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5. Interleukin-8 Release by Endothelial Colony-Forming Cells Isolated from Idiopathic Pulmonary Fibrosis Patients Might Contribute to Their Pathogenicity

Author

Blandinieres, A., primary, Gendron, N., additional, Bacha, N., additional, Bieche, I., additional, Nunes, H., additional, Nevo, N., additional, Rossi, E., additional, Crestani, B., additional, Lecourt, S., additional, Chevret, S., additional, Lokajczyk, A., additional, Kisaoglu, A., additional, Juvin, K., additional, Bertil, S., additional, Valeyre, D., additional, Cras, A., additional, Gaussem, P., additional, Israël-Biet, D., additional, and Smadja, D.M., additional

Published
2019
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6. La sécrétion d’interkeukine-8 par les progéniteurs endothéliaux circulants isolés de patients atteints de fibrose pulmonaire idiopathique pourrait contribuer à leur pathogénicité

Author

Blandinières, A., primary, Gendron, N., additional, Bacha, N., additional, Bièche, I., additional, Nunes, H., additional, Nevo, N., additional, Rossi, E., additional, Crestani, B., additional, Lecourt, S., additional, Chevret, S., additional, Lokajcyk, A., additional, Kisaoglu, A., additional, Juvin, K., additional, Bertil, S., additional, Valeyre, D., additional, Cras, A., additional, Gaussem, P., additional, Israel-Biet, D., additional, and Smadja, D., additional

Published
2019
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7. L’actif net des organismes de placement collectif français non monétaires augmente en 2013 en dépit de retraits nets

Author

FOUREL, G. and LECOURT, S.

Subjects
organismes de placement collectif, OPC, titres d’OPC, actif net, fonds d’investissement, placements des OPC, titres de créance, actions, obligations, choix de portefeuille, souscriptions, rachats, valorisation, jel:E44, jel:G20, jel:O16, jel:G00, jel:G11
Abstract

À fin 2013, la France occupe la quatrième place dans la zone euro pour la valeur de ses organismes de placement collectif (OPC), derrière le Luxembourg, l’Irlande et l’Allemagne. Sur l’année, l’actif net des OPC non monétaires français enregistre une progression, les effets de valorisation excédant les rachats. Les OPC non monétaires français consacrent près de la moitié de leurs placements au financement de l’économie nationale.

Published
2014

8. Galectin-1 and Semaphorin-3A are two soluble factors conferring T cell immunosuppression to bone marrow mesenchymal stem cell

Author

Lepelletier, Y., Lecourt, S., Arnulf, B., Vanneaux, V., J.P., Fermand, Menasche, P., Domet, T., J.P., Marolleau, Hermine, O., Larghero, J., Cytokines, hématopoïèse et réponse immune (CHRI), Université Paris Descartes - Paris 5 (UPD5) - Institut National de la Santé et de la Recherche Médicale (INSERM) - Centre National de la Recherche Scientifique (CNRS), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), and Slama, Catherine

Subjects
ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2010

13. Phenotypic and functional characterization of bone marrow mesenchymal stem cells derived from patients with multiple myeloma

Author

Arnulf, B, primary, Lecourt, S, additional, Soulier, J, additional, Ternaux, B, additional, Lacassagne, M-Noelle, additional, Crinquette, A, additional, Dessoly, J, additional, Sciaini, A-K, additional, Benbunan, M, additional, Chomienne, C, additional, Fermand, J-P, additional, Marolleau, J-P, additional, and Larghero, J, additional

Published
2006
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18. CXCR4 signaling determines the fate of hematopoietic multipotent progenitors by stimulating mTOR activity and mitochondrial metabolism.

Author

Rondeau V, Kalogeraki M, Roland L, Nader ZA, Gourhand V, Bonaud A, Lemos J, Khamyath M, Moulin C, Schell B, Delord M, Bidaut G, Lecourt S, Freitas C, Anginot A, Mazure N, McDermott DH, Parietti V, Setterblad N, Dulphy N, Bachelerie F, Aurrand-Lions M, Stockholm D, Lobry C, Murphy PM, Espéli M, Mancini SJC, and Balabanian K

Subjects
Animals, Mice, Humans, Multipotent Stem Cells metabolism, Multipotent Stem Cells cytology, Cell Differentiation, Immunologic Deficiency Syndromes metabolism, Immunologic Deficiency Syndromes genetics, Mutation, Oxidative Phosphorylation, Gene Knock-In Techniques, Mice, Inbred C57BL, Warts, TOR Serine-Threonine Kinases metabolism, TOR Serine-Threonine Kinases genetics, Mitochondria metabolism, Signal Transduction, Receptors, CXCR4 metabolism, Receptors, CXCR4 genetics, Hematopoietic Stem Cells metabolism, Hematopoietic Stem Cells cytology, Primary Immunodeficiency Diseases genetics, Primary Immunodeficiency Diseases metabolism, Primary Immunodeficiency Diseases pathology
Abstract

Both cell-intrinsic and niche-derived, cell-extrinsic cues drive the specification of hematopoietic multipotent progenitors (MPPs) in the bone marrow, which comprise multipotent MPP1 cells and lineage-restricted MPP2, MPP3, and MPP4 subsets. Patients with WHIM syndrome, a rare congenital immunodeficiency caused by mutations that prevent desensitization of the chemokine receptor CXCR4, have an excess of myeloid cells in the bone marrow. Here, we investigated the effects of increased CXCR4 signaling on the localization and fate of MPPs. Knock-in mice bearing a WHIM syndrome-associated CXCR4 mutation ( CXCR4 1013 ) phenocopied the myeloid skewing of bone marrow in patients. Whereas MPP4 cells in wild-type mice differentiated into lymphoid cells, MPP4s in CXCR4 1013 knock-in mice differentiated into myeloid cells. This myeloid rewiring of MPP4s in CXCR4 1013 knock-in mice was associated with enhanced signaling mediated by the kinase mTOR and increased oxidative phosphorylation (OXPHOS). MPP4s also localized further from arterioles in the bone marrow of knock-in mice compared with wild-type mice, suggesting that the loss of extrinsic cues from the perivascular niche may also contribute to their myeloid skewing. Chronic treatment with the CXCR4 antagonist AMD3100 or the mTOR inhibitor rapamycin restored the lymphoid potential of MPP4s in knock-in mice. Thus, CXCR4 desensitization drives the lymphoid potential of MPP4 cells by dampening the mTOR-dependent metabolic changes that promote myeloid differentiation.

Published
2024
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19. PitViper: a software for comparative meta-analysis and annotation of functional screening data.

Author

Meslin PA, Kelly LM, Benbarche S, Lecourt S, Lin KH, Rutter JC, Bassil CF, Itzykson R, Wood KC, Puissant A, and Lobry C

Abstract

Recent advancements in shRNA and Cas protein technologies have enabled functional screening methods targeting genes or non-coding regions using single or pooled shRNA and sgRNA. CRISPR-based systems have also been developed for modulating DNA accessibility, resulting in CRISPR-mediated interference (CRISPRi) or activation (CRISPRa) of targeted genes or genomic DNA elements. However, there is still a lack of software tools for integrating diverse array of functional genomics screening outputs that could offer a cohesive framework for comprehensive data integration. Here, we developed PitViper, a flexible and interactive open-source software designed to fill this gap, providing reliable results for the type of elements being screened. It is an end-to-end automated and reproducible bioinformatics pipeline integrating gold-standard methods for functional screening analysis. Our sensitivity analyses demonstrate that PitViper is a useful tool for identifying potential super-enhancer liabilities in a leukemia cell line through genome-wide CRISPRi-based screening. It offers a robust, flexible, and interactive solution for integrating data analysis and reanalysis from functional screening methods, making it a valuable resource for researchers in the field., (© The Author(s) 2024. Published by Oxford University Press on behalf of NAR Genomics and Bioinformatics.)

