Spelling suggestions: "subject:"bond marrow stromal cells""
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Towards the development of vascularized constructs for bone repairChang-Wai-Ling, Nolanne Arlette January 2013 (has links)
The development of a vasculature within a tissue-engineered construct is one of the largest hurdles to successful bone regeneration. This thesis investigates methods to increase vasculature of such transplanted constructs, based on in vivo transplant studies and in vitro analysis of cell behaviors. A syngeneic mouse model in immunocompetent mice was developed and analyzed for both osteogenesis and hematopoiesis. This study demonstrates that syngeneic bone marrow stromal cells (BMSCs) are not rejected by the host, provided the strain of mice is sufficiently inbred. Additionally, an effective protocol was developed for the isolation of endothelial cells (ECs) from the bone marrow of mice. Two different sets of materials for this study were analyzed, both collagen based, and the GelfoamTM scaffold was found to possess advantages over synthesized collagen or collagen/hydroxyapatite composites, although only for mouse and not human bone transplantation. In order to gain rapid and integrated vasculature formation within the transplant, attempts were made to increase both (de novo) vasculogenesis and angiogenesis (ingrowth) from the surrounding tissue. For the former, transplant studies were combined with in vitro osteogenic calcification studies. Direct co-culture of the BMSCs and ECs increased osteogenic calcification and was monitored by using both alizarin red S quantification and quantitative polymerase chain reaction. Angiogenesis (as assessed by cell migration) was studied by various motility and chemotaxis assays in vitro, as well as through use of a directed in vivo angiogenesis assay. Growth factors, particularly TGF-β1 and BMP-4, were found to increase cell movement in these systems. In conclusion, we show that although much work remains to be done in order to increase the vasculature in bone transplants, systematic combination of in vivo and in vitro assays can elucidate the nature behind this crucial process in this context.
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Participação de proteínas tirosina quinase ativada por mitógenos (MAPKs) na indução do fator inibidor de leucemia (LIF) em células estromais da medula óssea de crianças com sindromes mielodisplásicas (SMD) / Participation of protein tyrosine kinase activated by mitógenos (MAPKs) in the induction of the inhibitory factor for leukemia (LIF) stromal cells in the bone marrow of children with Myelodysplastic Syndromes (MDS)Costa, Simone Vieira da 22 September 2008 (has links)
Em nosso trabalho anterior mostramos que dentre as citocinas analisadas, os níveis do mRNA de LIF nas células estromais pediátricas, de SMD e de SMD-LMA foram maiores quando comparados às células estromais de crianças saudáveis. No presente estudo, observamos um aumento tempo dependente nos níveis da proteína LIF após adição de SFB em todas as células analisadas (células estromais de crianças saudáveis, de SMD e de SMD-LMA). O envolvimento de p38, ERK e JNK na expressão LIF nestas células foi determinado pelo uso de inibidores dos membros das proteínas quinase ativadas por mitógenos: ERK (PD98059), p38 (SB302580) e JNK (SP600125) os quais inibiram a produção de LIF nas células estromais de crianças saudáveis, após estas serem estimuladas por SFB. No entanto, os níveis da expressão de LIF-induzido por soro nas células estromais de SMD e de SMD-LMA tratadas com SB302580 (p38) foram significativamente diminuídos, em comparação com a inibição observada no tratamento com PD98059 e SP600125 (p <0001, teste ANOVA). Em adição analisamos as formas fosforiladas de p38 e ERK, após 48hs na ausência ou na presença de soro por diferentes tempos. Níveis de atividade de ERK e do p38 foram inicialmente elevados na ausência de soro. A atividade de p38 foi sustentada após tratamento com SFB, entretanto, ERK apresentou uma variação de atividade durante o tratamento. Sugerimos que a sinalização das MAPKs (p38, ERK e JNK), em resposta a fatores de crescimento presentes no soro, parece desempenhar um papel importante na expressão da LIF em células estromais de crianças saudáveis, mas a sinalização do p38 parece ser funcionalmente mais importante nas mielodisplasias ou naquelas associadas à LMA / Our previous report showed that among the cytokines analysed, LIF mRNA levels in stromal cells from pediatric MDS and MDS-AML were higher as compared to those found in healthy stromal cells. In the present study, we have observed an increased protein LIF levels in a time dependent manner after FCS stimulation in all stromal cells analysed (MDS, MDS-AML and healthy children) and the involvement of p38, ERK and JNK pathways in the LIF expression in these cells was determined. In stromal cells from two healthy children, LIF production was equally inhibited in a dose dependent manner after FCS stimulation by mitogen-activated protein kinase (MAPKs) members inhibitors: ERK (PD98059), p38 (SB302580) and JNK (SP600125). However, in MDS and MDS-AML stromal cells, the levels of LIF-induced by serum, were significantly decreased by SB302580, as compared with the inhibition observed by treatment with PD98059 and SP600125 (p <0,001, ANOVA test). In addition we have analysed the presence of p38 and ERK phosphorylated forms in stromal cells, after 48hs of serum starvation or in the presence of FCS for different times. Activated ERK and p38MAPK levels were initially elevated in the absence of serum. p38MAPK activation was sustained after treatment with FCS, whereas ERK presented a variation of the activated forms during treatment. We suggest that the signalling of the MAPKs (p38, ERK and JNK) in response to growth factors present in the serum, seems to play an important role in the LIF expression by stromal cells of healthy children, but p38 MAPK signalling appears to be functionally more important in MDS and MDS-AML
