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1. Double-blinded, randomized tolerance study of a biologically enhanced Nanogel with endothelin-1 and bradykinin receptor antagonist peptides via intra-articular injection for osteoarthritis treatment in horses

Author

Terlinden, Antoinette, Jacquet, Sandrine, Manivong, Seng, Cullier, Aurélie, Cassé, Frédéric, Legendre, Florence, Garcia, Araceli Ac, Roullin, Gaëlle, Moldovan, Florina, Sirois, Pierre, Banquy, Xavier, Galéra, Philippe, Audigié, Fabrice, Demoor, Magali, and Bertoni, Lélia

Published
2024
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3. Early Castration in Horses Does Not Impact Osteoarticular Metabolism.

Author

Rouge, Marion, Legendre, Florence, Elkhatib, Razan, Delalande, Christelle, Cognié, Juliette, Reigner, Fabrice, Barrière, Philippe, Deleuze, Stefan, Hanoux, Vincent, Galéra, Philippe, and Bouraïma-Lelong, Hélène

Subjects
*CASTRATION, *ANDROGEN receptors, *STEROID synthesis, *HORSES, *BONE metabolism, *SLEEP deprivation, *HOMEOSTASIS, *HORSE training
Abstract

The castration of stallions is traditionally performed after puberty, at around the age of 2 years old. No studies have focused on the effects of early castration on osteoarticular metabolism. Thus, we aimed to compare early castration (3 days after birth) with traditional castration (18 months of age) in horses. Testosterone and estradiol levels were monitored from birth to 33 months in both groups. We quantified the levels of biomarkers of cartilage and bone anabolism (CPII and N-MID) and catabolism (CTX-I and CTX-II), as well as of osteoarthritis (HA and COMP) and inflammation (IL-6 and PGE2). We observed a lack of parallelism between testosterone and estradiol synthesis after birth and during puberty in both groups. The extra-gonadal synthesis of steroids was observed around the 28-month mark, regardless of the castration age. We found the expression of estrogen receptor (ESR1) in cartilage and bone, whereas androgen receptor (AR) expression appeared to be restricted to bone. Nevertheless, with respect to osteoarticular metabolism, steroid hormone deprivation resulting from early castration had no discernable impact on the levels of biomarkers related to bone and cartilage metabolism, nor on those associated with OA and inflammation. Consequently, our research demonstrated that early castration does not disrupt bone and cartilage homeostasis. [ABSTRACT FROM AUTHOR]

Published
2023
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5. Characterization and use of Equine Bone Marrow Mesenchymal Stem Cells in Equine Cartilage Engineering. Study of their Hyaline Cartilage Forming Potential when Cultured under Hypoxia within a Biomaterial in the Presence of BMP-2 and TGF-ß1

Author

Branly, Thomas, Bertoni, Lélia, Contentin, Romain, Rakic, Rodolphe, Gomez-Leduc, Tangni, Desancé, Mélanie, Hervieu, Magalie, Legendre, Florence, Jacquet, Sandrine, Audigié, Fabrice, Denoix, Jean-Marie, Demoor, Magali, and Galéra, Philippe

Published
2017
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7. MiR-4270 acts as a tumor suppressor by directly targeting Bcl-xL in human osteosarcoma cells.

Author

Veys, Clément, Boulouard, Flavie, Benmoussa, Abderrahim, Jammes, Manon, Brotin, Emilie, Rédini, Françoise, Poulain, Laurent, Gruchy, Nicolas, Denoyelle, Christophe, Legendre, Florence, and Galera, Philippe

Subjects
CHONDROSARCOMA, OSTEOSARCOMA, CELL lines, PROTEIN expression, HIGH throughput screening (Drug development), TUMORS
Abstract

Chondrosarcomas and osteosarcomas are malignant bone tumors with a poor prognosis when unresectable or metastasized. Moreover, radiotherapy and chemotherapy could be ineffective. MiRNAs represent an alternative therapeutic approach. Based on high-throughput functional screening, we identified four miRNAs with a potential antiproliferative effect on SW1353 chondrosarcoma cells. Individual functional validations were then performed in SW1353 cells, as well as in three osteosarcoma cell lines. The antiproliferative and cytotoxic effects of miRNAs were evaluated in comparison with a positive control, miR-342-5p. The cytotoxic effect of four selected miRNAs was not confirmed on SW1353 cells, but we unambiguously revealed that miR-4270 had a potent cytotoxic effect on HOS and MG-63 osteosarcoma cell lines, but not on SaOS-2 cell line. Furthermore, like miR-342-5p, miR-4270 induced apoptosis in these two cell lines. In addition, we provided the first report of Bcl-xL as a direct target of miR-4270. MiR-4270 also decreased the expression of the antiapoptotic protein Mcl-1, and increased the expression of the pro-apoptotic protein Bak. Our findings demonstrated that miR-4270 has tumor suppressive activity in osteosarcoma cells, particularly through Bcl-xL downregulation. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Interleukin-6 (IL-6) and/or Soluble IL-6 Receptor Down-regulation of Human Type II Collagen Gene Expression in Articular Chondrocytes Requires a Decrease of Sp1·Sp3 Ratio and of the Binding Activity of Both Factors to the COL2A1 Promoter

Author

Porée, Benoît, Kypriotou, Magdalini, Chadjichristos, Christos, Beauchef, Gallic, Renard, Emmanuelle, Legendre, Florence, Melin, Martine, Gueret, Sylviane, Hartmann, Daniel-Jean, Malléin-Gerin, Frédéric, Pujol, Jean-Pierre, Boumediene, Karim, and Galéra, Philippe

Published
2008
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11. An experimentally induced osteoarthritis model in horses performed on both metacarpophalangeal and metatarsophalangeal joints: Technical, clinical, imaging, biochemical, macroscopic and microscopic characterization

Author

Bertoni, Lélia, Jacquet-Guibon, Sandrine, Branly, Thomas, Legendre, Florence, Desancé, Mélanie, Mespoulhes, Céline, Melin, Martine, Hartmann, Daniel-Jean, Schmutz, Amandine, Denoix, Jean-Marie, Galéra, Philippe, Demoor, Magali, Audigié, Fabrice, Biologie, génétique et thérapies ostéoarticulaires et respiratoires (BIOTARGEN), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Centre d'Imagerie et de Recherche sur les Affections Locomotrices Equines (CIRALE), École nationale vétérinaire d'Alfort (ENVA), Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Clinique Equine, NOVOTEC, and CWD-VetLab

Subjects
Metatarsophalangeal Joint, Imaging Techniques, Physiology, Science, Equines, Skeletal joints, Research and Analysis Methods, Pathology and Laboratory Medicine, Severity of Illness Index, Diagnostic Radiology, Signs and Symptoms, Magnetic resonance imaging, Rheumatology, Diagnostic Medicine, Synovial Fluid, Ultrasound Imaging, Osteoarthritis, Medicine and Health Sciences, Animals, Horses, Musculoskeletal System, Metatarsal Bones, Mammals, [SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, Radiology and Imaging, Arthritis, Organisms, Biology and Life Sciences, Eukaryota, Body Fluids, Disease Models, Animal, Vertebrates, Amniotes, Lesions, Medicine, Anatomy, Research Article
Abstract

International audience; Osteoarthritis is a common cause of pain and economic loss in both humans and horses. The horse is recognized as a suitable model for human osteoarthritis, because the thickness, structure, and mechanical properties of equine articular cartilage are highly comparable to those of humans. Although a number of equine experimental osteoarthritis models have been described in the literature, these cases generally involve the induction of osteoarthritis in just one joint of each animal. This approach necessitates the involvement of large numbers of horses to obtain reliable data and thus limits the use of this animal model, for both economic and ethical reasons. This study adapts an established equine model of post-traumatic osteoarthritis to induce osteoarthritis-associated lesions in all 4 fetlock joints of the same horse in order to reduce the number of animals involved and avoid individual variability, thus obtaining a more reliable method to evaluate treatment efficacy in future studies. The objectives are to assess the feasibility of the procedure, evaluate variability of the lesions according to interindividual and operated-limb position and describe the spontaneous evolution of osteoarthritis-associated pathological changes over a twelve-week period. The procedure was well tolerated by all 8 experimental horses and successfully induced mild osteoarthritis-associated changes in the four fetlock joints of each horse. Observations were carried out using clinical, radiographic, ultrasonographic, and magnetic resonance imaging methods as well as biochemical analyses of synovial fluid and postmortem microscopic and macroscopic evaluations of the joints. No significant differences were found in the progression of osteoarthritis-associated changes between horses or between the different limbs, with the exception of higher synovial effusion in hind fetlocks compared to front fetlocks and higher radiographic scores for left fetlocks compared to the right. This model thus appears to be a reliable means to evaluate the efficacy of new treatments in horses, and may be of interest for translational studies in human medicine.