Published
2024
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20. Screening of ETO2-GLIS2-induced Super Enhancers identifies targetable cooperative dependencies in acute megakaryoblastic leukemia.

Author

Benbarche S, Lopez CK, Salataj E, Aid Z, Thirant C, Laiguillon MC, Lecourt S, Belloucif Y, Vaganay C, Antonini M, Hu J, da Silva Babinet A, Ndiaye-Lobry D, Pardieu B, Petit A, Puissant A, Chaumeil J, Mercher T, and Lobry C

Abstract

Super Enhancers (SEs) are clusters of regulatory elements associated with cell identity and disease. However, whether these elements are induced by oncogenes and can regulate gene modules cooperating for cancer cell transformation or maintenance remains elusive. To address this question, we conducted a genome-wide CRISPRi-based screening of SEs in ETO2-GLIS2 + acute megakaryoblastic leukemia. This approach revealed SEs essential for leukemic cell growth and survival that are induced by ETO2-GLIS2 expression. In particular, we identified a de novo SE specific of this leukemia subtype and regulating expression of tyrosine kinase-associated receptors KIT and PDGFRA . Combined expression of these two receptors was required for leukemic cell growth, and CRISPRi-mediated inhibition of this SE or treatment with tyrosine kinase inhibitors impaired progression of leukemia in vivo in patient-derived xenografts experiments. Our results show that fusion oncogenes, such as ETO2-GLIS2, can induce activation of SEs regulating essential gene modules synergizing for leukemia progression.

Published
2022
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21. Human Aortic Valve Interstitial Cells Display Proangiogenic Properties During Calcific Aortic Valve Disease.

Author

Gendron N, Rosa M, Blandinieres A, Sottejeau Y, Rossi E, Van Belle E, Idelcadi S, Lecourt S, Vincentelli A, Cras A, Jashari R, Chocron R, Baudouin Y, Pamart T, Bièche I, Nevo N, Cholley B, Rancic J, Staels B, Gaussem P, Dupont A, Carpentier A, Susen S, and Smadja DM

Subjects
Adult, Aged, Aged, 80 and over, Animals, Aortic Valve Stenosis pathology, Calcinosis pathology, Case-Control Studies, Cells, Cultured, Coculture Techniques, Endothelial Progenitor Cells pathology, Endothelial Progenitor Cells transplantation, Female, Humans, Male, Mice, Nude, Middle Aged, Osteogenesis, Paracrine Communication, Phenotype, Signal Transduction, Vascular Endothelial Growth Factor A genetics, Mice, Aortic Valve metabolism, Aortic Valve pathology, Aortic Valve Stenosis metabolism, Calcinosis metabolism, Cell Differentiation, Cell Lineage, Endothelial Progenitor Cells metabolism, Neovascularization, Pathologic, Vascular Endothelial Growth Factor A metabolism
Abstract

Objective: The study's aim was to analyze the capacity of human valve interstitial cells (VICs) to participate in aortic valve angiogenesis. Approach and Results: VICs were isolated from human aortic valves obtained after surgery for calcific aortic valve disease and from normal aortic valves unsuitable for grafting (control VICs). We examined VIC in vitro and in vivo potential to differentiate in endothelial and perivascular lineages. VIC paracrine effect was also examined on human endothelial colony-forming cells. A pathological VIC (VIC p ) mesenchymal-like phenotype was confirmed by CD90 + /CD73 + /CD44 + expression and multipotent-like differentiation ability. When VIC p were cocultured with endothelial colony-forming cells, they formed microvessels by differentiating into perivascular cells both in vivo and in vitro. VIC p and control VIC conditioned media were compared using serial ELISA regarding quantification of endothelial and angiogenic factors. Higher expression of VEGF (vascular endothelial growth factor)-A was observed at the protein level in VIC p -conditioned media and confirmed at the mRNA level in VIC p compared with control VIC. Conditioned media from VIC p induced in vitro a significant increase in endothelial colony-forming cell proliferation, migration, and sprouting compared with conditioned media from control VIC. These effects were inhibited by blocking VEGF-A with blocking antibody or siRNA approach, confirming VIC p involvement in angiogenesis by a VEGF-A dependent mechanism., Conclusions: We provide here the first proof of an angiogenic potential of human VICs isolated from patients with calcific aortic valve disease. These results point to a novel function of VIC p in valve vascularization during calcific aortic valve disease, with a perivascular differentiation ability and a VEGF-A paracrine effect. Targeting perivascular differentiation and VEGF-A to slow calcific aortic valve disease progression warrants further investigation.

Published
2021
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22. Valproic Acid Decreases Endothelial Colony Forming Cells Differentiation and Induces Endothelial-to-Mesenchymal Transition-like Process.

Author

Nevo N, Lecourt S, Bièche I, Kucia M, Cras A, Blandinieres A, Vacher S, Gendron N, Guerin CL, Ratajczak MZ, and Smadja DM

Subjects
Animals, Cell Movement drug effects, Cell Proliferation drug effects, Endothelial Progenitor Cells drug effects, Humans, Male, Mice, Nude, Neovascularization, Physiologic drug effects, Phenotype, Cell Differentiation drug effects, Endothelial Progenitor Cells cytology, Mesoderm cytology, Valproic Acid pharmacology
Abstract

Valproic acid (VPA), a histone deacetylase (HDAC) inhibitor is a widely used anticonvulsant drug. VPA is also under clinical evaluation to be employed in anticancer therapy, as an antithrombotic agent or a molecule to be used in the stem cells expansion protocols. Since endothelial colony forming cells (ECFC) has been identified as the human postnatal vasculogenic cells involved in thrombotic disorders and serve as a promising source of immature cell for vascular repair, objectives of the present study were to determine how VPA contributes to ECFC commitment and their angiogenic properties. We examined the effect of VPA on ECFC obtained from cord blood by evaluating colony number, proliferation, migration and their sprouting ability in vitro, as well as their in vivo vasculogenic properties. VPA inhibited endothelial differentiation potential from of cord blood derived stem cells associated with decreased proliferation and sprouting activity of cultured ECFC. VPA treatment significantly decreased the vessel-forming ability of ECFC transplanted together with mesenchymal stem cells (MSC) in Matrigel implants in nude mice model. Surprisingly, a microscopic evaluation revealed that VPA induces marked morphological changes from a cobblestone-like EC morphology to enlarged spindle shaped morphology of ECFC. RT-qPCR and a CD31/CD90 flow cytometry analysis confirmed a phenotypic switch of VPA-treated ECFC to mesenchymal-like phenotype. In conclusion, the pan-HDAC inhibitor VPA described for expansion of hematopoietic stem cells and very small embryonic like stem cells cannot be successfully employed for differentiation of endothelial lineage committed ECFC into functional endothelial cells. Our data also suggest that VPA based therapeutics may induce endothelial dysfunction associated with fibrosis that might induce thrombosis recurrence or venous insufficiency.

Published
2020
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23. Interleukin-8 release by endothelial colony-forming cells isolated from idiopathic pulmonary fibrosis patients might contribute to their pathogenicity.