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Participação de proteínas tirosina quinase ativada por mitógenos (MAPKs) na indução do fator inibidor de leucemia (LIF) em células estromais da medula óssea de crianças com sindromes mielodisplásicas (SMD) / Participation of protein tyrosine kinase activated by mitógenos (MAPKs) in the induction of the inhibitory factor for leukemia (LIF) stromal cells in the bone marrow of children with Myelodysplastic Syndromes (MDS)Simone Vieira da Costa 22 September 2008 (has links)
Em nosso trabalho anterior mostramos que dentre as citocinas analisadas, os níveis do mRNA de LIF nas células estromais pediátricas, de SMD e de SMD-LMA foram maiores quando comparados às células estromais de crianças saudáveis. No presente estudo, observamos um aumento tempo dependente nos níveis da proteína LIF após adição de SFB em todas as células analisadas (células estromais de crianças saudáveis, de SMD e de SMD-LMA). O envolvimento de p38, ERK e JNK na expressão LIF nestas células foi determinado pelo uso de inibidores dos membros das proteínas quinase ativadas por mitógenos: ERK (PD98059), p38 (SB302580) e JNK (SP600125) os quais inibiram a produção de LIF nas células estromais de crianças saudáveis, após estas serem estimuladas por SFB. No entanto, os níveis da expressão de LIF-induzido por soro nas células estromais de SMD e de SMD-LMA tratadas com SB302580 (p38) foram significativamente diminuídos, em comparação com a inibição observada no tratamento com PD98059 e SP600125 (p <0001, teste ANOVA). Em adição analisamos as formas fosforiladas de p38 e ERK, após 48hs na ausência ou na presença de soro por diferentes tempos. Níveis de atividade de ERK e do p38 foram inicialmente elevados na ausência de soro. A atividade de p38 foi sustentada após tratamento com SFB, entretanto, ERK apresentou uma variação de atividade durante o tratamento. Sugerimos que a sinalização das MAPKs (p38, ERK e JNK), em resposta a fatores de crescimento presentes no soro, parece desempenhar um papel importante na expressão da LIF em células estromais de crianças saudáveis, mas a sinalização do p38 parece ser funcionalmente mais importante nas mielodisplasias ou naquelas associadas à LMA / Our previous report showed that among the cytokines analysed, LIF mRNA levels in stromal cells from pediatric MDS and MDS-AML were higher as compared to those found in healthy stromal cells. In the present study, we have observed an increased protein LIF levels in a time dependent manner after FCS stimulation in all stromal cells analysed (MDS, MDS-AML and healthy children) and the involvement of p38, ERK and JNK pathways in the LIF expression in these cells was determined. In stromal cells from two healthy children, LIF production was equally inhibited in a dose dependent manner after FCS stimulation by mitogen-activated protein kinase (MAPKs) members inhibitors: ERK (PD98059), p38 (SB302580) and JNK (SP600125). However, in MDS and MDS-AML stromal cells, the levels of LIF-induced by serum, were significantly decreased by SB302580, as compared with the inhibition observed by treatment with PD98059 and SP600125 (p <0,001, ANOVA test). In addition we have analysed the presence of p38 and ERK phosphorylated forms in stromal cells, after 48hs of serum starvation or in the presence of FCS for different times. Activated ERK and p38MAPK levels were initially elevated in the absence of serum. p38MAPK activation was sustained after treatment with FCS, whereas ERK presented a variation of the activated forms during treatment. We suggest that the signalling of the MAPKs (p38, ERK and JNK) in response to growth factors present in the serum, seems to play an important role in the LIF expression by stromal cells of healthy children, but p38 MAPK signalling appears to be functionally more important in MDS and MDS-AML
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Characterization of bone marrow stromal clonal populations derived from osteoarthritis patientsMareddy, Shobha R. January 2008 (has links)