Published
2020
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12. Functionalized Nanogels with Endothelin-1 and Bradykinin Receptor Antagonist Peptides Decrease Inflammatory and Cartilage Degradation Markers of Osteoarthritis in a Horse Organoid Model of Cartilage.

Author

Cullier, Aurélie, Cassé, Frédéric, Manivong, Seng, Contentin, Romain, Legendre, Florence, Garcia Ac, Aracéli, Sirois, Pierre, Roullin, Gaëlle, Banquy, Xavier, Moldovan, Florina, Bertoni, Lélia, Audigié, Fabrice, Galéra, Philippe, and Demoor, Magali

Subjects
BRADYKININ receptors, CHEMOKINES, ENDOTHELIN receptors, PREPROENDOTHELIN, NANOGELS, DRUG delivery systems
Abstract

Osteoarthritis (OA) is a degenerative and heterogeneous disease that affects all types of joint structures. Current clinical treatments are only symptomatic and do not manage the degenerative process in animals or humans. One of the new orthobiological treatment strategies being developed to treat OA is the use of drug delivery systems (DDS) to release bioactive molecules over a long period of time directly into the joint to limit inflammation, control pain, and reduce cartilage degradation. Two vasoactive peptides, endothelin-1 and bradykinin, play important roles in OA pathogenesis. In this study, we investigated the effects of two functionalized nanogels as DDS. We assessed the effect of chitosan functionalized with a type A endothelin receptor antagonist (BQ-123-CHI) and/or hyaluronic acid functionalized with a type B1 bradykinin receptor antagonist (R-954-HA). The biocompatibility of these nanogels, alone or in combination, was first validated on equine articular chondrocytes cultured under different oxic conditions. Further, in an OA equine organoid model via induction with interleukin-1 beta (IL-1β), a combination of BQ-123-CHI and R-954-HA (BR5) triggered the greatest decrease in inflammatory and catabolic markers. In basal and OA conditions, BQ-123-CHI alone or in equimolar combinations with R-954-HA had weak pro-anabolic effects on collagens synthesis. These new nanogels, as part of a composite DDS, show promising attributes for treating OA. [ABSTRACT FROM AUTHOR]

Published
2022
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13. Enhanced chondrogenesis of bone marrow-derived stem cells by using a combinatory cell therapy strategy with BMP-2/TGF-β1, hypoxia, and COL1A1/HtrA1 siRNAs

Author

Legendre, Florence, Ollitrault, David, Gómez-Leduc, Tangni, Bouyoucef, Mouloud, Hervieu, Magalie, Gruchy, Nicolas, Mallein-Gerin, Frédéric, Leclercq, Sylvain, Demoor, Magali, Galéra, Philippe, Biologie, génétique et thérapies ostéoarticulaires et respiratoires (BIOTARGEN), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Service de Génétique [CHU Caen], CHU Caen, Normandie Université (NU)-Tumorothèque de Caen Basse-Normandie (TCBN)-Normandie Université (NU)-Tumorothèque de Caen Basse-Normandie (TCBN)-Université de Caen Normandie (UNICAEN), Normandie Université (NU), Institut de biologie et chimie des protéines [Lyon] (IBCP), Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)

Subjects
Male, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, Science, Cell- and Tissue-Based Therapy, Bone Morphogenetic Protein 2, Mice, Nude, [SDV.BC.BC]Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC], Mesenchymal Stem Cell Transplantation, Collagen Type I, Article, Transforming Growth Factor beta1, Mice, Chondrocytes, Bone Marrow, Osteoarthritis, chondrogenesis, Animals, Humans, RNA, Small Interfering, Cells, Cultured, Aged, Aged, 80 and over, Tissue Engineering, hypoxia, Cell Differentiation, Mesenchymal Stem Cells, High-Temperature Requirement A Serine Peptidase 1, Middle Aged, BM-MSC, Collagen Type I, alpha 1 Chain, siRNA, Medicine, Female
Abstract

International audience; Mesenchymal stem cells (MSCs) hold promise for cartilage engineering. Here, we aimed to determine the best culture conditions to induce chondrogenesis of MSCs isolated from bone marrow (BM) of aged osteoarthritis (OA) patients. We showed that these BM-MSCs proliferate slowly, are not uniformly positive for stem cell markers, and maintain their multilineage potential throughout multiple passages. The chondrogenic lineage of BM-MSCs was induced in collagen scaffolds, under normoxia or hypoxia, by BMP-2 and/or TGF-β1. The best chondrogenic induction, with the least hypertrophic induction, was obtained with the combination of BMP-2 and TGF-β1 under hypoxia. Differentiated BM-MSCs were then transfected with siRNAs targeting two markers overexpressed in OA chondrocytes, type I collagen and/or HtrA1 protease. siRNAs significantly decreased mRNA and protein levels of type I collagen and HtrA1, resulting in a more typical chondrocyte phenotype, but with frequent calcification of the subcutaneously implanted constructs in a nude mouse model. Our 3D culture model with BMP-2/TGF-β1 and COL1A1/HtrA1 siRNAs was not effective in producing a cartilage-like matrix in vivo. Further optimization is needed to stabilize the chondrocyte phenotype of differentiated BM-MSCs. Nevertheless, this study offers the opportunity to develop a combinatory cellular therapy strategy for cartilage tissue engineering.

Published
2017
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14. Tumor Suppressive Role of miR-342-5p and miR-491-5p in Human Osteosarcoma Cells.

Author

Veys, Clément, Jammes, Manon, Rédini, Françoise, Poulain, Laurent, Denoyelle, Christophe, Legendre, Florence, and Galera, Philippe

Subjects
EPIDERMAL growth factor receptors, OSTEOSARCOMA
Abstract

Osteosarcomas are the most common type of malignant bone tumor. These tumors are characterized by the synthesis of an osteoid matrix. Current treatments are based on surgery and combination chemotherapy. However, for metastatic or recurrent tumors, chemotherapy is generally ineffective, and osteosarcomas are sometimes unresectable. Thus, the use of microRNAs (miRNAs) may represent an attractive alternative for the development of new therapies. Using high-throughput functional screening based on impedancemetry, we previously selected five miRNAs with potential chemosensitizing or antiproliferative effects on chondrosarcoma cells. We validated the tumor-suppressive activity of miR-491-5p and miR-342-5p in three chondrosarcoma cell lines. Here, we carried out individual functional validation of these five miRNAs in three osteosarcoma cell lines used as controls to evaluate their specificity of action on another type of bone sarcoma. The cytotoxic effects of miR-491-5p and miR-342-5p were also confirmed in osteosarcoma cells. Both miRNAs induced apoptosis. They increased Bcl-2 homologous antagonist killer (Bak) protein expression and directly targeted Bcl-2 lymphoma-extra large (Bcl-xL). MiR-342-5p also decreased B-cell lymphoma-2 (Bcl-2) protein expression, and miR-491-5p decreased that of Epidermal Growth Factor Receptor (EGFR). MiR-342-5p and miR-491-5p show tumor-suppressive activity in osteosarcomas. This study also confirms the potential of Bcl-xL as a therapeutic target in osteosarcomas. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Use of therapeutic miRNAs for the treatment of chondrosarcoma