Author

Blandinières A, Gendron N, Bacha N, Bièche I, Chocron R, Nunes H, Nevo N, Rossi E, Crestani B, Lecourt S, Chevret S, Lokajczyk A, Mignon V, Kisaoglu A, Juvin K, Bertil S, Valeyre D, Cras A, Gaussem P, Israël-Biet D, and Smadja DM

Subjects
Adult, Cells, Cultured, Cohort Studies, Endothelial Cells physiology, Follow-Up Studies, France, Humans, Idiopathic Pulmonary Fibrosis metabolism, Phenotype, Primary Cell Culture, Stem Cells physiology, Endothelial Cells metabolism, Endothelial Cells pathology, Idiopathic Pulmonary Fibrosis etiology, Idiopathic Pulmonary Fibrosis pathology, Interleukin-8 metabolism, Stem Cells metabolism, Stem Cells pathology
Abstract

Introduction: Idiopathic pulmonary fibrosis (IPF) is a devastating disease characterized by obliteration of alveolar architecture, resulting in declining lung function and ultimately death. Pathogenic mechanisms involve a concomitant accumulation of scar tissue together with myofibroblasts activation and a strong abnormal vascular remodeling. Endothelial progenitor cells (ECFC subtype) have been investigated in several human lung diseases as a potential actor in IPF. We previously demonstrated that ECFCs are down-regulated in IPF in contrast to healthy controls. We postulated here that ECFCs might behave as a liquid biopsy in IPF patients and that they exert modified vasculogenic properties., Methods and Results: ECFCs isolated from controls and IPF patients expressed markers of the endothelial lineage and did not differ concerning adhesion, migration, and differentiation in vitro and in vivo. However, senescent and apoptotic states were increased in ECFCs from IPF patients as shown by galactosidase staining, p16 expression, and annexin-V staining. Furthermore, conditioned medium of IPF-ECFCs had increased level of interleukin-8 that induced migration of neutrophils in vitro and in vivo. In addition, an infiltration by neutrophils was shown in IPF lung biopsies and we found in a prospective clinical study that a high level of neutrophils in peripheral blood of IPF patients was associated to a poor prognosis., Conclusion: To conclude, our study shows that IPF patients have a senescent ECFC phenotype associated with an increased IL-8 secretion potential that might contribute to lung neutrophils invasion during IPF.

Published
2019
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24. Endothelial Microparticles are Associated to Pathogenesis of Idiopathic Pulmonary Fibrosis.

Author

Bacha NC, Blandinieres A, Rossi E, Gendron N, Nevo N, Lecourt S, Guerin CL, Renard JM, Gaussem P, Angles-Cano E, Boulanger CM, Israel-Biet D, and Smadja DM

Subjects
Aged, Aged, 80 and over, Cell Differentiation physiology, Cells, Cultured, Collagen metabolism, Female, Fibroblasts cytology, Fibroblasts metabolism, Flow Cytometry, Healthy Volunteers, Humans, Lung cytology, Male, Middle Aged, Myofibroblasts metabolism, Myofibroblasts pathology, Urokinase-Type Plasminogen Activator metabolism, Cell-Derived Microparticles metabolism, Cell-Derived Microparticles pathology, Endothelial Progenitor Cells metabolism, Endothelial Progenitor Cells pathology, Idiopathic Pulmonary Fibrosis metabolism, Idiopathic Pulmonary Fibrosis pathology
Abstract

Idiopathic pulmonary fibrosis (IPF) is a devastating disease characterized by obliteration of alveolar architecture, resulting in declining lung function and ultimately death. Pathogenic mechanisms remain unclear but involve a concomitant accumulation of scar tissue together with myofibroblasts activation. Microparticles (MPs) have been investigated in several human lung diseases as possible pathogenic elements, prognosis markers and therapeutic targets. We postulated that levels and cellular origins of circulating MPs might serve as biomarkers in IPF patients and/or as active players of fibrogenesis. Flow cytometry analysis showed a higher level of Annexin-V positive endothelial and platelet MPs in 41 IPF patients compared to 22 healthy volunteers. Moreover, in IPF patients with a low diffusing capacity of the lung for carbon monoxide (DL CO <40%), endothelial MPs (EMPs) were found significantly higher compared to those with DL CO >40% (p = 0.02). We then used EMPs isolated from endothelial progenitor cells (ECFCs) extracted from IPF patients or controls to modulate normal human lung fibroblast (NHLF) properties. We showed that EMPs did not modify proliferation, collagen deposition and myofibroblast transdifferentiation. However, EMPs from IPF patients stimulated migration capacity of NHLF. We hypothesized that this effect could result from EMPs fibrinolytic properties and found indeed higher plasminogen activation potential in total circulating MPs and ECFCs derived MPs issued from IPF patients compared to those isolated from healthy controls MPs. Our study showed that IPF is associated with an increased level of EMPs in the most severe patients, highlighting an active process of endothelial activation in the latter. Endothelial microparticles might contribute to the lung fibroblast invasion mediated, at least in part, by a fibrinolytic activity.

Published
2018
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25. Egfl7 Represses the Vasculogenic Potential of Human Endothelial Progenitor Cells.

Author

d'Audigier C, Susen S, Blandinieres A, Mattot V, Saubamea B, Rossi E, Nevo N, Lecourt S, Guerin CL, Dizier B, Gendron N, Caetano B, Gaussem P, Soncin F, and Smadja DM

Subjects
Cell Differentiation physiology, Cell Movement genetics, Cell Movement physiology, Cells, Cultured, Endothelial Growth Factors genetics, Endothelial Progenitor Cells metabolism, Humans, MicroRNAs genetics, MicroRNAs metabolism, Neovascularization, Physiologic physiology, RNA Interference, Endothelial Growth Factors metabolism, Endothelial Progenitor Cells cytology
Abstract

Egfl7 (VE-statin) is a secreted protein mostly specific to the endothelial lineage during development and in the adult and which expression is enhanced during angiogenesis. Egfl7 involvement in human postnatal vasculogenesis remains unresolved yet. Our aim was to assess Egfl7 expression in several angiogenic cell types originating from human bone marrow, peripheral blood, or cord blood. We found that only endothelial colony forming cells (ECFC), which are currently considered as the genuine endothelial precursor cells, expressed large amounts of Egfl7. In order to assess its potential roles in ECFC, Egfl7 was repressed in ECFC by RNA interference and ECFC angiogenic capacities were tested in vitro and in vivo. Cell proliferation, differentiation, and migration were significantly improved when Egfl7 was repressed in ECFC in vitro, whereas miR-126-3p levels remained unchanged. In vivo, repression of Egfl7 in ECFC significantly improved post-ischemic revascularization in a model of mouse hind-limb ischemia. In conclusion, ECFC are the sole postnatal angiogenic cells which express large amounts of Egfl7 and whose angiogenic properties are repressed by this factor. Thus, Egfl7 inhibition may be considered as a therapeutic option to improve ECFC-mediated postnatal vasculogenesis and to optimize in vitro ECFC expansion in order to develop an optimized cell therapy approach.

Published
2018
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26. IGF-1 contributes to the expansion of melanoma-initiating cells through an epithelial-mesenchymal transition process.

