. The isolated peptide, when artificially linked as a tetramer, inhibited gene expression regulation by chondrocalcin, suggesting a functional link between uptake and gene expression regulation. At the same time, the tetrameric peptide potentiated chondrocalcin uptake by chondrocytes, suggesting a cooperative mechanism of entry. The corresponding peptide from type I pro-collagen supported identical cell-penetration, suggesting that this property may be conserved among C-propeptides of fibrillar pro-collagens. Structural modeling localized this peptide to the tips of procollagen C-propeptide trimers. Our findings shed light on unexpected function and mechanism of action of these highly expressed proteins from vertebrates., (© 2013. Published by Elsevier B.V. All rights reserved.)

Published

2013

3. Gene transfer with HSP 70 in rat chondrocytes confers cytoprotection in vitro and during experimental osteoarthritis.

Author

Grossin L, Cournil-Henrionnet C, Pinzano A, Gaborit N, Dumas D, Etienne S, Stoltz JF, Terlain B, Netter P, Mir LM, and Gillet P

Subjects

Animals, Apoptosis, Cells, Cultured, Chondrocytes pathology, Gene Expression Regulation, Hindlimb, Joints pathology, Male, Osteoarthritis metabolism, Rats, Rats, Wistar, Transfection, Chondrocytes metabolism, Cytoprotection, Genetic Therapy, HSP70 Heat-Shock Proteins genetics, HSP70 Heat-Shock Proteins metabolism, Osteoarthritis genetics, Osteoarthritis pathology

Abstract

Osteoarthritis is characterized by a gradual degradation of extracellular matrix, resulting from an excess of chondrocyte cell death, mainly due to an increase in apoptotis. Recent studies have revealed the essential role of HSP70 in protecting cells from stressful stimuli. Therefore, overexpressing HSP70 in chondrocytes could represent a good strategy to prevent extracellular matrix destruction. To this end, we have developed a vector carrying HSP70/GFP, and transduced chondrocytes were thus more resistant to cell death induced by mono-iodoacetate (MIA). To overcome the barrier-effect of matrix, we investigated the efficacy of plasmid delivery by electroporation (EP) in rat patellar cartilage. Two days after EP, 50% of patellar chondrocytes were HSP/GFP+. After 3 months, long-term expression of transgene was only depicted in the deep layer (20-30% positive cells). HSP70 overexpression inhibited the natural endochondral ossification in the deep layer, thus leading to a lesser decrease in chondrocyte distribution. Moreover, overexpression of HSP70, after a preventive EP transfer in rat patella, was sufficient to decrease the severity of osteoarthritis-induced lesions, as demonstrated histologically and biochemically. In conclusion, intracellular overexpression of HSP70, through EP delivery, could protect chondrocytes from cellular injuries and thus might be a novel chondroprotective modality in rat OA.

Published

2006

4. Expression of adhesion molecules and collagen on rat chondrocyte seeded into alginate and hyaluronate based 3D biosystems. Influence of mechanical stresses.

Author

Gigant-Huselstein C, Hubert P, Dumas D, Dellacherie E, Netter P, Payan E, and Stoltz JF

Subjects

Alginates, Animals, Cell Culture Techniques, Collagen Type I analysis, Flow Cytometry, Glucuronic Acid, Hexuronic Acids, Hyaluronan Receptors analysis, Hyaluronic Acid, Male, Mechanotransduction, Cellular, Rats, Rats, Wistar, Stress, Mechanical, Tissue Engineering methods, Cell Adhesion Molecules analysis, Chondrocytes chemistry, Collagen Type II analysis