Author

Veys, Clément, Benmoussa, Abderrahim, Contentin, Romain, Duchemin, Amandine, Brotin, Emilie, Saintigny, Yannick, Denoyelle, Christophe, Demoor, Magali, Legendre, Florence, Galéra, Philippe, Veys, Clément, Biologie, génétique et thérapies ostéoarticulaires et respiratoires (BIOTARGEN), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Unité de recherche interdisciplinaire pour la prévention et le traitement des cancers (ANTICIPE), Normandie Université (NU)-Normandie Université (NU)-CHU Caen, Normandie Université (NU)-Tumorothèque de Caen Basse-Normandie (TCBN)-Tumorothèque de Caen Basse-Normandie (TCBN)-Centre Régional de Lutte contre le Cancer François Baclesse [Caen] (UNICANCER/CRLC), Normandie Université (NU)-UNICANCER-Tumorothèque de Caen Basse-Normandie (TCBN)-UNICANCER-Institut National de la Santé et de la Recherche Médicale (INSERM), Laboratoire d'Accueil et de Recherche avec les Ions Accélérés (LARIA), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Normandie Université (NU), CHU Caen, Normandie Université (NU)-Tumorothèque de Caen Basse-Normandie (TCBN)-Normandie Université (NU)-Tumorothèque de Caen Basse-Normandie (TCBN)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre Régional de Lutte contre le Cancer François Baclesse [Caen] (UNICANCER/CRLC), and UNICANCER-Tumorothèque de Caen Basse-Normandie (TCBN)-Normandie Université (NU)-UNICANCER

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2019

17. Enhanced chondrogenesis of bone marrow-derived stem cells by using a combinatory cell therapy strategy with BMP-2/TGF-β1, hypoxia, and COL1A1/HtrA1 siRNAs

Author

Branly, Thomas, Contentin, Romain, Desancé, Mélanie, Jacquel, Thibaud, Bertoni, Lelia, JACQUET, Sandrine, Denoix, Jean-Marie, Audigié, Fabrice, Legendre, Florence, Ollitrault, David, Gómez-Leduc, Tangni, Bouyoucef, Mouloud, Hervieu, Magalie, Gruchy, Nicolas, Mallein-Gerin, Frédéric, Leclercq, Sylvain, Demoor, Magali, Galéra, Philippe, Microenvironnement cellulaire et pathologie (MILPAT), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Biomécanique et Pathologie Locomotrice du Cheval (BPLC), École nationale vétérinaire d'Alfort (ENVA)-Institut National de la Recherche Agronomique (INRA), Institut universitaire de formation des maîtres - Champagne-Ardenne (IUFM Champagne-Ardenne), Université de Reims Champagne-Ardenne (URCA), Unité de Recherche sur les Maladies Cardiovasculaires, du Métabolisme et de la Nutrition = Institute of cardiometabolism and nutrition (ICAN), Assistance publique - Hôpitaux de Paris (AP-HP) (APHP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [APHP]-Sorbonne Université (SU), Normandie Université (NU), Matrice extracellulaire normale et pathologique, Laboratoire de cytogénétique prénatale [CHU Caen], Normandie Université (NU)-Normandie Université (NU)-CHU Caen, Normandie Université (NU)-Tumorothèque de Caen Basse-Normandie (TCBN)-Tumorothèque de Caen Basse-Normandie (TCBN), Institut de biologie et chimie des protéines [Lyon] (IBCP), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), EDF R&D (EDF R&D), EDF (EDF), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], and Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)

Subjects
[SDV.BC.BC]Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2017

18. Hypoxia Is a Critical Parameter for Chondrogenic Differentiation of Human Umbilical Cord Blood Mesenchymal Stem Cells in Type I/III Collagen Sponges

Author

Gómez-Leduc, Tangni, Desancé, Mélanie, Hervieu, Magalie, Legendre, Florence, Ollitrault, David, de Vienne, Claire, Herlicoviez, Michel, Galéra, Philippe, Demoor, Magali, Microenvironnement cellulaire et pathologie (MILPAT), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), and Service de Gynécologie-Obstétrique et Médecine de la Reproduction, CHU Caen

Subjects
Cartilage, Articular, [SDV]Life Sciences [q-bio], Bone Morphogenetic Protein 2, Gene Expression, cartilage tissue engineering, Article, Collagen Type I, Transforming Growth Factor beta1, lcsh:Chemistry, Chondrocytes, chondrogenesis, Humans, Cell Lineage, lcsh:QH301-705.5, Cells, Cultured, ComputingMilieux_MISCELLANEOUS, mesenchymal stem cells, hypoxia, Cell Differentiation, Fetal Blood, Extracellular Matrix, Oxygen, Collagen Type III, Phenotype, lcsh:Biology (General), lcsh:QD1-999, umbilical cord blood, Biomarkers
Abstract

Umbilical cord blood (UCB) is an attractive alternative to bone marrow for isolation of mesenchymal stem cells (MSCs) to treat articular cartilage defects. Here, we set out to determine the growth factors (bone morphogenetic protein 2 (BMP-2) and transforming growth factor-β (TGF-β1)) and oxygen tension effects during chondrogenesis of human UCB-MSCs for cartilage engineering. Chondrogenic differentiation was induced using 3D cultures in type I/III collagen sponges with chondrogenic factors in normoxia (21% O2) or hypoxia (

Published
2017
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19. RNA Interference and BMP-2 Stimulation Allows Equine Chondrocytes Redifferentiation in 3D-Hypoxia Cell Culture Model: Application for Matrix-Induced Autologous Chondrocyte Implantation

Author

Rakic, Rodolphe, Bourdon, Bastien, Hervieu, Magalie, Branly, Thomas, Legendre, Florence, Saulnier, Nathalie, Audigié, Fabrice, Maddens, Stéphane, Demoor, Magali, Galéra, Philippe, Biologie, génétique et thérapies ostéoarticulaires et respiratoires (BIOTARGEN), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Microenvironnement cellulaire et pathologie (MILPAT), Vetbiobank, Biomécanique et Pathologie Locomotrice du Cheval (BPLC), École nationale vétérinaire d'Alfort (ENVA)-Institut National de la Recherche Agronomique (INRA), EFS Rhône-Alpes, and EFS

Subjects
Cartilage, Articular, [SDV]Life Sciences [q-bio], type II collagen, Cell Culture Techniques, Bone Morphogenetic Protein 2, Article, Collagen Type I, lcsh:Chemistry, Chondrocytes, BMP-2, Animals, matrix-associated autologous chondrocyte implantation (MACI), Horses, RNA, Small Interfering, lcsh:QH301-705.5, ComputingMilieux_MISCELLANEOUS, hypoxia, dedifferentiation, Cell Differentiation, equine model, Cell Hypoxia, Extracellular Matrix, Col1a1, Collagen Type III, Phenotype, lcsh:Biology (General), lcsh:QD1-999, tissue engineering, siRNA, chondrocyte, HtrA1, RNA Interference, Biomarkers
Abstract

International audience; As in humans, osteoarthritis (OA) causes considerable economic loss to the equine industry. New hopes for cartilage repair have emerged with the matrix-associated autologous chondrocyte implantation (MACI). Nevertheless, its limitation is due to the dedifferentiation occurring during the chondrocyte amplification phase, leading to the loss of its capacity to produce a hyaline extracellular matrix (ECM). To enhance the MACI therapy efficiency, we have developed a strategy for chondrocyte redifferentiation, and demonstrated its feasibility in the equine model. Thus, to mimic the cartilage microenvironment, the equine dedifferentiated chondrocytes were cultured in type I/III collagen sponges for 7 days under hypoxia in the presence of BMP-2. In addition, chondrocytes were transfected by siRNA targeting Col1a1 and Htra1 mRNAs, which are overexpressed during dedifferentiation and OA. To investigate the quality of the neo-synthesized ECM, specific and atypical cartilage markers were evaluated by RT-qPCR and Western blot. Our results show that the combination of 3D hypoxia cell culture, BMP-2 (Bone morphogenetic protein-2), and RNA interference, increases the chondrocytes functional indexes (Col2a1/Col1a1, Acan/Col1a1), leading to an effective chondrocyte redifferentiation. These data represent a proof of concept for this process of application, in vitro, in the equine model, and will lead to the improvement of the MACI efficiency for cartilage tissue engineering therapy in preclinical/clinical trials, both in equine and human medicine.