Author

Le Coz V, Zhu C, Devocelle A, Vazquez A, Boucheix C, Azzi S, Gallerne C, Eid P, Lecourt S, and Giron-Michel J

Subjects
Animals, Antineoplastic Agents pharmacology, Biomarkers, Tumor genetics, Cell Line, Tumor, Cell Movement, Drug Resistance, Neoplasm, Female, Insulin-Like Growth Factor I genetics, Lung Neoplasms metabolism, Lung Neoplasms prevention & control, Lung Neoplasms secondary, Melanoma, Experimental drug therapy, Melanoma, Experimental genetics, Melanoma, Experimental secondary, Mice, Inbred C57BL, Mitoxantrone pharmacology, Neoplasm Invasiveness, Neoplastic Stem Cells pathology, Neoplastic Stem Cells radiation effects, Signal Transduction, Skin Neoplasms drug therapy, Skin Neoplasms genetics, Skin Neoplasms pathology, Time Factors, Transfection, Tumor Microenvironment, Biomarkers, Tumor metabolism, Cell Proliferation, Epithelial-Mesenchymal Transition drug effects, Insulin-Like Growth Factor I metabolism, Melanoma, Experimental metabolism, Neoplastic Stem Cells metabolism, Skin Neoplasms metabolism
Abstract

Melanoma is a particularly virulent human cancer, due to its resistance to conventional treatments and high frequency of metastasis. Melanomas contain a fraction of cells, the melanoma-initiating cells (MICs), responsible for tumor propagation and relapse. Identification of the molecular pathways supporting MICs is, therefore, vital for the development of targeted treatments. One factor produced by melanoma cells and their microenvironment, insulin-like growth factor-1 (IGF- 1), is linked to epithelial-mesenchymal transition (EMT) and stemness features in several cancers.We evaluated the effect of IGF-1 on the phenotype and chemoresistance of B16-F10 cells. IGF-1 inhibition in these cells prevented malignant cell proliferation, migration and invasion, and lung colony formation in immunodeficient mice. IGF-1 downregulation also markedly inhibited EMT, with low levels of ZEB1 and mesenchymal markers (N-cadherin, CD44, CD29, CD105) associated with high levels of E-cadherin and MITF, the major regulator of melanocyte differentiation. IGF-1 inhibition greatly reduced stemness features, including the expression of key stem markers (SOX2, Oct-3/4, CD24 and CD133), and the functional characteristics of MICs (melanosphere formation, aldehyde dehydrogenase activity, side population). These features were associated with a high degree of sensitivity to mitoxantrone treatment.In this study, we deciphered new connections between IGF-1 and stemness features and identified IGF-1 as instrumental for maintaining the MIC phenotype. The IGF1/IGF1-R nexus could be targeted for the development of more efficient anti-melanoma treatments. Blocking the IGF-1 pathway would improve the immune response, decrease the metastatic potential of tumor cells and sensitize melanoma cells to conventional treatments.

Published
2016
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27. [Not Available].

Author

Ye F, Lecourt S, Vernochet A, and Durrbach A

Subjects
Humans, Immunomodulation physiology, Mesenchymal Stem Cell Transplantation methods, Transplantation Conditioning methods, Graft Rejection prevention & control, Mesenchymal Stem Cells physiology, Organ Transplantation methods
Abstract

In solid organ transplant, immunosuppressive therapy helped to increase graft and patient survival. However, these treatments are associated with toxic risks and infectious or tumor complications. The identification of immunoregulatory properties of regulatory cells and in particular Mesenchymal Stem Cells opens new therapeutic perspectives in the prevention of acute rejection and for the treatment of chronic rejection. In this review we will describe immunoregulatory properties of these cells and their potential use in solid organ transplantation.

Published
2015

28. Human bone marrow mesenchymal stem cells regulate biased DNA segregation in response to cell adhesion asymmetry.

Author

Freida D, Lecourt S, Cras A, Vanneaux V, Letort G, Gidrol X, Guyon L, Larghero J, and Thery M

Subjects
Bone Marrow Cells cytology, Bone Marrow Cells metabolism, Cell Adhesion genetics, Cell Differentiation physiology, Cell Division genetics, Cell Division physiology, Chromatids genetics, DNA genetics, Fibroblasts cytology, Fibroblasts metabolism, Fibronectins genetics, Fibronectins metabolism, Humans, Mesenchymal Stem Cells metabolism, Metaphase genetics, Bone Marrow Cells physiology, Cell Adhesion physiology, Chromosome Segregation, DNA metabolism, Mesenchymal Stem Cells physiology
Abstract

Biased DNA segregation is a mitotic event in which the chromatids carrying the original template DNA strands and those carrying the template copies are not segregated randomly into the two daughter cells. Biased segregation has been observed in several cell types, but not in human mesenchymal stem cells (hMSCs), and the factors affecting this bias have yet to be identified. Here, we have investigated cell adhesion geometries as a potential parameter by plating hMSCs from healthy donors on fibronectin-coated micropatterns. On symmetric micropatterns, the segregation of sister chromatids to the daughter cells appeared random. In contrast, on asymmetric micropatterns, the segregation was biased. This sensitivity to asymmetric extracellular cues was reproducible in cells from all donors but was not observed in human skin-derived fibroblasts or in a fibroblastic cell line used as controls. We conclude that the asymmetry of cell adhesion is a major factor in the regulation of biased DNA segregation in hMSCs., (Copyright © 2013 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2013
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29. In vitro development and characterization of a tissue-engineered conduit resembling esophageal wall using human and pig skeletal myoblast, oral epithelial cells, and biologic scaffolds.

Author

Poghosyan T, Gaujoux S, Vanneaux V, Bruneval P, Domet T, Lecourt S, Jarraya M, Sfeir R, Larghero J, and Cattan P

Subjects
Animals, Cells, Cultured, Humans, Swine, Tissue Scaffolds, Epithelial Cells cytology, Esophagus cytology, Myoblasts cytology, Tissue Engineering methods
Abstract

Introduction: Tissue engineering represents a promising approach for esophageal replacement, considering the complexity and drawbacks of conventional techniques., Aim: To create the components necessary to reconstruct in vitro or in vivo an esophageal wall, we analyzed the feasibility and the optimal conditions of human and pig skeletal myoblast (HSM and PSM) and porcine oral epithelial cell (OEC) culture on biologic scaffolds., Materials and Methods: PSM and HSM were isolated from striated muscle and porcine OECs were extracted from oral mucosa biopsies. Myoblasts were seeded on an acellular scaffold issue from porcine small intestinal submucosa (SIS) and OEC on decellularized human amniotic membrane (HAM). Seeding conditions (cell concentrations [0.5×10(6) versus 10(6) cells/cm(2)] and culture periods [7, 14 and 21 days]), were analyzed using the methyl thiazoltetrazolium assay, quantitative PCR, flow cytometry, and immunohistochemistry., Results: Phenotypic stability was observed after cellular expansion for PSM and HSM (85% and 97% CD56-positive cells, respectively), and OECs (90% AE1/AE3- positive cells). After PSM and HSM seeding, quantities of viable cells were similar whatever the initial cell concentration used and remained stable at all time points. During cell culture on SIS, a decrease of CD56-positive cells was observed (76% and 76% by D7, 56% and 70% by D14, 28% and 60% by D21, for PSM and HSM, respectively). Multilayered surface of α-actin smooth muscle and Desmine-positive cells organized in bundles was seen as soon as D7, with no evidence of cell within the SIS. Myoblasts fusion was observed at D21. Pax3 and Pax7 expression was downregulated and MyoD expression upregulated, at D14.OEC proliferation was observed on HAM with both cell concentrations from D7 to D21. The cell metabolism activity was more important on matrix seeded by 10(6) cells/cm(2). With 0.5×10(6) OEC/cm(2), a single layer of pancytokeratin-positive cells was seen at D7, which became pluristratified by D14, while when 10(6) OEC/cm(2) were used, a pluristratified epithelial structure was seen as soon as D7. Proliferative cells (Proliferating Cell Nuclear Antigen staining) were mainly located at the basal layer., Conclusion: In this model, the optimal conditions of cell seeding in terms of cell concentration and culture duration were 0.5×10(6) myoblasts/cm(2) and 10(6) OEC/cm(2), and 7 days.

