Global ETD Search

231	Inhibition of the crosstalk between dendritic, natural killer and T cells by mesenchymal stromal/stem cells Consentius, Christine 24 November 2016 (has links) Mesenchymale Stromazellen (MSC) unterstützen die endogene Geweberegeneration und sind kaum immunogen. Die Mechanismen der Immunmodulation sind kaum bekannt. Diese Arbeit untersucht, ob MSC in die Interaktion von Dendritischen Zellen (DC), Natürlichen Killer (NK) und T Zellen eingreifen, indem sie die DC-Reifung beeinflussen. Das Netzwerk ist wichtig für die Differenzierung naïver T Zellen zu Typ 1 T Helferzellen (Th1). Abhängig vom DC-Subtyp und dem Zeitpunkt des Aufeinandertreffens, beeinflussten Knochenmark-MSC (BM-MSC) die in vitro DC-Reifung verschieden. Sie inhibierten die Differenzierung, aber nicht die Reifung humaner von Monozyten-abgeleiteter DC (moDC). BM MSC hatten keinen klaren Einfluss auf die Reifung plasmazytoider DC (pDC), während sie in aktivierten CD1c+ myeloiden DC (mDC) einen tolerogenen Phänotyp induzierten, charakterisiert durch eine geringere CCR7-abhängige Migration und ein tolerogenes Zytokinprofil. Daraus resultierend, wiesen BM-MSC-geprägte mDC aufgrund der veränderten IL 12/IL 10 Sekretion eine geringere Fähigkeit zur Stimulation der IFNγ Produktion in NK Zellen auf und induzierten weniger Th1 Differenzierung naïver T Zellen. Placenta-derived mesenchymal-like adherent stromal cells (PLX PAD) erzielten ähnliche Ergebnisse. Es konnte keine Alloimmunogenität in Patienten mit kritischer Ischämie der Extremitäten (CLI), die im Rahmen einer Phase I klinischen Studie allogene PLX PAD erhalten hatten, nachgewiesen werden. Keiner der Patienten entwickelte eine signifikante Gedächtnis T Zellantwort spezifisch für das Zellprodukt, was durch unsere in vitro Beobachtungen erklärbar sein könnte. Es ist schwierig MSC im Gewebe nachzuweisen, da Markerkombinationen notwendig sind. CD73+CD90+CD105+CD45-CD34-CD14-CD19- MSC konnten mithilfe einer neuen Multiplex-Immunhistologie-Technik (Chipzytometrie) in humanen Plazentaschnitten detektiert werden. Für die Zukunft könnte damit die Interaktion injizierter MSC mit Immunzellen in Biopsien untersucht werden. / Mesenchymal stromal cells (MSC) support endogenous tissue regeneration and seem to be low immunogenic, allowing application across MHC barriers. But little is known about the mechanisms for their immunomodulation. Hence, the main goal of this study was to understand if MSC interfere with the crosstalk between dendritic cells (DC), natural killer (NK) and T cells by influencing DC maturation. This network is important for efficient priming of naïve T cells into type 1 helper T cells (Th1). Bone marrow-derived MSC (BM-MSC) had diverse effects on DC maturation in vitro, depending on the DC subset and the time of interaction. BM MSC inhibited differentiation but not maturation of monocyte-derived DC (moDC). They did not have a clear effect on maturation of plasmacytoid DC (pDC), whereas they induced a tolerogenic phenotype in activated CD1c+ myeloid DC (mDC), characterized by an impaired CCR7-dependent migration and a tolerogenic cytokine profile. Consequently, BM-MSC-licensed mDC displayed a reduced ability to induce IFNγ production in NK cells due to their altered IL 12/IL 10 secretion. BM MSC-licensed mDC also induced less efficiently Th1 lineage commitment of naïve T cells. Similar results were observed with placenta-derived mesenchymal-like adherent stromal cells (PLX PAD). Samples from critical limb ischemia (CLI) patients treated with MHC-unmatched PLX-PAD within a phase I clinical trial were analysed for alloimmunogenicity. None of the patients developed a significant memory T cell response specific to the allogeneic cells, which might be explainable by our in vitro observations. MSC are difficult to detect in tissues because a set of lineage markers is needed. Here, CD73+CD90+CD105+CD45-CD34-CD14-CD19- MSC could be identified in human placenta cryosections using a novel multiplex-immunohistology technique (chipcytometry), offering the possibility to investigate the crosstalk between injected MSC and attracted immune cells in patient biopsies in the future. IL-10 Immunmodulation Mesenchymale Stromalzellen (MSC) Myeloide dendritische Zellen Natürliche Killer Zellen Th1 Differenzierung IL-10 Immunomodulation Natural killer cells Mesenchymal stromal cells (MSC) Myeloid dendritic cells Th1 priming 570 Biowissenschaften, Biologie 32 Biologie WF 9910 WX 7600 YU 5500 ddc:570