Abstract

Chondrocytes use mechanical signals, via interactions with their environment, to synthesize an extracellular matrix capable to withstanding high loads. Most chondrocyte-matrix interactions are mediated via transmembrane receptors such as integrins or non-integrins receptors (i.e. annexin V and CD44). The aim of this study was to analyze, by flow cytometry, the adhesion molecules (alpha5/beta1 integrins and CD44) on rat chondrocytes seeded into 3D biosystem made of alginate and hyaluronate. These biosystems were submitted to mechanical stress by knocking the biosystems between them for 48 hours. The expression of type I and type II collagen was also evaluated. The results of the current study showed that mechanical stress induced an increase of type II collagen production and weak variations of alpha5/beta1 receptors expression no matter what biosystems. Moreover, our results indicated that hyaluronan receptor CD44 expression depends on extracellular matrix modifications. Thus, these receptors were activated by signals resulted from cell environment variations (HA addition and modifications owing to mechanical stress). It suggested that this kind of receptor play a crucial role in extracellular matrix homeostasis. Finally, on day 24, no dedifferentiation of chondrocytes was noted either in biosystems or under mechanical stress. For all biosystems, the neosynthesized matrix contained an important level of collagen, which was type II, whatever biosystems. In conclusion, it appeared that the cells, under mechanical stress, maintained their phenotype. In addition, it seems that, on rat chondrocytes, alpha5/beta1 integrins did not act as the main mechanoreceptor (as described for human chondrocytes). In return, hyaluronan receptor CD44 seems to be in relation with matrix composition.

Published

2004

5. In vitro study of intracellular IL-1beta production and beta1 integrins expression in stimulated chondrocytes--effect of rhein.

Author

Gigant-Huselstein C, Dumas D, Payan E, Muller S, Bensoussan D, Netter P, and Stoltz JF

Subjects

Anthraquinones pharmacology, Chondrosarcoma, Enzyme Inhibitors pharmacology, Flow Cytometry, Humans, Integrin alpha4beta1, Integrins metabolism, Interleukin-1 pharmacology, Microscopy, Fluorescence, Receptors, Fibronectin metabolism, Receptors, Interleukin-1 metabolism, Receptors, Lymphocyte Homing metabolism, Recombinant Proteins pharmacology, Stimulation, Chemical, Tumor Cells, Cultured, Tumor Necrosis Factor-alpha pharmacology, Cartilage, Articular immunology, Chondrocytes immunology, Integrin beta1 biosynthesis, Interleukin-1 biosynthesis

Abstract

The purpose of the present study was to investigate the intracellular IL-1beta production and beta1 integrins (alpha4/beta1 and alpha5/beta1) expression on chondrocytes. Chondroytes monolayer (human chondrosarcoma cell line HEM-C55) were incubated for 12, 24 and 48 hours in the presence of Tumor Necrosis Factor-alpha (TNF-alpha, Sigma, France) or recombinant human IL-1alpha (rh-IL1alpha, Becton Dickinson, France). After direct immunolabelling, cells were either analyzed on FACScan flow cytometer (Becton Dickinson, France), or observed under an epi-fluorescence inverted microscope equipped with the CellScan EPR optical scanning acquisition system (IPLab-Scanalytics, USA). We found that the IL-1beta mean fluorescence intensity in flow cytometry and in 3D microscopy was increased in the presence of TNF-alpha or rh-IL-1alpha, and alpha4/beta1 or alpha5/beta1 expression was higher on stimulated cells than on control cells. On the other hand, we have evaluated the in vitro effects of rhein (10(-5) M, Negma, France), an active metabolite of diacerein, on the intracellular IL-1beta and beta1 integrins expressed by stimulated or no-stimulated chondrocytes. The results indicated that rhein leads to a reduction of IL-1beta synthesis whereas a weak decrease of beta1 integrins receptors expression is observed. From this study, it seems that rhein partially reduce cytokine-induced intracellular IL-1beta production, and it has a weak action on alpha4/beta1 or alpha5/beta1 receptors.

Published

2002

6. Sodium alginate sponges with or without sodium hyaluronate: in vitro engineering of cartilage.

Author

Miralles G, Baudoin R, Dumas D, Baptiste D, Hubert P, Stoltz JF, Dellacherie E, Mainard D, Netter P, and Payan E

Subjects

Animals, Biocompatible Materials, Cells, Cultured, Chondrocytes cytology, Chondrocytes ultrastructure, Collagen metabolism, Cytoskeleton metabolism, Glucuronic Acid, Hexuronic Acids, Male, Microscopy, Electron, Proteoglycans biosynthesis, Rats, Rats, Wistar, Alginates chemistry, Cartilage, Chondrocytes physiology, Chondrogenesis, Hyaluronic Acid chemistry, Tissue Engineering methods