Published
2017
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20. Improvement of the chondrocyte-specific phenotype upon equine bone marrow mesenchymal stem cell differentiation. Influence of TGF-ß1 or TGF-ß3, associated with BMP-2 and type I collagen siRNAs

Author

Contentin, Romain, Branly, Thomas, Desancé, Mélanie, Concari, Miranda, Jacquel, Thibaud, Rakic, Rodolphe, Bertoni, L, Jacquet, S, Mallein-Gerin, F, Denoix, Jean-Marie, Legendre, Florence, Audigié, Fabrice, Demoor, Magali, Galéra, Philippe, Contentin, Romain, Biologie, génétique et thérapies ostéoarticulaires et respiratoires (BIOTARGEN), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Centre d'Imagerie et de Recherche sur les Affections Locomotrices Equines (CIRALE), École nationale vétérinaire d'Alfort (ENVA), Institut de biologie et chimie des protéines [Lyon] (IBCP), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio]
Abstract

National audience; Articular cartilage is a tissue characterized by its poor intrinsic capacity for self-repair. This tissue is frequently altered upon trauma or in osteoarthritis (OA), a degenerative disease that is currently incurable. Consequently, cartilage markers, such as type II collagen, are degraded whereas atypic molecules, such as type I collagen, are newly synthetized. Another essential phenomenon occurring in OA is the upregulation of HtrA1, a serine protease targeting upstream receptors of signalling pathways involved in the synthesis of articular cartilage markers. OA incurs considerable economic loss for the equine sector. In the view to develop new therapies for humans and horses, significant progress in tissue engineering has led to the emergence of new generations of cartilage therapy. Matrix-associated autologous chondrocyte implantation is an advanced 3D cell-based therapy that holds promise for cartilage repair. The aim of this study is to improve the autologous chondrocyte implantation strategy by enhancing the chondrogenic differentiation of mesenchymal stem cells (MSCs) in order to increase the type II collagen/ type I collagen ratio.

Published
2017

21. In vitro engineering of human 3D chondrosarcoma: a preclinical model relevant for investigations of radiation quality impact

Author

Hamdi, Dounia Houria, Barbieri, Sofia, Chevalier, Francois, Groetz, Jean-Emmanuel, Legendre, Florence, Demoor, Magali, Galera, Philippe, Lefaix, Jean-Louis, Yannick Saintigny, Laboratoire d'Accueil et de Recherche avec les Ions Accélérés (LARIA), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Università degli Studi di Pavia = University of Pavia (UNIPV), Laboratoire Chrono-environnement (UMR 6249) (LCE), Centre National de la Recherche Scientifique (CNRS)-Université de Franche-Comté (UFC), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université Bourgogne Franche-Comté [COMUE] (UBFC), Microenvironnement cellulaire et pathologie (MILPAT), Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Normandie Université (NU), Laboratoire d'Accueil et de Recherche avec les Ions Accélérés ( LARIA ), Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ), Universita' degli Studi di Pavia, Laboratoire Chrono-environnement ( LCE ), Université Bourgogne Franche-Comté ( UBFC ) -Centre National de la Recherche Scientifique ( CNRS ) -Université de Franche-Comté ( UFC ), Microenvironnement cellulaire et pathologie ( MILPAT ), Université de Caen Normandie ( UNICAEN ), Normandie Université ( NU ) -Normandie Université ( NU ), Università degli Studi di Pavia, Laboratoire Chrono-environnement - CNRS - UFC (UMR 6249) (LCE), Université de Caen Normandie - UFR Santé (UNICAEN Santé), and Laboratoire Chrono-environnement - CNRS - UBFC (UMR 6249) (LCE)

Subjects
Cancer Research, DNA Repair, Radiotherapy, Cell Survival, Cell Culture Techniques, Chondrosarcoma, [SDV.CAN]Life Sciences [q-bio]/Cancer, In Vitro Techniques, Radiation Dosage, [ SDV.CAN ] Life Sciences [q-bio]/Cancer, Histones, Mice, Oncology, Cell Line, Tumor, Radiation, Ionizing, [ PHYS.PHYS.PHYS-MED-PH ] Physics [physics]/Physics [physics]/Medical Physics [physics.med-ph], Genetics, [PHYS.PHYS.PHYS-MED-PH]Physics [physics]/Physics [physics]/Medical Physics [physics.med-ph], Animals, Humans, Research Article, Cell Proliferation
Abstract

Background The benefit of better ballistic and higher efficiency of carbon ions for cancer treatment (hadron-therapy) is asserted since decades, especially for unresectable or resistant tumors like sarcomas. However, hadron-therapy with carbon ions stays underused and raises some concerns about potential side effects for patients. Chondrosarcoma is a cartilaginous tumor, chemo- and radiation-resistant, that lacks reference models for basic and pre-clinical studies in radiation-biology. Most studies about cellular effects of ionizing radiation, including hadrons, were performed under growth conditions dramatically different from human homeostasis. Tridimensional in vitro models are a fair alternative to animal models to approach tissue and tumors microenvironment. Methods By using a collagen matrix, standardized culture conditions, physiological oxygen tension and a well defined chondrosarcoma cell line, we developed a pertinent in vitro 3D model for hadron-biology studies. Low- and high-Linear Energy Transfer (LET) ionizing radiations from GANIL facilities of ~1 keV/μm and 103 ± 4 keV/μm were used respectively, at 2 Gy single dose. The impact of radiation quality on chondrosarcoma cells cultivated in 3D was analyzed on cell death, cell proliferation and DNA repair. Results A fair distribution of chondrosarcoma cells was observed in the whole 3D scaffold. Moreover, LET distribution in depth, for ions, was calculated and found acceptable for radiation-biology studies using this kind of scaffold. No difference in cell toxicity was observed between low- and high-LET radiations but a higher rate of proliferation was displayed following high-LET irradiation. Furthermore, 3D models presented a higher and longer induction of H2AX phosphorylation after 2 Gy of high-LET compared to low-LET radiations. Conclusions The presented results show the feasibility and usefulness of our 3D chondrosarcoma model in the study of the impact of radiation quality on cell fate. The observed changes in our tissue-like model after ionizing radiation exposure may explain some discrepancies between radiation-biology studies and clinical data. Electronic supplementary material The online version of this article (doi:10.1186/s12885-015-1590-5) contains supplementary material, which is available to authorized users.

Published
2015
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22. Chondrogenic Differentiation of Defined Equine Mesenchymal Stem Cells Derived from Umbilical Cord Blood for Use in Cartilage Repair Therapy.