This work is concerned with the characterization of mesenchymal stem cells (MSC) specifically from bone marrow samples derived from patients with osteoarthritis (OA). The multilineage potential of mesenchymal stem cells as well as their ease of exvivo expansion makes these cells an attractive therapeutic tool for applications such as autologous transplantation and tissue engineering. Bone marrow is considered a source of MSC. However, there is a general assumption that the occurrence of MSCs and their activity in bone marrow diminishes with age and disease. This prompted us to isolate and identify multipotential and self-renewing cells from patients with the degenerative disease osteoarthritis, with the view of using these cells for autologous cell therapies. It is therefore of great potential benefit to investigate the isolation and characterization of stem cell/progenitors from bone marrow samples of patients with osteoarthritis in greater detail. We employed a single cell clone culture method in order to develop clonal cell populations from three bone marrow samples and characterized them based on their proliferation and differentiation capabilities. The clonal populations were grouped into fast-growing and slow-growing clones based on their proliferation rates. The fastgrowing clones displayed 20-30% greater proliferation rate than the slow-growing clones. The study also revealed that the proliferation rates were directly proportional to their differentiation capacities. Most of the fast-growing clones were found to be tripotential for osteogenic, chondrogenic and adipogenic lineages, whereas the slow growing clones were either uni or bipotential. Flow cytometry analysis for the phenotype determination using putative MSC surface markers did not reveal any difference between the two clonal populations indicating a need for further molecular studies. Two approaches were employed to further investigate the molecular processes involved in the existence of such varying populations. In the first method gene expression studies were performed between the fast-growing (n=3) and slow-growing (n=3) clonal populations to identify potential genetic markers associated with cell 'sternness' using the Stem Cell RT2 ProfilerTM PCR Array comprising a series of 84 genes related to stem cell pathways. Ten genes were identified to be commonly and significantly over represented in the fast-growing stem cell clones when compared to slow-growing clones. This included expression of transcripts beyond MSC lineage specification such as SOX2, NOTCH1 and FOXA2 which signified that stem cell maintenance requires a coordinated regulation by multiple signalling pathways. The second study involved an extensive protein expression profiling of the fast growing (n=2) and slow growing (n=2) clonal populations using off-line Two Dimensional Liquid Chromatography (2D-LC)/Matrix-Assisted Laser Desorption/Ionization (MALDI) Mass Spectrometry (MS). A total of 67 proteins were identified, of which 11 were expressed at significantly different levels between the subpopulations. Protein ontology revealed these proteins to be associated with cellular organization, cytokinesis, signal transduction, energy pathways and cell stress response. Of particular interest was the differential presentation of the proteins calmodulin, tropomyosin and caldesmon between fast- and slow-growing clones. Based on their reported roles in the regulation of cell proliferation and maintenance of cell integrity, we draw an association between their expression and the altered status in which the subpopulations exist. Based on our observations, these proteins may be prospective molecular markers to distinguish between the fast-growing and slow-growing subpopulations. In summary, this study demonstrated the existence of potential stem cells of therapeutic importance in spite of a supposedly smaller stem cell compartment in patients with osteoarthritis. Furthermore, the differentially expressed genes between the sub-populations highlight the 'sternness' of the potential clones, an observation supported by the expression of proteins which act as effective modulators in the maintenance of cell integrity and cell cycle regulation. This study provides a basis for more detailed investigations in search of selective cell surface markers
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Étude des effets du phénotype de sénescence des cellules stromales de la moelle osseuse sur les fonctions hématopoïétiquesCarbonneau, Cynthia 12 1900 (has links)
L’irradiation (IR) est utilisée dans le traitement de plusieurs cancers et désordres
hématologiques, en particulier dans les protocoles de conditionnement précédents les
transplantations de moelle osseuse. L’emploi de doses réduites d’IR semble favoriser le
succès de la prise de greffe. Cette observation soulève un point de plus en plus discuté dans la littérature, soit l’importance de l’intégrité du microenvironnement pour la
transplantation et le bon fonctionnement de l’hématopoïèse. L’IR induit la sénescence des
cellules stromales de la moelle osseuse in vitro. Ce mécanisme de défense cellulaire
entraînant un arrêt de prolifération permanent est également observé in vivo dans
différents systèmes, mais n’a pas encore été étudié dans le contexte de la niche
hématopoïétique. Les travaux présentés dans cette thèse ont pour objectif de déterminer si l’IR induit la sénescence des cellules stromales de la moelle osseuse et si une telle induction altère les fonctions hématopoïétiques. Nos résultats ont permis de démontrer pour la première fois qu’une IR corporelle totale induit effectivement la sénescence des cellules stromales de la moelle osseuse. En outre, cette altération du microenvironnement affecte la lymphopoïèse B de façon Ink4a/Arf-dépendante (1er article). De plus, les modifications systémiques qui résultent de l’IR compromettent l’homéostasie osseuse en
augmentant la résorption de l’os, sans toutefois diminuer la formation de celui-ci (2e article). Ces données nous permettent de mieux comprendre les effets de la sénescence
des cellules stromales de la moelle osseuse sur les fonctions hématopoïétiques. Par