Abstract

Studies are underway to design biosystems containing embedded chondrocytes to fill osteochondral defects and to produce a tissue close to native cartilage. In the present report, a new alginate three-dimensional support for chondrocyte culture is described. A sodium alginate solution, with or without hyaluronic acid (HA), was freeze-dried to obtain large-porosity sponges. This formulation was compared with a hydrogel of the same composition. In the sponge formulation, macroscopic and microscopic studies demonstrated the formation of a macroporous network (average pore size, 174 microm) associated with a microporous one (average pore size, 250 nm). Histological and biochemical studies showed that, when loaded with HA, the sponge provides an adapted environment for proteoglycan and collagen synthesis by chondrocytes. Cytoskeleton organization was studied by three-dimensional fluorescence microscopy (CellScan EPR). Chondrocytes exhibit a marked spherical shape with a nonoriented and sparse actin microfilament network. Type II collagen was detected in both types of sponges (with or without HA) using immunohistochemistry. In conclusion, the sponge formulation affords new perspectives with respect to the in vitro production of "artificial" cartilage. Furthermore, the presence of hyaluronate within the alginate sponge mimics a functional environment, suitable for the production by embedded chondrocytes of an extracellular matrix., (Copyright 2001 John Wiley & Sons, Inc.)

Published

2001

7. Influence of mechanical forces on cells and tissues.

Author

Stoltz JF, Dumas D, Wang X, Payan E, Mainard D, Paulus F, Maurice G, Netter P, and Muller S

Subjects

Animals, Bone and Bones cytology, Cytoskeleton physiology, Endothelium, Vascular cytology, Hemodynamics, Ion Channels physiology, Rheology, Stress, Mechanical, Bone and Bones physiology, Chondrocytes physiology, Endothelium, Vascular physiology, Signal Transduction physiology

Published

2000

8. The role of 3D-microscopy in the study of chondrocyte-matrix interaction (alginate bead or sponge, rat femoral head cap, human osteoarthritic cartilage) and pharmacological application.

Author

Dumas D, Gigant C, Presle N, Cipolletta C, Miralles G, Payan E, Jouzeau JY, Mainard D, Terlain B, Netter P, and Stoltz JF

Subjects

Actins metabolism, Animals, Cell Culture Techniques, Chondrocytes drug effects, Chondrocytes ultrastructure, Culture Techniques, Cytoskeleton metabolism, Extracellular Matrix drug effects, Focal Adhesion Kinase 1, Focal Adhesion Protein-Tyrosine Kinases, Humans, Interleukin-1 biosynthesis, Interleukin-1 pharmacology, Lipopolysaccharides pharmacology, Matrix Metalloproteinase 9 metabolism, Microspheres, Osteoarthritis metabolism, Protein-Tyrosine Kinases metabolism, Rats, Recombinant Proteins pharmacology, Transforming Growth Factor alpha pharmacology, Chondrocytes metabolism, Extracellular Matrix metabolism, Integrins biosynthesis, Microscopy, Confocal

Abstract

The potentialities of a new non-invasive optical scanning microscopy technique were evaluated through 3D analysis of chondrocyte-matrix interactions. Five different 2D or 3D culture systems were used: (1) MonoLayer (ML) of human chondrosarcoma cell line; (2) rat or human chondrocytes encapsulated in Alginate Bead (AB); (3) human chondrocytes encapsulated in Alginate Sponge (AS); (4) Rat Femoral Head Cap (RFHC); (5) slices of knee human Osteoarthritic Cartilage (HOAC). Chondrocytes ML, AB, RFHC were incubated for 24 h in vitro in the presence of recombinant human interleukin1-beta (rhIL1-beta) and the effects on cytoskeleton organisation (F-actin filament), Focal Adhesion Kinase (FAK) expression (tyrosine kinase), collagenase B expression (metalloprotease) were studied. Furthermore, the production of intracellular IL1-beta by LPS- or rhIL1-beta-stimulated chondrocytes was shown to be partly suppressed by rhein (active metabolite of diacerhein) in all culture systems. This high resolution light microscopy gave complementary information that could be important for a better understanding of the interaction of chondrocytes with the extracellular matrix in a variety of culture devices.

Published

2000

9. [Ultrastructural imagery of chondrocytes].