Author

Desancé, Mélanie, Contentin, Romain, Bertoni, Lélia, Gomez-Leduc, Tangni, Branly, Thomas, Jacquet, Sandrine, Betsch, Jean-Marc, Batho, Agnès, Legendre, Florence, Audigié, Fabrice, Galéra, Philippe, and Demoor, Magali

Subjects
MESENCHYMAL stem cells, CORD blood transplantation, CARTILAGE regeneration, CARTILAGE injuries, SMALL interfering RNA, PHYSIOLOGY
Abstract

Cartilage engineering is a new strategy for the treatment of cartilage damage due to osteoarthritis or trauma in humans. Racehorses are exposed to the same type of cartilage damage and the anatomical, cellular, and biochemical properties of their cartilage are comparable to those of human cartilage, making the horse an excellent model for the development of cartilage engineering. Human mesenchymal stem cells (MSCs) differentiated into chondrocytes with chondrogenic factors in a biomaterial appears to be a promising therapeutic approach for direct implantation and cartilage repair. Here, we characterized equine umbilical cord blood-derived MSCs (eUCB-MSCs) and evaluated their potential for chondrocyte differentiation for use in cartilage repair therapy. Our results show that isolated eUCB-MSCs had high proliferative capacity and differentiated easily into osteoblasts and chondrocytes, but not into adipocytes. A three-dimensional (3D) culture approach with the chondrogenic factors BMP-2 and TGF- β1 potentiated chondrogenic differentiation with a significant increase in cartilage-specific markers at the mRNA level (Col2a1, Acan, Snorc) and the protein level (type II and IIB collagen) without an increase in hypertrophic chondrocyte markers (Col10a1 and Mmp13) in normoxia and in hypoxia. However, these chondrogenic factors caused an increase in type I collagen, which can be reduced using small interfering RNA targeting Col1a2. This study provides robust data on MSCs characterization and demonstrates that eUCB-MSCs have a great potential for cartilage tissue engineering. [ABSTRACT FROM AUTHOR]

Published
2018
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23. RNA Interference and BMP-2 Stimulation Allows Equine Chondrocytes Redifferentiation in 3D-Hypoxia Cell Culture Model: Application for Matrix-Induced Autologous Chondrocyte Implantation.

Author

Bourdon, Bastien, Hervieu, Magalie, Branly, Thomas, Legendre, Florence, Demoor, Magali, Galera, Philippe, Rakic, Rodolphe, Saulnier, Nathalie, Maddens, Stéphane, and Audigié, Fabrice

Subjects
RNA interference, BONE morphogenetic proteins, CARTILAGE cells, OSTEOARTHRITIS, HORSE diseases, HYALINE membrane disease
Abstract

As in humans, osteoarthritis (OA) causes considerable economic loss to the equine industry. New hopes for cartilage repair have emerged with the matrix-associated autologous chondrocyte implantation (MACI). Nevertheless, its limitation is due to the dedifferentiation occurring during the chondrocyte amplification phase, leading to the loss of its capacity to produce a hyaline extracellular matrix (ECM). To enhance the MACI therapy efficiency, we have developed a strategy for chondrocyte redifferentiation, and demonstrated its feasibility in the equine model. Thus, to mimic the cartilage microenvironment, the equine dedifferentiated chondrocytes were cultured in type I/III collagen sponges for 7 days under hypoxia in the presence of BMP-2. In addition, chondrocytes were transfected by siRNA targeting Col1a1 and Htra1 mRNAs, which are overexpressed during dedifferentiation and OA. To investigate the quality of the neo-synthesized ECM, specific and atypical cartilage markers were evaluated by RT-qPCR and Western blot. Our results show that the combination of 3D hypoxia cell culture, BMP-2 (Bone morphogenetic protein-2), and RNA interference, increases the chondrocytes functional indexes (Col2a1/Col1a1, Acan/Col1a1), leading to an effective chondrocyte redifferentiation. These data represent a proof of concept for this process of application, in vitro, in the equine model, and will lead to the improvement of the MACI efficiency for cartilage tissue engineering therapy in preclinical/clinical trials, both in equine and human medicine. [ABSTRACT FROM AUTHOR]

Published
2017
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24. Radiation-Induced Alterations of Osteogenic and Chondrogenic Differentiation of Human Mesenchymal Stem Cells.

Author

Cruet-Hennequart, Séverine, Drougard, Carole, Shaw, Georgina, Legendre, Florence, Demoor, Magali, Barry, Frank, Lefaix, Jean-Louis, and Galéra, Philippe

Subjects
BONE growth, CHONDROGENESIS, CELL differentiation, MESENCHYMAL stem cells, RADIOTHERAPY
Abstract

While human mesenchymal stem cells (hMSCs), either in the bone marrow or in tumour microenvironment could be targeted by radiotherapy, their response is poorly understood. The oxic effects on radiosensitivity, cell cycle progression are largely unknown, and the radiation effects on hMSCs differentiation capacities remained unexplored. Here we analysed hMSCs viability and cell cycle progression in 21% O2 and 3% O2 conditions after medical X-rays irradiation. Differentiation towards osteogenesis and chondrogenesis after irradiation was evaluated through an analysis of differentiation specific genes. Finally, a 3D culture model in hypoxia was used to evaluate chondrogenesis in conditions mimicking the natural hMSCs microenvironment. The hMSCs radiosensitivity was not affected by O2 tension. A decreased number of cells in S phase and an increase in G2/M were observed in both O2 tensions after 16 hours but hMSCs released from the G2/M arrest and proliferated at day 7. Osteogenesis was increased after irradiation with an enhancement of mRNA expression of specific osteogenic genes (alkaline phosphatase, osteopontin). Osteoblastic differentiation was altered since matrix deposition was impaired with a decreased expression of collagen I, probably through an increase of its degradation by MMP-3. After induction in monolayers, chondrogenesis was altered after irradiation with an increase in COL1A1 and a decrease in both SOX9 and ACAN mRNA expression. After induction in a 3D culture in hypoxia, chondrogenesis was altered after irradiation with a decrease in COL2A1, ACAN and SOX9 mRNA amounts associated with a RUNX2 increase. Together with collagens I and II proteins decrease, associated to a MMP-13 expression increase, these data show a radiation-induced impairment of chondrogenesis. Finally, a radiation-induced impairment of both osteogenesis and chondrogenesis was characterised by a matrix composition alteration, through inhibition of synthesis and/or increased degradation. Alteration of osteogenesis and chondrogenesis in hMSCs could potentially explain bone/joints defects observed after radiotherapy. [ABSTRACT FROM AUTHOR]

Published
2015
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25. Shell Extracts from the Marine Bivalve Pecten maximus Regulate the Synthesis of Extracellular Matrix in Primary Cultured Human Skin Fibroblasts.

Author

Latire, Thomas, Legendre, Florence, Bigot, Nicolas, Carduner, Ludovic, Kellouche, Sabrina, Bouyoucef, Mouloud, Carreiras, Franck, Marin, Frédéric, Lebel, Jean-Marc, Galéra, Philippe, and Serpentini, Antoine

Subjects
*PECTEN maximus, *EXTRACELLULAR matrix, *SKIN physiology, *FIBROBLASTS, *CYTOCHEMISTRY, *CELLULAR signal transduction
Abstract

Mollusc shells are composed of more than 95% calcium carbonate and less than 5% of an organic matrix consisting mostly of proteins, glycoproteins and polysaccharides. Previous studies have elucidated the biological activities of the shell matrices from bivalve molluscs on skin, especially on the expression of the extracellular matrix components of fibroblasts. In this work, we have investigated the potential biological activities of shell matrix components extracted from the shell of the scallop Pecten maximus on human fibroblasts in primary culture. Firstly, we demonstrated that shell matrix components had different effects on general cellular activities. Secondly, we have shown that the shell matrix components stimulate the synthesis of type I and III collagens, as well as that of sulphated GAGs. The increased expression of type I collagen is likely mediated by the recruitment of transactivating factors (Sp1, Sp3 and human c-Krox) in the −112/−61 bp COL1A1 promoter region. Finally, contrarily to what was obtained in previous works, we demonstrated that the scallop shell extracts have only a small effect on cell migration during in vitro wound tests and have no effect on cell proliferation. Thus, our research emphasizes the potential use of shell matrix of Pecten maximus for dermo-cosmetic applications. [ABSTRACT FROM AUTHOR]

Published
2014
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26. Interleukin-1 and Transforming Growth Factor-ss 1 as Crucial Factors in Osteoarthritic Cartilage Metabolism.