ailleurs, elles suggèrent que l’emploi de drogues et/ou de procédés n’induisant pas la
sénescence des cellules stromales de l’os offrirait un meilleur pronostic à long terme pour les patients. / Ionizing radiation (IR) is used in the treatment of several cancers and hematological disorders, especially in conditioning regimens for bone marrow transplantation. Reduced doses of IR seem to favor the success of engraftment. This observation supports the growing evidences suggesting the importance of the microenvironment integrity for the
success of bone marrow transplantation and hematopoiesis maintenance. IR induces
senescence of bone marrow stromal cells in vitro. This defense mechanism which leads to
a permanent cell growth arrest is also observed in different organs in vivo but has not yet been studied in the hematopoietic niche. The objectives of this doctoral thesis are to determine whether IR induces senescence of bone marrow stromal cells and whether such induction alters hematopoietic functions. Our results have demonstrated for the first time that total body IR actually induces the senescence of bone marrow stromal cells. Furthermore, this alteration of the microenvironment affects B lymphopoiesis in an Ink4a/Arf-dependent manner (paper #1). In addition, the systemic changes associated with IR compromise bone homeostasis by increasing bone resorption without reducing bone formation (paper #2). All together, these data enhance our knowledge related to the effects of IR-induced senescent bone marrow stromal cells on hematopoietic function. Moreover, our results suggest that using drugs and/or procedures inducing no senescent bone marrow stromal cells would provide a better long-term prognosis for patients.
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Étude des effets du phénotype de sénescence des cellules stromales de la moelle osseuse sur les fonctions hématopoïétiquesCarbonneau, Cynthia 12 1900 (has links)
L’irradiation (IR) est utilisée dans le traitement de plusieurs cancers et désordres
hématologiques, en particulier dans les protocoles de conditionnement précédents les
transplantations de moelle osseuse. L’emploi de doses réduites d’IR semble favoriser le
succès de la prise de greffe. Cette observation soulève un point de plus en plus discuté dans la littérature, soit l’importance de l’intégrité du microenvironnement pour la
transplantation et le bon fonctionnement de l’hématopoïèse. L’IR induit la sénescence des
cellules stromales de la moelle osseuse in vitro. Ce mécanisme de défense cellulaire
entraînant un arrêt de prolifération permanent est également observé in vivo dans
différents systèmes, mais n’a pas encore été étudié dans le contexte de la niche
hématopoïétique. Les travaux présentés dans cette thèse ont pour objectif de déterminer si l’IR induit la sénescence des cellules stromales de la moelle osseuse et si une telle induction altère les fonctions hématopoïétiques. Nos résultats ont permis de démontrer pour la première fois qu’une IR corporelle totale induit effectivement la sénescence des cellules stromales de la moelle osseuse. En outre, cette altération du microenvironnement affecte la lymphopoïèse B de façon Ink4a/Arf-dépendante (1er article). De plus, les modifications systémiques qui résultent de l’IR compromettent l’homéostasie osseuse en
augmentant la résorption de l’os, sans toutefois diminuer la formation de celui-ci (2e article). Ces données nous permettent de mieux comprendre les effets de la sénescence
des cellules stromales de la moelle osseuse sur les fonctions hématopoïétiques. Par
ailleurs, elles suggèrent que l’emploi de drogues et/ou de procédés n’induisant pas la
sénescence des cellules stromales de l’os offrirait un meilleur pronostic à long terme pour les patients. / Ionizing radiation (IR) is used in the treatment of several cancers and hematological disorders, especially in conditioning regimens for bone marrow transplantation. Reduced doses of IR seem to favor the success of engraftment. This observation supports the growing evidences suggesting the importance of the microenvironment integrity for the
success of bone marrow transplantation and hematopoiesis maintenance. IR induces
senescence of bone marrow stromal cells in vitro. This defense mechanism which leads to
a permanent cell growth arrest is also observed in different organs in vivo but has not yet been studied in the hematopoietic niche. The objectives of this doctoral thesis are to determine whether IR induces senescence of bone marrow stromal cells and whether such induction alters hematopoietic functions. Our results have demonstrated for the first time that total body IR actually induces the senescence of bone marrow stromal cells. Furthermore, this alteration of the microenvironment affects B lymphopoiesis in an Ink4a/Arf-dependent manner (paper #1). In addition, the systemic changes associated with IR compromise bone homeostasis by increasing bone resorption without reducing bone formation (paper #2). All together, these data enhance our knowledge related to the effects of IR-induced senescent bone marrow stromal cells on hematopoietic function. Moreover, our results suggest that using drugs and/or procedures inducing no senescent bone marrow stromal cells would provide a better long-term prognosis for patients.
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