Author

Dumas D, Bordji K, Payan E, Gillet P, Netter P, and Stoltz JF

Subjects

Bone Neoplasms pathology, Chondrosarcoma pathology, Humans, Interleukin-1 biosynthesis, Lipopolysaccharides metabolism, Tumor Cells, Cultured ultrastructure, Chondrocytes ultrastructure, Microscopy, Fluorescence methods

Published

1999

10. Expression of adhesion molecules and collagen on rat chondrocyte seeded into alginate and hyaluronate based 3D biosystems. Influence of mechanical stresses

Author

C, Gigant-Huselstein, P, Hubert, D, Dumas, E, Dellacherie, P, Netter, E, Payan, J F, Stoltz, Laboratoire Énergies et Mécanique Théorique et Appliquée (LEMTA ), Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Chimie Physique Macromoléculaire (LCPM), and Institut de Chimie du CNRS (INC)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Male, MESH: Rats, Alginates, [SDV.IB.IMA]Life Sciences [q-bio]/Bioengineering/Imaging, Cell Culture Techniques, MESH: Collagen Type I, MESH: Flow Cytometry, MESH: Antigens, CD44, Mechanotransduction, Cellular, MESH: Tissue Engineering, Collagen Type I, Chondrocytes, Glucuronic Acid, MESH: Chondrocytes, Animals, MESH: Animals, Hyaluronic Acid, Rats, Wistar, Collagen Type II, MESH: Cell Culture Techniques, MESH: Stress, Mechanical, Tissue Engineering, MESH: Hyaluronic Acid, MESH: Hexuronic Acids, MESH: Mechanotransduction, Cellular, Hexuronic Acids, MESH: Collagen Type II, MESH: Rats, Wistar, Flow Cytometry, MESH: Male, Rats, Hyaluronan Receptors, MESH: Glucuronic Acid, MESH: Alginates, MESH: Cell Adhesion Molecules, Stress, Mechanical, Cell Adhesion Molecules

Abstract

International audience; Chondrocytes use mechanical signals, via interactions with their environment, to synthesize an extracellular matrix capable to withstanding high loads. Most chondrocyte-matrix interactions are mediated via transmembrane receptors such as integrins or non-integrins receptors (i.e. annexin V and CD44). The aim of this study was to analyze, by flow cytometry, the adhesion molecules (alpha5/beta1 integrins and CD44) on rat chondrocytes seeded into 3D biosystem made of alginate and hyaluronate. These biosystems were submitted to mechanical stress by knocking the biosystems between them for 48 hours. The expression of type I and type II collagen was also evaluated. The results of the current study showed that mechanical stress induced an increase of type II collagen production and weak variations of alpha5/beta1 receptors expression no matter what biosystems. Moreover, our results indicated that hyaluronan receptor CD44 expression depends on extracellular matrix modifications. Thus, these receptors were activated by signals resulted from cell environment variations (HA addition and modifications owing to mechanical stress). It suggested that this kind of receptor play a crucial role in extracellular matrix homeostasis. Finally, on day 24, no dedifferentiation of chondrocytes was noted either in biosystems or under mechanical stress. For all biosystems, the neosynthesized matrix contained an important level of collagen, which was type II, whatever biosystems. In conclusion, it appeared that the cells, under mechanical stress, maintained their phenotype. In addition, it seems that, on rat chondrocytes, alpha5/beta1 integrins did not act as the main mechanoreceptor (as described for human chondrocytes). In return, hyaluronan receptor CD44 seems to be in relation with matrix composition.

Published

2004

11. Influence of mechanical forces on cells and tissues

Author

J F, Stoltz, D, Dumas, X, Wang, E, Payan, D, Mainard, F, Paulus, G, Maurice, P, Netter, and S, Muller

Subjects

Chondrocytes, Hemodynamics, Animals, Endothelium, Vascular, Stress, Mechanical, Rheology, Bone and Bones, Cytoskeleton, Ion Channels, Signal Transduction

Published

2000

12. [Ultrastructural imagery of chondrocytes]

Author

D, Dumas, K, Bordji, E, Payan, P, Gillet, P, Netter, and J F, Stoltz

Subjects

Lipopolysaccharides, Chondrocytes, Microscopy, Fluorescence, Chondrosarcoma, Tumor Cells, Cultured, Humans, Bone Neoplasms, Interleukin-1

Published

1999