Author

Pujol, Jean-Pierre, Chadjichristos, Christos, Legendre, Florence, Baugé, Catherine, Beauchef, Gallic, Andriamanalijaona, Rina, Galéra, Philippe, and Boumediene, Karim

Subjects
INTERLEUKIN-1, TRANSFORMING growth factors-beta, OSTEOARTHRITIS, BONE metabolism, CARTILAGE, COLLAGEN
Abstract

In osteoarthritis (OA), interleukin-1 (IL-1) stimulates the expression of metalloproteinases and aggrecanases, which induce cartilage degradation. IL-1 is also capable of reducing the production of cartilage-specific macromolecules, including type II collagen, through modulation of the transcription factors Sp1 and Sp3. Conversely, Transforming growth factor-ss (TGF-β) counteracts with most of the IL-1 deleterious effects and contributes to cartilage homeostasis. However, OA chondrocytes progressively loose the expression of TGF-β type II receptor and become insensitive to the factor. This downregulation is also driven by IL-1. This review provides insights into the molecular mechanisms that underly the interplay between IL-1 and TGF-β in OA cartilage metabolism and enlightens the central role of Sp1 and Sp3 transcription factors in the matrix pathological alterations. [ABSTRACT FROM AUTHOR]

Published
2008
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27. Tumor Suppressive Role of miR-342-5p in Human Chondrosarcoma Cells and 3D Organoids.

Author

Veys, Clément, Benmoussa, Abderrahim, Contentin, Romain, Duchemin, Amandine, Brotin, Emilie, Lafont, Jérôme E., Saintigny, Yannick, Poulain, Laurent, Denoyelle, Christophe, Demoor, Magali, Legendre, Florence, and Galéra, Philippe

Subjects
CHONDROSARCOMA, DRUG target, HIGH throughput screening (Drug development), EPIDERMAL growth factor receptors, ORGANOIDS, AUTOPHAGY
Abstract

Chondrosarcomas are malignant bone tumors. Their abundant cartilage-like extracellular matrix and their hypoxic microenvironment contribute to their resistance to chemotherapy and radiotherapy, and no effective therapy is currently available. MicroRNAs (miRNAs) may be an interesting alternative in the development of therapeutic options. Here, for the first time in chondrosarcoma cells, we carried out high-throughput functional screening using impedancemetry, and identified five miRNAs with potential antiproliferative or chemosensitive effects on SW1353 chondrosarcoma cells. The cytotoxic effects of miR-342-5p and miR-491-5p were confirmed on three chondrosarcoma cell lines, using functional validation under normoxia and hypoxia. Both miRNAs induced apoptosis and miR-342-5p also induced autophagy. Western blots and luciferase reporter assays identified for the first time Bcl-2 as a direct target of miR-342-5p, and also Bcl-xL as a direct target of both miR-342-5p and miR-491-5p in chondrosarcoma cells. MiR-491-5p also inhibited EGFR expression. Finally, only miR-342-5p induced cell death on a relevant 3D chondrosarcoma organoid model under hypoxia that mimics the in vivo microenvironment. Altogether, our results revealed the tumor suppressive activity of miR-342-5p, and to a lesser extent of miR-491-5p, on chondrosarcoma lines. Through this study, we also confirmed the potential of Bcl-2 family members as therapeutic targets in chondrosarcomas. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Evaluation of Allogeneic Bone-Marrow-Derived and Umbilical Cord Blood-Derived Mesenchymal Stem Cells to Prevent the Development of Osteoarthritis in An Equine Model.

Author

Bertoni, Lélia, Jacquet-Guibon, Sandrine, Branly, Thomas, Desancé, Mélanie, Legendre, Florence, Melin, Martine, Rivory, Pascaline, Hartmann, Daniel-Jean, Schmutz, Amandine, Denoix, Jean-Marie, Demoor, Magali, Audigié, Fabrice, Galéra, Philippe, and Cucchiarini, Magali

Subjects
MESENCHYMAL stem cells, CORD blood, MAGNETIC resonance imaging, UMBILICAL cord, INTRA-articular injections, SYNOVIAL fluid, POSTMORTEM changes
Abstract

Osteoarthritis (OA) is a significant cause of pain in both humans and horses with a high socio-economic impact. The horse is recognized as a pertinent model for human OA. In both species, regenerative therapy with allogeneic mesenchymal stem cells (MSCs) appears to be a promising treatment but, to date, no in vivo studies have attempted to compare the effects of different cell sources on the same individuals. The objective of this study is to evaluate the ability of a single blinded intra-articular injection of allogeneic bone-marrow (BM) derived MSCs and umbilical cord blood (UCB) derived MSC to limit the development of OA-associated pathological changes compared to placebo in a post-traumatic OA model applied to all four fetlock joints of eight horses. The effect of the tissue source (BM vs. UCB) is also assessed on the same individuals. Observations were carried out using clinical, radiographic, ultrasonographic, and magnetic resonance imaging methods as well as biochemical analysis of synovial fluid and postmortem microscopic and macroscopic evaluations of the joints until Week 12. A significant reduction in the progression of OA-associated changes measured with imaging techniques, especially radiography, was observed after injection of bone-marrow derived mesenchymal stem cells (BM-MSCs) compared to contralateral placebo injections. These results indicate that allogeneic BM-MSCs are a promising treatment for OA in horses and reinforce the importance of continuing research to validate these results and find innovative strategies that will optimize the therapeutic potential of these cells. However, they should be considered with caution given the low number of units per group. [ABSTRACT FROM AUTHOR]

Published
2021
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29. Marine Collagen Hydrolysates Downregulate the Synthesis of Pro-Catabolic and Pro-Inflammatory Markers of Osteoarthritis and Favor Collagen Production and Metabolic Activity in Equine Articular Chondrocyte Organoids.

Author

Bourdon, Bastien, Contentin, Romain, Cassé, Frédéric, Maspimby, Chloé, Oddoux, Sarah, Noël, Antoine, Legendre, Florence, Gruchy, Nicolas, and Galéra, Philippe

Subjects
ARTICULAR cartilage, ORGANOIDS, OSTEOARTHRITIS, DIETARY supplements, PROTEIN synthesis
Abstract

Articular cartilage experiences mechanical constraints leading to chondral defects that inevitably evolve into osteoarthritis (OA), because cartilage has poor intrinsic repair capacity. Although OA is an incurable degenerative disease, several dietary supplements may help improve OA outcomes. In this study, we investigated the effects of Dielen® hydrolyzed fish collagens from skin (Promerim®30 and Promerim®60) and cartilage (Promerim®40) to analyze the phenotype and metabolism of equine articular chondrocytes (eACs) cultured as organoids. Here, our findings demonstrated the absence of cytotoxicity and the beneficial effect of Promerim® hydrolysates on eAC metabolic activity under physioxia; further, Promerim®30 also delayed eAC senescence. To assess the effect of Promerim® in a cartilage-like tissue, eACs were cultured as organoids under hypoxia with or without BMP-2 and/or IL-1β. In some instances, alone or in the presence of IL-1β, Promerim®30 and Promerim®40 increased protein synthesis of collagen types I and II, while decreasing transcript levels of proteases involved in OA pathogenesis, namely Htra1, and the metalloproteinases Mmp1-3, Adamts5, and Cox2. Both Promerim® hydrolysates also decreased Htra1 protein amounts, particularly in inflammatory conditions. The effect of Promerim® was enhanced under inflammatory conditions, possibly due to a decrease in the synthesis of inflammation-associated molecules. Finally, Promerim® favored in vitro repair in a scratch wound assay through an increase in cell proliferation or migration. Altogether, these data show that Promerim®30 and 40 hold promise as dietary supplements to relieve OA symptoms in patients and to delay OA progression. [ABSTRACT FROM AUTHOR]

Published
2021
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31. Investigation of equine testis contribution to vitamin D bioactivation.