Published
2013
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30. Toll-like receptor 3 regulates cord blood-derived endothelial cell function in vitro and in vivo.

Author

Grelier A, Cras A, Balitrand N, Delmau C, Lecourt S, Lepelletier Y, Riesterer H, Freida D, Lataillade JJ, Lebousse-Kerdiles MC, Cuccini W, Peffault de Latour R, Marolleau JP, Uzan G, Larghero J, and Vanneaux V

Subjects
Animals, Cell Cycle, Cell Division, Cell Movement, Cells, Cultured, Cytokines biosynthesis, Cytokines genetics, Endothelial Cells cytology, Endothelium, Vascular physiology, Female, Fetal Blood cytology, Gene Expression Regulation physiology, Hindlimb blood supply, Humans, Infant, Newborn, Ischemia surgery, Ligands, Lipoproteins, LDL metabolism, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells cytology, Mice, Mice, Inbred NOD, Mice, SCID, MicroRNAs antagonists & inhibitors, MicroRNAs biosynthesis, MicroRNAs genetics, Oligonucleotides pharmacology, Poly I-C pharmacology, Real-Time Polymerase Chain Reaction, Toll-Like Receptor 3 agonists, Toll-Like Receptor 3 biosynthesis, Toll-Like Receptors agonists, Toll-Like Receptors biosynthesis, Toll-Like Receptors genetics, Tumor Necrosis Factor-alpha pharmacology, Wound Healing, Endothelial Cells metabolism, Mesenchymal Stem Cells physiology, Neovascularization, Physiologic physiology, Toll-Like Receptor 3 physiology
Abstract

Circulating endothelial progenitor cells (cEPC) are capable of homing to neovascularisation sites, in which they proliferate and differentiate into endothelial cells. Transplantation of cEPC-derived cells, in particular those isolated from umbilical cord blood (UCB), has emerged as a promising approach in the treatment of cardio-vascular diseases. After in vivo transplantation, these cells may be exposed to local or systemic inflammation or pathogens, of which they are a common target. Because Toll-like receptors (TLR) are critical in detecting pathogens and in initiating inflammatory responses, we hypothesized that TLR may govern UCB cEPC-derived cells function. While these cells expressed almost all TLR, we found that only TLR3 dramatically impaired cell properties. TLR3 activation inhibited cell proliferation, modified cell cycle entry, impaired the in vitro angiogenic properties and induced pro-inflammatory cytokines production. The anti-angiogenic effect of TLR3 activation was confirmed in vivo in a hind-limb ischemic mice model. Moreover, TLR3 activation consistently leads to an upregulation of miR-29b, -146a and -155 and to a deregulation of cytoskeleton and cell cycle regulator. Hence, TLR3 activation is likely to be a key regulator of cEPC-derived cells properties.

Published
2013
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31. A prospective study of bone marrow hematopoietic and mesenchymal stem cells in type 1 Gaucher disease patients.

Author

Lecourt S, Mouly E, Freida D, Cras A, Ceccaldi R, Heraoui D, Chomienne C, Marolleau JP, Arnulf B, Porcher R, Caillaud C, Vanneaux V, Belmatoug N, and Larghero J

Subjects
Adult, Aged, Animals, Bone Marrow Cells enzymology, Case-Control Studies, Cell Differentiation, Cell Proliferation, Cellular Microenvironment, Female, Gaucher Disease enzymology, Hematopoietic Stem Cells enzymology, Humans, Male, Mesenchymal Stem Cells enzymology, Mice, Middle Aged, Prospective Studies, Bone Marrow Cells pathology, Gaucher Disease pathology, Glucosylceramidase deficiency, Hematopoietic Stem Cells pathology, Mesenchymal Stem Cells pathology, Osteoblasts pathology, Osteoclasts pathology
Abstract

Gaucher disease (GD) is an autosomal recessive disorder characterized by lysosomal glucocerebrosidase (GBA) deficiency leading to hematological and skeletal manifestations. Mechanisms underlying these symptoms have not yet been elucidated. In vivo, bone marrow (BM) mesenchymal stem cells (MSCs) have important role in the regulation of bone mass and in the support of hematopoiesis, thus representing potential candidate that could contribute to the disease. GBA deficiency may also directly impair hematopoietic stem/progenitors cells (HSPCs) intrinsic function and induce hematological defect. In order to evaluate the role of BM stem cells in GD pathophysiology, we prospectively analyzed BM-MSCs and HSPCs properties in a series of 10 patients with type 1 GD. GBA activity was decreased in all tested cell subtypes. GD-MSCs had an impaired growth potential, morphological and cell cycle abnormalities, decreased capacities to differentiate into osteoblasts. Moreover, GD-MSCs secreted soluble factors that stimulated osteoclasts resorbing activities. In vitro and in vivo primitive and mature hematopoiesis were similar between patients and controls. However, GD-MSCs had a lower hematopoietic supportive capacity than those from healthy donors. These data suggest that BM microenvironment is altered in GD and that MSCs are key components of the manifestations observed in GD.

Published
2013
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32. Expression of transforming growth factor β receptor II in mesenchymal stem cells from systemic sclerosis patients.

Author

Vanneaux V, Farge-Bancel D, Lecourt S, Baraut J, Cras A, Jean-Louis F, Brun C, Verrecchia F, Larghero J, and Michel L

Abstract

Objectives: The present work aimed to evaluate the expression of transforming growth factor-β (TGF-β) receptors on bone marrow-derived multipotent mesenchymal stromal cells (MSCs) in patients with systemic sclerosis (SSc) and the consequences of TGF-β activation in these cells, since MSC have potential therapeutic interest for SSc patients and knowing that TGF-β plays a critical role during the development of fibrosis in SSc., Design: This is a prospective research study using MSC samples obtained from SSc patients and compared with MSC from healthy donors., Setting: One medical hospital involving collaboration between an internal medicine department for initial patient recruitment, a clinical biotherapeutic unit for MSC preparation and an academic laboratory for research., Participants: 9 patients with diffuse SSc for which bone marrow (BM) aspiration was prescribed by sternum aspiration before haematopoietic stem cell transplantation, versus nine healthy donors for normal BM., Primary and Secondary Outcome Measures: TGF-β, TGF-β receptor types I (TBRI) and II (TBRII) mRNA and protein expression were assessed by quantitative PCR and flow cytometry, respectively, in MSC from both SSc patients and healthy donors. MSC were exposed to TGF-β and assessed for collagen 1α2 synthesis and Smad expression. As positive controls, primary cultures of dermal fibroblasts were also analysed., Results: Compared with nine controls, MSC from nine SSc patients showed significant increase in mRNA levels (p<0.002) and in membrane expression (p<0.0001) of TBRII. In response to TGF-β activation, a significant increase in collagen 1α synthesis (p<0.05) and Smad-3 phosphorylation was upregulated in SSc MSC. Similar results were obtained on eight SSc-derived dermal fibroblasts compared to six healthy controls., Conclusions: TBRII gene and protein expression defect in MSC derived from SSc patients may have pathological significance. These findings should be taken into account when considering the use of MSC-based therapies in an autologous setting.

Published
2013
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33. Bone marrow microenvironment in an in vitro model of Gaucher disease: consequences of glucocerebrosidase deficiency.

Author

Lecourt S, Vanneaux V, Cras A, Freida D, Heraoui D, Herbi L, Caillaud C, Chomienne C, Marolleau JP, Belmatoug N, and Larghero J

Subjects
Bone Resorption pathology, Cell Cycle, Cell Differentiation, Cell Movement, Cell Proliferation, Cells, Cultured, Cellular Microenvironment, Culture Media, Conditioned, Gaucher Disease chemically induced, Gaucher Disease enzymology, Humans, Inositol analogs & derivatives, Mesenchymal Stem Cells drug effects, Mesenchymal Stem Cells enzymology, Models, Biological, Osteoblasts enzymology, Osteoclasts drug effects, Bone Marrow enzymology, Gaucher Disease pathology, Glucosylceramidase deficiency, Mesenchymal Stem Cells cytology, Osteoblasts pathology, Osteoclasts pathology
Abstract

Gaucher disease (GD) is a lysosomal storage disorder due to glucocerebrosidase (GBA) deficiency. Mechanisms leading to the emergence of hematological and skeletal manifestations observed in GD are poorly explained. Bone marrow (BM) mesenchymal stem cells (MSCs) are multipotent progenitors that participate in the regulation of bone mass. MSCs should thus represent a cell population involved in the development or progression of bone disease in GD. In a chemical model of GD obtained with Conduritol β epoxide (CBE), a specific inhibitor of GBA activity, we functionally characterized BM MSCs and specifically analyzed their capacity to differentiate into osteoblasts. GBA deficiency obtained with CBE treatment, leads to a dramatic impairment of MSCs proliferation and to morphological abnormalities. Although the capacity of MSCs to differentiate into osteoblasts was not modified, the levels of several soluble factors that regulate bone metabolism were increased in MSCs treated with CBE, compared with untreated MSCs. Moreover, addition of conditioned media from CBE-treated MSCs on monocyte-derived osteoclasts cultured on bone matrix leads to an increase of resorption areas. These data suggested that, in GD, MSCs represents a stem cell population that is likely to be involved in bone pathogenesis.

Published
2012
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34. Human Muscle Progenitor Cells Displayed Immunosuppressive Effect through Galectin-1 and Semaphorin-3A.

Author

Lecourt S, Lepelletier Y, Vanneaux V, Jarray R, Domet T, Raynaud F, Hadj-Slimane R, Cras A, Hermine O, Marolleau JP, and Larghero J

Abstract

In human skeletal muscle, myoblasts represent the main population of myogenic progenitors. We previously showed that, beside their myogenic differentiation capacities, myoblasts also differentiate towards osteogenic and chondrogenic lineages, some properties generally considered being hallmarks of mesenchymal stem cells (MSCs). MSCs are also characterized by their immunosuppressive potential, through cell-cell contacts and soluble factors, including prostaglandin E-2 (PGE-2), transforming growth factor-β1 (TGF-β1), interleukine-10, or indoleamine 2,3-dioxygenase. We and others also reported that Galectin-1 (Gal-1) and Semaphorin-3A (Sema-3A) were involved in MSCs-mediated immunosuppression. Here, we show that human myoblasts induce a significant and dose-dependant proliferation inhibition, independently of PGE-2 and TGF-β1. Our experiments revealed that myoblasts, in culture or in situ in human muscles, expressed and secreted Gal-1 and Sema-3A. Furthermore, myoblasts immunosuppressive functions were reverted by using blocking antibodies against Gal-1 or Sema-3A. Together, these results demonstrate an unsuspected immunosuppressive effect of myoblasts that may open new therapeutic perspectives.

Published
2012
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35. "To surrender himself, in perfectly liberal inquiry": Walter Pater, many-sidedness, and the conversion novel.

Author

Lecourt S

Subjects
Anthropology education, Anthropology history, History, 19th Century, Observation, Personal Autonomy, Politics, Publications history, Social Behavior history, Social Conditions history, United Kingdom ethnology, Ethnology education, Ethnology history, Individuality, Religion history, Social Values ethnology, Social Values history, Symbolism
Abstract

This essay uses Walter Pater's "Marius the Epicurean" (1885) to explore why certain Victorian liberals preferred to see religion as a matter of collective inheritance rather than personal belief. Recent commentators have portrayed the Protestant emphasis on individual conversion as one of the foundations of liberal individualism. Pater's liberalism, however, sees radical breakage with the past as a threat to the humanist ideal of many-sidedness and instead imagines the path of a rich individuality as running precisely through a surrender to the inscriptions of cultural heritage. Indeed, Pater virtually transforms the idea of self-culture into that of ethnographic culture, with the detached aesthete becoming a participant-observer who can both submit to the determinations of history and reflect on them through an anthropological lens.

Published
2011
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36. Characterization of distinct mesenchymal-like cell populations from human skeletal muscle in situ and in vitro.

Author

Lecourt S, Marolleau JP, Fromigué O, Vauchez K, Andriamanalijaona R, Ternaux B, Lacassagne MN, Robert I, Boumédiene K, Chéreau F, Marie P, Larghéro J, Fiszman M, and Vilquin JT

Subjects
Biomarkers analysis, Biomarkers metabolism, Cell Culture Techniques, Cell Differentiation physiology, Cell Lineage physiology, Cell Separation methods, Cells, Cultured, Clone Cells, Gene Expression, Humans, Immunophenotyping, In Situ Hybridization, Fluorescence, Magnetics, Mesenchymal Stem Cells immunology, Mesenchymal Stem Cells metabolism, Mesenchymal Stem Cells physiology, Microspheres, Muscle, Skeletal immunology, Muscle, Skeletal metabolism, Muscle, Skeletal physiology, Mesenchymal Stem Cells cytology, Muscle, Skeletal cytology
Abstract

Human skeletal muscle is an essential source of various cellular progenitors with potential therapeutic perspectives. We first used extracellular markers to identify in situ the main cell types located in a satellite position or in the endomysium of the skeletal muscle. Immunohistology revealed labeling of cells by markers of mesenchymal (CD13, CD29, CD44, CD47, CD49, CD62, CD73, CD90, CD105, CD146, and CD15 in this study), myogenic (CD56), angiogenic (CD31, CD34, CD106, CD146), hematopoietic (CD10, CD15, CD34) lineages. We then analysed cell phenotypes and fates in short- and long-term cultures of dissociated muscle biopsies in a proliferation medium favouring the expansion of myogenic cells. While CD56(+) cells grew rapidly, a population of CD15(+) cells emerged, partly from CD56(+) cells, and became individualized. Both populations expressed mesenchymal markers similar to that harboured by human bone marrow-derived mesenchymal stem cells. In differentiation media, both CD56(+) and CD15(+) cells shared osteogenic and chondrogenic abilities, while CD56(+) cells presented a myogenic capacity and CD15(+) cells presented an adipogenic capacity. An important proportion of cells expressed the CD34 antigen in situ and immediately after muscle dissociation. However, CD34 antigen did not persist in culture and this initial population gave rise to adipogenic cells. These results underline the diversity of human muscle cells, and the shared or restricted commitment abilities of the main lineages under defined conditions., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published
2010
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37. Glucocerebrosidase deficiency dramatically impairs human bone marrow haematopoiesis in an in vitro model of Gaucher disease.