Author

Rouge, Marion, Elkhatib, Razan, Delalande, Christelle, Cognié, Juliette, Reigner, Fabrice, Barriere, Philippe, Deleuze, Stefan, Cousty, Matthieu, Legendre, Florence, Galera, Philippe, Hanoux, Vincent, and Bouraima-Lelong, Hélène

Subjects
*VITAMIN D, *CHOLECALCIFEROL, *TESTIS, *VITAMIN D metabolism, *HORSE shows, *SPERMATOGENESIS
Abstract

• The expression of vitamin D metabolizing enzymes was described in testis in several species. • Absence of CYP2R1 and CYP27B1 and low levels of CYP27A1 in horse testis. • The equine castration has no impact on vitamin D levels. • This work shows an absence of equine testis contribution to the bioactivation of vitamin D. Although vitamin D acts in various biological processes, it plays a critical role in the maintenance of bone health, and regulates calcium homeostasis. In humans and rodents, the main tissues involved in vitamin D metabolism are the liver and the kidneys, however it has been shown that the testis has strongly participated in its bioactivation. Indeed, in these different species, enzymes metabolizing vitamin D (CYP27A1, CYP27B1 and CYP2R1) have been demonstrated in this tissue. Moreover, men with hypogonadism have shown a decrease in circulating levels of vitamin D. In equine species, the castration of males is a regular practice to reduce the behavior of stallions deemed too aggressive. Castration is carried out at various ages: in foals during their growth or in adulthood once they have reached their optimum size. Although horses exhibit atypical vitamin D metabolism with low circulating levels of vitamin D, it was suggested that testis may contribute to its activation as has been described in rodents and humans; castration could therefore be likely to affect its metabolism. In this study, blood levels of bioactive form of vitamin D (1 α,25[OH] 2 vitamin D 3) were measured before and after castration at different ages: 1 wk, after puberty (2 yr) and at adulthood (6 yr). The gene expression of enzymes involved in vitamin D metabolism has been sought in the testis of different experimental groups. No change in bioactive vitamin D3 levels was observed after castration regardless of the age at the time of surgery. The exceptional status of equine species is confirmed with a low or a lack of testis contribution to vitamin D metabolism, regardless of testicular development. This is demonstrated by a low or a lack of signal from enzymes involved in vitamin D bioactivation. Therefore, horses constitute a unique model in comparative endocrinology. [ABSTRACT FROM AUTHOR]

Published
2022
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32. BMP-2, hypoxia, and COL1A1/HtrA1 siRNAs favor neo-cartilage hyaline matrix formation in chondrocytes.

Author

Ollitrault D, Legendre F, Drougard C, Briand M, Benateau H, Goux D, Chajra H, Poulain L, Hartmann D, Vivien D, Shridhar V, Baldi A, Mallein-Gerin F, Boumediene K, Demoor M, and Galera P

Subjects
Aged, Aged, 80 and over, Animals, Cattle, Cell Hypoxia drug effects, Cells, Cultured, Chondrocytes, Chondrogenesis drug effects, Collagen Type I, alpha 1 Chain, Extracellular Matrix drug effects, High-Temperature Requirement A Serine Peptidase 1, Humans, Hypertrophy, Kinetics, Mice, Nude, Middle Aged, Osteogenesis drug effects, Phenotype, RNA, Messenger genetics, RNA, Messenger metabolism, Bone Morphogenetic Protein 2 pharmacology, Cartilage, Articular cytology, Collagen Type I metabolism, Extracellular Matrix metabolism, Hyalin metabolism, RNA, Small Interfering metabolism, Serine Endopeptidases metabolism
Abstract

Osteoarthritis (OA) is an irreversible pathology that causes a decrease in articular cartilage thickness, leading finally to the complete degradation of the affected joint. The low spontaneous repair capacity of cartilage prevents any restoration of the joint surface, making OA a major public health issue. Here, we developed an innovative combination of treatment conditions to improve the human chondrocyte phenotype before autologous chondrocyte implantation. First, we seeded human dedifferentiated chondrocytes into a collagen sponge as a scaffold, cultured them in hypoxia in the presence of a bone morphogenetic protein (BMP), BMP-2, and transfected them with small interfering RNAs targeting two markers overexpressed in OA dedifferentiated chondrocytes, that is, type I collagen and/or HtrA1 serine protease. This strategy significantly decreased mRNA and protein expression of type I collagen and HtrA1, and led to an improvement in the chondrocyte phenotype index of differentiation. The effectiveness of our in vitro culture process was also demonstrated in the nude mouse model in vivo after subcutaneous implantation. We, thus, provide here a new protocol able to favor human hyaline chondrocyte phenotype in primarily dedifferentiated cells, both in vitro and in vivo. Our study also offers an innovative strategy for chondrocyte redifferentiation and opens new opportunities for developing therapeutic targets.

Published
2015
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33. Enhanced hyaline cartilage matrix synthesis in collagen sponge scaffolds by using siRNA to stabilize chondrocytes phenotype cultured with bone morphogenetic protein-2 under hypoxia.

Author

Legendre F, Ollitrault D, Hervieu M, Baugé C, Maneix L, Goux D, Chajra H, Mallein-Gerin F, Boumediene K, Galera P, and Demoor M

Subjects
Aged, Aged, 80 and over, Aggrecans genetics, Aggrecans metabolism, Animals, Cattle, Cell Differentiation drug effects, Cell Hypoxia drug effects, Cell Hypoxia genetics, Cells, Cultured, Chondrocytes drug effects, Chondrocytes metabolism, Chondrocytes ultrastructure, Chondrogenesis drug effects, Cilia drug effects, Cilia metabolism, Collagen genetics, Collagen metabolism, DNA metabolism, Enhancer Elements, Genetic genetics, Extracellular Matrix drug effects, Focal Adhesions drug effects, Focal Adhesions metabolism, Gene Expression Regulation drug effects, Humans, Hyaline Cartilage cytology, Middle Aged, Phenotype, RNA, Messenger genetics, RNA, Messenger metabolism, SOX9 Transcription Factor genetics, SOX9 Transcription Factor metabolism, Transcription, Genetic drug effects, Bone Morphogenetic Protein 2 pharmacology, Chondrocytes cytology, Collagen pharmacology, Extracellular Matrix metabolism, Hyaline Cartilage metabolism, RNA, Small Interfering metabolism, Tissue Scaffolds chemistry
Abstract

Cartilage healing by tissue engineering is an alternative strategy to reconstitute functional tissue after trauma or age-related degeneration. However, chondrocytes, the major player in cartilage homeostasis, do not self-regenerate efficiently and lose their phenotype during osteoarthritis. This process is called dedifferentiation and also occurs during the first expansion step of autologous chondrocyte implantation (ACI). To ensure successful ACI therapy, chondrocytes must be differentiated and capable of synthesizing hyaline cartilage matrix molecules. We therefore developed a safe procedure for redifferentiating human chondrocytes by combining appropriate physicochemical factors: hypoxic conditions, collagen scaffolds, chondrogenic factors (bone morphogenetic protein-2 [BMP-2], and insulin-like growth factor I [IGF-I]) and RNA interference targeting the COL1A1 gene. Redifferentiation of dedifferentiated chondrocytes was evaluated using gene/protein analyses to identify the chondrocyte phenotypic profile. In our conditions, under BMP-2 treatment, redifferentiated and metabolically active chondrocytes synthesized a hyaline-like cartilage matrix characterized by type IIB collagen and aggrecan molecules without any sign of hypertrophy or osteogenesis. In contrast, IGF-I increased both specific and noncharacteristic markers (collagens I and X) of chondrocytes. The specific increase in COL2A1 gene expression observed in the BMP-2 treatment was shown to involve the specific enhancer region of COL2A1 that binds the trans-activators Sox9/L-Sox5/Sox6 and Sp1, which are associated with a decrease in the trans-inhibitors of COL2A1, c-Krox, and p65 subunit of NF-kappaB. Our procedure in which BMP-2 treatment under hypoxia is associated with a COL1A1 siRNA, significantly increased the differentiation index of chondrocytes, and should offer the opportunity to develop new ACI-based therapies in humans.

Published
2013
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34. Evaluation of adhesion, proliferation, and functional differentiation of dermal fibroblasts on glycosaminoglycan-coated polysulfone membranes.