Author

Berger J, Lecourt S, Vanneaux V, Rapatel C, Boisgard S, Caillaud C, Boiret-Dupré N, Chomienne C, Marolleau JP, Larghero J, and Berger MG

Subjects
Bone Marrow Cells enzymology, Cell Proliferation, Cells, Cultured, Colony-Forming Units Assay, Enzyme Inhibitors pharmacology, Flow Cytometry methods, Gaucher Disease physiopathology, Glucosylceramidase antagonists & inhibitors, Glucosylceramidase blood, Hematopoiesis drug effects, Hematopoietic Stem Cells pathology, Humans, Inositol analogs & derivatives, Inositol pharmacology, Models, Biological, Tissue Culture Techniques, Gaucher Disease enzymology, Glucosylceramidase deficiency, Hematopoiesis physiology
Abstract

One of the cardinal symptoms of type 1 Gaucher Disease (GD) is cytopenia, usually explained by bone marrow (BM) infiltration by Gaucher cells and hypersplenism. However, some cases of cytopenia in splenectomized or treated patients suggest possible other mechanisms. To evaluate intra-cellular glucocerebrosidase (GlcC) activity in immature progenitors and to prove the conduritol B epoxide (CBE)-induced inhibition of the enzyme, we used an adapted flow cytometric technique before assessing the direct effect of GlcC deficiency in functional assays. Among haematopoietic cells from healthy donors, monocytes showed the highest GlcC activity but immature CD34(+) and mesenchymal cells also had significant GlcC activity. CBE greatly inhibited the enzyme activity of all cell categories. GlcC-deficient CD34(+) cells showed impaired ability to proliferate and differentiate in the expansion assay and had lower frequency of erythroid burst-forming units, granulocyte colony-forming units (CFU) and macrophage CFU progenitors, but the effect of GlcC deficiency on megakaryocyte CFU lineage was not significant. GlcC deficiency strongly impaired primitive haematopoiesis in long-term culture. Furthermore, GlcC deficiency progressively impaired proliferation of mesenchymal progenitors. These data suggest an intrinsic effect of GlcC deficiency on BM immature cells that supplements the pathophysiology of GD and opens new perspectives of therapeutic approach.

Published
2010
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38. Galectin-1 and semaphorin-3A are two soluble factors conferring T-cell immunosuppression to bone marrow mesenchymal stem cell.

Author

Lepelletier Y, Lecourt S, Renand A, Arnulf B, Vanneaux V, Fermand JP, Menasché P, Domet T, Marolleau JP, Hermine O, and Larghero J

Subjects
Animals, Biomarkers metabolism, Bone Marrow Cells cytology, Cell Proliferation, Humans, Mesenchymal Stem Cells cytology, Bone Marrow Cells immunology, Galectin 1 immunology, Immunosuppression Therapy, Mesenchymal Stem Cells immunology, Semaphorin-3A immunology, T-Lymphocytes immunology
Abstract

In human physiology and animal models, bone marrow mesenchymal stem cells (MSCs) exert an immunosuppressive role in both in vitro and in vivo experiments. However, cellular and molecular mechanisms involved in this process are not clear and remain largely elusive. Several studies have suggested the implication of cell-cell contacts or soluble factors including transforming growth factor-b1 (TGF-b1), interleukin-10 (IL-10), indoleamine 2,3-dioxygenase (IDO), or human leukocyte antigen-G (HLA-G). Here, we show that both Galectin-1 and Semaphorin-3A (Sema-3A), 2 soluble factors capable to inhibit T-cell proliferation through neuropilin-1 (NP-1) binding, are highly expressed by MSCs and may account for their known suppressive activities. Furthermore, MSCs suppressive functions are completely reverted by soluble recombinant NP-1, the main receptor of both Galectin-1 and Sema-3A. Similar results were obtained by using blocking antibodies against Galectin-1 or Sema-3A. Taken together, these results demonstrate the critical role of Galectin-1 and Sema-3A in MSCs functions and may open new perspectives in the understanding and treatment of various immune and neoplastic disorders.

Published
2010
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39. Esophageal replacement by allogenic aorta in a porcine model.

Author

Gaujoux S, Le Balleur Y, Bruneval P, Larghero J, Lecourt S, Domet T, Lambert B, Zohar S, Prat F, and Cattan P

Subjects
Animals, Esophagus pathology, Male, Models, Animal, Stents, Swine, Swine, Miniature, Transplantation, Homologous, Aorta transplantation, Esophagus surgery
Abstract

Background: Esophageal replacement is a challenging problem requiring complex reconstruction. In response to the recent success of tracheal replacement by fresh allogenic aorta in humans, we assessed in a pig model the feasibility of circumferential segmental esophageal replacement by a fresh aortic allograft., Methods: A 4-cm long aortic allograft was interposed after a circumferential 2-cm long resection of the cervical esophagus in 18 minipigs. Anastomoses were protected temporarily by self-expanding polyester-silicone stents (Polyflex; Boston Scientific, Montigny-le-Bretonneux, France). No immunosuppression was given. When stenosis occurred after stent removal or migration, a new stent was inserted. After clinical and endoscopic evaluation, pigs were killed sequentially at 1, 3, 6 and 12 months for analysis., Results: Mortality during the first month was 33%. Four animals died from stent migration during the entire follow-up. Maintenance of a lumen through the graft area by a stent was necessary for 6 months, in order to avoid stenosis occurrence. After the sixth postoperative month, esophageal lumen remained patent until the twelfth month, allowing an apparently normal feeding and weight gain. Gradual contraction of the graft area was observed with time. Sequential histologic analysis showed an inflammatory reaction that decreased with time and a progressive epithelialization of the graft area which became similar to native esophageal epithelium. After 12 months, islets of smooth muscle organized as fascicules or in bundles were visible within the fibrotic tissue., Conclusion: Short esophageal replacement by fresh aortic allograft, under the cover of a temporary maintenance of the lumen of the graft area by an esophageal stent, allows the restitution of a patent esophageal lumen and nutritional autonomy., (Copyright 2010 Mosby, Inc. All rights reserved.)

Published
2010
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40. A polydioxanone electrospun valved patch to replace the right ventricular outflow tract in a growing lamb model.

Author

Kalfa D, Bel A, Chen-Tournoux A, Della Martina A, Rochereau P, Coz C, Bellamy V, Bensalah M, Vanneaux V, Lecourt S, Mousseaux E, Bruneval P, Larghero J, and Menasché P

Subjects
Animals, Bioengineering, Female, Glycosaminoglycans metabolism, Heart Ventricles diagnostic imaging, Heart Ventricles pathology, Immunohistochemistry, Magnetic Resonance Imaging, Models, Animal, Phenotype, Ultrasonography, Heart Valve Prosthesis Implantation, Heart Ventricles drug effects, Heart Ventricles surgery, Polydioxanone pharmacology, Sheep growth & development, Sheep surgery, Tissue Engineering methods
Abstract

A major issue in congenital heart surgery is the lack of viable right ventricular outflow tract (RVOT) replacement materials. Several biomaterials have been used, with different scaffolds and cells, but they have failed to restore a tri-layered RVOT, and reoperations are often required. We investigated the function, histological changes and potential of growth and tissue regeneration of polydioxanone (PDO) electrospun bioabsorbable valved patches seeded with mesenchymal stem cells (MSCs) in the RVOT of growing lambs. Autologous blood-derived MSCs were labeled with quantum dots and seeded on PDO electrospun valved patches. Those were implanted into the RVOT of 6 growing lambs followed up until 8 months. Results were assessed by echocardiography, magnetic resonance imaging (MRI), histology, immunohistochemistry and biochemical assays. Tissue-engineered RVOT were neither stenotic nor aneurismal and displayed a growth potential, with less fibrosis, less calcifications and no thrombus compared with control polytetrafluoroethylene (PTFE)-pericardial patches. The PDO scaffold was completely degraded and replaced by a viable, three-layered, endothelialized tissue and an extracellular matrix with elastic fibers similar to that of native tissue. Detection of quantum dots at 1 month suggested that at least some of the cells were-derived from the grafted cells. A polydioxanone electrospun tissue-engineered valved transannular patch seems to be a promising device in restoring a living RVOT and could ultimately lead to applications in the treatment of congenital RVOT diseases., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published
2010
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41. Bone marrow microenvironment in fanconi anemia: a prospective functional study in a cohort of fanconi anemia patients.

Author

Lecourt S, Vanneaux V, Leblanc T, Leroux G, Ternaux B, Benbunan M, Chomienne C, Baruchel A, Marolleau JP, Gluckman E, Socié G, Soulier J, and Larghero J

Subjects
Adolescent, Adult, Cell Differentiation, Cell Proliferation, Cells, Cultured, Cellular Senescence, Child, Cohort Studies, Fanconi Anemia genetics, Fanconi Anemia metabolism, Fanconi Anemia Complementation Group D2 Protein metabolism, Female, Flow Cytometry, Humans, Immunoblotting, Immunophenotyping, Interleukin-6 metabolism, Male, Mesenchymal Stem Cells metabolism, Stem Cell Factor metabolism, Telomere genetics, Young Adult, Bone Marrow pathology, Fanconi Anemia blood, Mesenchymal Stem Cells pathology
Abstract

Fanconi anemia (FA) is a rare condition due to the genetic inactivation of the FA/BRCA pathway. During childhood, most FA patients display progressive bone marrow failure (BMF), the mechanism of which has not been clarified to date. We analyzed BM mesenchymal stem cells (MSCs) from a series of 20 FA patients with BMF (patient median age 12.5 years old, range 7-34). Expression of FANCD2 and sensitivity to mitomycin C, differentiation capacities, and hematopoiesis-supporting abilities, as well as proliferation, cell senescence, and telomere length were assessed. FA MSCs demonstrated hypersensitivity to mitomycin C compared to control MSCs, as expected for FA cells. FA MSCs had normal immunophenotype, support long-term culture of hematopoietic stem cells (HSCs), and display normal differentiation capacities. Telomere loss during cell aging was similar for FA and control MSCs. However, FA MSCs showed reduced long-term proliferation ability, higher stem cell factor and interleukin-6 levels, and increased expression of senescent-associated beta-galactosidase compared to normal MSCs, suggesting a potential role of the BM microenvironment in long-term BMF.

Published
2010
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42. In vitro and in vivo analysis of endothelial progenitor cells from cryopreserved umbilical cord blood: are we ready for clinical application?

Author

Vanneaux V, El-Ayoubi F, Delmau C, Driancourt C, Lecourt S, Grelier A, Cras A, Cuccuini W, Soulier J, Lataillade JJ, Lebousse-Kerdiles MC, Oury JF, Sibony O, Marolleau JP, Benbunan M, Uzan G, and Larghero J

Subjects
Animals, Cell Growth Processes physiology, Disease Models, Animal, Female, Immunophenotyping, Karyotyping, Mice, Mice, Inbred NOD, Mice, SCID, Microscopy, Phase-Contrast, Cryopreservation, Endothelial Cells cytology, Fetal Blood cytology, Stem Cells cytology
Abstract

Umbilical cord blood (CB) represents a main source of circulating endothelial progenitor cells (cEPCs). In view of their clinical use, in either the autologous or allogeneic setting, cEPCs should likely be expanded from CB kept frozen in CB banks. In this study, we compared the expansion, functional features, senescence pattern over culture, and in vivo angiogenic potential of cEPCs isolated from fresh or cryopreserved CB (cryoCB). cEPCs could be isolated in only 59% of cryoCB compared to 94% for fresh CB, while CB units were matched in terms of initial volume, nucleated and CD34(+) cell number. Moreover, the number of endothelial colony-forming cells was significantly decreased when using cryoCB. Once cEPCs culture was established, the proliferation, migration, tube formation, and acetylated-LDL uptake potentials were similar in both groups. In addition, cEPCs derived from cryoCB displayed the same senescence status and telomeres length as that of cEPCs derived from fresh CB. Karyotypic aberrations were found in cells obtained from both fresh and cryoCB. In vivo, in a hind limb ischemia murine model, cEPCs from fresh and cryoCB were equally efficient to induce neovascularization. Thus, cEPCs isolated from cryoCB exhibited similar properties to those of fresh CB in vitro and in vivo. However, the low frequency of cEPCs colony formation after cryopreservation shed light on the need for specific freezing conditions adapted to cEPCs in view of their future clinical use.

Published
2010
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43. Aldehyde dehydrogenase activity identifies a population of human skeletal muscle cells with high myogenic capacities.

Author

Vauchez K, Marolleau JP, Schmid M, Khattar P, Chapel A, Catelain C, Lecourt S, Larghéro J, Fiszman M, and Vilquin JT

Subjects
Adipogenesis physiology, Cell Differentiation physiology, Cells, Cultured, Flow Cytometry, Humans, Immunohistochemistry, In Vitro Techniques, Phenotype, Aldehyde Dehydrogenase metabolism, Muscle Cells cytology, Muscle Development physiology, Muscle, Skeletal cytology
Abstract

Aldehyde dehydrogenase 1A1 (ALDH) activity is one hallmark of human bone marrow (BM), umbilical cord blood (UCB), and peripheral blood (PB) primitive progenitors presenting high reconstitution capacities in vivo. In this study, we have identified ALDH(+) cells within human skeletal muscles, and have analyzed their phenotypical and functional characteristics. Immunohistofluorescence analysis of human muscle tissue sections revealed rare endomysial cells. Flow cytometry analysis using the fluorescent substrate of ALDH, Aldefluor, identified brightly stained (ALDH(br)) cells with low side scatter (SSC(lo)), in enzymatically dissociated muscle biopsies, thereafter abbreviated as SMALD(+) (for skeletal muscle ALDH(+)) cells. Phenotypical analysis discriminated two sub-populations according to CD34 expression: SMALD(+)/CD34(-) and SMALD(+)/CD34(+) cells. These sub-populations did not initially express endothelial (CD31), hematopoietic (CD45), and myogenic (CD56) markers. Upon sorting, however, whereas SMALD(+)/CD34(+) cells developed in vitro as a heterogeneous population of CD56(-) cells able to differentiate in adipoblasts, the SMALD(+)/CD34(-) fraction developed in vitro as a highly enriched population of CD56(+) myoblasts able to form myotubes. Moreover, only the SMALD(+)/CD34(-) population maintained a strong myogenic potential in vivo upon intramuscular transplantation. Our results suggest that ALDH activity is a novel marker for a population of new human skeletal muscle progenitors presenting a potential for cell biology and cell therapy.

Published
2009
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