Author

Attia J, Legendre F, Nguyen QT, Baugé C, Boumediene K, and Pujol JP

Subjects
Blotting, Western, Cell Adhesion, Cell Differentiation, Cell Proliferation, Collagen Type II metabolism, Fibroblasts metabolism, Fibroblasts ultrastructure, Humans, Membranes, Artificial, Microscopy, Electron, Scanning, Polymers, Skin metabolism, Skin ultrastructure, Sulfones, Tissue Culture Techniques instrumentation, Tissue Culture Techniques methods, Fibroblasts cytology, Glycosaminoglycans chemistry, Skin cytology
Abstract

It may be hypothesized that wound healing will benefit from polymer membranes coated with extracellular matrix macromolecules. Here we describe the behavior of dermal fibroblasts on polysulfone (PSU) membranes, and PSU membranes covered with chitosan (Ch), chondroitin sulfate (CS), or hyaluronan, using an additional intermediary ionic charge modification with poly-(acrylonitrile-co-methallyl sulfonate) (AN69), which allows binding of the polysaccharidic macromolecules. Cell adhesion, proliferation, cell signaling, and collagen gene expression were investigated. Ch and CS were found unable to support cell adhesion and proliferation. In contrast, both PSU and hyaluronic acid-coated PSU membranes appeared as suitable materials to culture fibroblasts and support their matrix synthesis capacity. Moreover, they induce type III collagen expression in addition to type I, suggesting that they promote a fetal-like environment that could be beneficial for wound healing.

Published
2008
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35. Comparative effects of 2 antioxidants, selenomethionine and epigallocatechin-gallate, on catabolic and anabolic gene expression of articular chondrocytes.

Author

Andriamanalijaona R, Kypriotou M, Baugé C, Renard E, Legendre F, Raoudi M, Boumediene K, Gatto H, Monginoux P, and Pujol JP

Subjects
Animals, Cartilage, Articular cytology, Cartilage, Articular drug effects, Cartilage, Articular enzymology, Catechin pharmacology, Cattle, Cells, Cultured, Chondrocytes enzymology, Chondrocytes pathology, DNA metabolism, Dose-Response Relationship, Drug, Enzyme Activation drug effects, Enzymes metabolism, Extracellular Matrix drug effects, Extracellular Matrix metabolism, Interleukin-1 pharmacology, NF-kappa B metabolism, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Transcription Factor AP-1 metabolism, Antioxidants pharmacology, Catechin analogs & derivatives, Chondrocytes drug effects, Enzymes genetics, Gene Expression drug effects, Selenomethionine pharmacology
Abstract

Objective: . To determine the effects of selenomethionine (Se-met) and epigallocatechin-gallate (EGCg) on gene expression, activation of mitogen-activating kinases, and DNA binding of nuclear factor-kappaB (NF-kappaB) and apolipoprotein-1 (AP-1) in articular chondrocytes., Methods: Chondrocytes, cultured in low-oxygen tension, were pretreated with L-selenomethionine or EGCg for 24 h, followed by interleukin 1 (IL-1beta) for 1 h (nuclear and cytoplasmic extracts) or 24 h (RNA extraction). Reverse transcription-polymerase chain reaction was performed to determine mRNA levels of matrix metalloproteinases (MMP-1, -3, -13), aggrecanases (-1, -2), IL-1beta, inducible nitric oxide synthase, cyclooxygenases (-1, -2), type II collagen and aggrecan, and transforming growth factor-beta (TGF-beta1, -2, -3) and their receptors I and II. Activity of mitogen-activating protein kinases (MAPK) was assayed by Western blot and AP-1/NF-kB DNA binding by electrophoretic mobility shift assay., Results: Pretreatment with 0.5 microM Se-met prevented IL-1beta-induced MMP-1 and aggrecanase-1 expression, and reduced the cytokine inhibitory effect on type II collagen, aggrecan core protein, and TGF-beta receptor II (TGF-betaRII) mRNA levels. EGCg was more efficient in modulating the effects of IL-1beta on the genes studied. Whereas EGCg inhibited the IL-1beta-activated MAPK, NF-kappaB, and AP-1, Se-met stimulated that signaling pathway. This could account for the differential effects exerted by these antioxidants on chondrocytes., Conclusion: Our data provide insights into the mechanisms whereby ECGg and selenium modulate chondrocyte metabolism. Despite their differential mechanisms of action, the 2 compounds may exert global beneficial effects on articular cartilage.

Published
2005

36. Role of interleukin 6 (IL-6)/IL-6R-induced signal tranducers and activators of transcription and mitogen-activated protein kinase/extracellular.

Author

Legendre F, Bogdanowicz P, Boumediene K, and Pujol JP

Subjects
ADAM Proteins, ADAMTS4 Protein, Animals, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Cartilage, Articular cytology, Cattle, Cells, Cultured, Chondrocytes cytology, Collagenases genetics, Collagenases metabolism, DNA-Binding Proteins metabolism, Enzyme Inhibitors pharmacology, Flavonoids pharmacology, Gene Expression Regulation, Enzymologic drug effects, MAP Kinase Signaling System physiology, Matrix Metalloproteinase 1 genetics, Matrix Metalloproteinase 1 metabolism, Matrix Metalloproteinase 13, Matrix Metalloproteinase 3 genetics, Matrix Metalloproteinase 3 metabolism, Matrix Metalloproteinases genetics, Metalloendopeptidases genetics, Mitogen-Activated Protein Kinase 1 metabolism, Mitogen-Activated Protein Kinase 3 metabolism, Procollagen N-Endopeptidase, STAT1 Transcription Factor, STAT3 Transcription Factor, Sesquiterpenes pharmacology, Trans-Activators metabolism, Transcriptional Activation drug effects, Transcriptional Activation physiology, Up-Regulation drug effects, Up-Regulation physiology, Chondrocytes physiology, Interleukin-6 pharmacology, MAP Kinase Signaling System drug effects, Matrix Metalloproteinases metabolism, Metalloendopeptidases metabolism, Receptors, Interleukin-6 metabolism
Abstract

Objective: Studies have described elevated levels of interleukin 6 (IL-6) and its soluble receptor (sIL-6R) in osteoarthritic and rheumatoid joints, as well as the inhibitory effect of this combination on cartilage matrix production. We investigated the ability of IL-6/sIL-6R to modulate gene expression of matrix metalloproteinase (MMP) and ADAMTS (ADAMS with thrombospondin motifs) family members in bovine chondrocytes, and the potential role of signal transducers and activators of transcription (STAT) and mitogen-activated protein kinases (MAPK) in this regulation., Methods: Primary cultures of bovine chondrocytes were stimulated with IL-6/sIL-6R for 30 min (Western blot and EMSA) or 24 h (RNA measurements) in the presence or absence of the STAT inhibitor parthenolide or the MAPK inhibitor PD 098059. mRNA was assessed by RT-PCR for the expression of MMP (MMP-1, -3, and -13) and 2 ADAMT family members (ADAMTS-4 and -5/11)., Results: IL-6/sIL-6R markedly induced activation of STAT and extracellular signal-related kinase (ERK1/2) and the subsequent expression of the collagenases MMP-1 and MMP-13 as well as MMP-3, an aggrecan-degrading enzyme and activator of pro-MMP. Expression of the 2 specific aggrecanases ADAMTS-4 and -5/11 was also elevated by this combination. Both STAT and MAPK signaling pathways were found to contribute to the IL-6/sIL-6R induction mechanisms, the overall effect being dependent on the respective magnitude of response and the crosstalk between the 2 pathways., Conclusion: These data indicate that the cartilage-degrading properties of IL-6/sIL-6R are mediated by induction of the aggrecan-degrading enzymes ADAMTS-4, -5/11, and MMP-3, and the collagen-degrading enzymes MMP-1 and -13. STAT and MAPK pathways play a crucial role in IL-6/sIL-6R modulation of these enzymes, suggesting that new strategies in the treatment of osteoarticular diseases might target these transduction cascades.

Published
2005

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