232	Protektion humaner endothelialer Vorläuferzellen durch die Koapplikation mit Mesenchymalen Stamm-/Vorläuferzellen Souidi, Naima 14 December 2017 (has links) Endothelzell-basierte Therapien vermitteln regenerative Effekte hinsichtlich der Revaskularisierung von ischämischen Geweben. Doch ist die Verfügbarkeit von autologen Endothelzellen aufgrund einer krankheitsbedingt reduzierten Frequenz im peripheren Blut oder einer verminderten Integrität der endogenen Endothelzell-Populationen eingeschränkt. Hingegen ist es möglich, allogene endotheliale Vorläuferzellen aus der Nabelschnur in zelltherapeutisch relevanten Mengen zu isolieren. In der vorliegenden Arbeit wurden zunächst die Eigenschaften allogener humaner Nabelschnur (NS)-abgeleiteter sog. Endothelial Colony-Forming Cells (ECFCs) mit denen von venösen NS-abgeleiteten Endothelzellen verglichen. Aufgrund der nachgewiesenen Immunogenität von allogenen ECFCs wurde eine weiterführende Strategie zur Reduktion dieser immunogenen Eigenschaften durch die Koapplikation mit Mesenchymalen Vorläuferzellen (MSCs) verfolgt. Humane ECFCs wurden mit MSCs desselben Spenders kombiniert und in funktionellen in vitro- und in vivo-Assays untersucht. Dadurch konnte nachgewiesen werden, dass IFNγ-stimulierte ECFC/MSC-Kokulturen eine reduzierte Expression von HLA-Molekülen zeigen. Entsprechend induzierten spezifische CD8+ T-Zellen eine reduzierte Lyse der kokultivierten ECFCs und MSCs. Die Kokultur von ECFCs und MSCs mit allogenen Immunzellen führte zu einer nahezu vollständigen Inhibition der T-Zell-Proliferation. Um die reduzierte Immunogenität von ECFC und MSC in vivo zu verifizieren, wurden die Zellen in immundefiziente Mäuse injiziert, welche nachfolgend mit humanen PBMCs rekonstituiert wurden. So konnte nachgewiesen werden, dass die Koapplikation von ECFCs und MSCs nicht nur die Entstehung von stabilen Gefäßnetzwerken begünstigt, sondern zudem in den Transplantaten zu einer verringerten Immunzell-Infiltration führte. Die Koapplikation von ECFCs mit MSCs könnte daher eine klinische Nutzung dieser allogenen Quelle für die therapeutische Unterstützung der Vaskularisierung ermöglichen. / Endothelial cell-based therapies promote tissue regeneration and vascularization after ischemic damage. The availability of autologous endothelial progenitor cells is restricted in diseased patients, however therapeutically relevant numbers of allogeneic Endothelial Progenitor Cells can be isolated from an umbilical cord (UC). In the present study, the immunogenic properties of these Endothelial Colony Forming Cells (ECFCs) were first compared to human umbilical vein endothelial cells (HUVECs). Both cytokine-treated endothelial cells induced CD4+ and CD8+ T cell proliferation after coculture with allogeneic immune cells. So far, the potential interactions between ECFCs and Mesenchymal Stem/Progenitor Cells (MSCs) concerning their immunological features is poorly understood, but we hypothesize that MSCs might improve the immune compatibility and vessel building characteristics of ECFCs. Therefore, human UC-derived ECFC and MSC cocultures from the same donor were analyzed using various functional in vitro and in vivo assays. Stimulation of these cocultures with IFNγ caused strongly reduced expression levels of HLA-molecules compared to ECFC monocultures. The decreased molecular density on the cocultured ECFCs resulted in reduced cytotoxic CD8+ T cell-mediated lysis. Further, during IFNγ stimulation, the combination of ECFCs with MSCs prevented initiation of allogeneic T cell proliferation. To verify this concept in vivo, ECFCs and MSCs were co-transplanted in a humanized allograft mouse model in immunodeficient mice in order to effectively induce stable microvessels. These experiments demonstrate that when MSCs are co-applied with ECFCs, they not only support the formation of stable blood vessels, but also lead to fewer HLA-DR+ human vascular structures and fewer infiltrating human leukocytes. The data presented indicate that crosstalk between UC-derived ECFCs and MSCs might lower the risk of allogeneic ECFC rejection. Immunologie Immunogenität Vaskulogenese Endotheliale Vorläuferzellen Mesenchymale Stromazellen Angiogenese Abstoßung Inflammation Zelltherapie Kokultur Nabelschnur Immunology Immunogenicity Vasculogenesis Endothelial Progenitor Cells Endothelial Colony Forming Cells Mesenchymal Stromal Cells Angiogenesis Rejection Inflammation Cell Therapy Coculture Umbilical Cord 570 Biowissenschaften; Biologie WX 6604 YB 8704 ddc:570
233	"Influência da composição de carreador biodegradável na viabilidade do implante de células mesenquimais indiferenciadas do tecido adiposo humano" / Influence of scaffold composition in the viability of implantation of human adipose derived undifferentiated mesenchymal cells Dietrich, Isa 09 December 2004 (has links) Células mesenquimais indiferenciadas humanas foram obtidas por digestão enzimática e centrifugação do produto de lipoaspiração, expandidas in vitro, e implantadas no tecido subcutâneo de camundongos atímicos. No grupo I, cada animal recebeu o implante de uma membrana de 0,25cm2 de ácido glicólico e carbonato de trimetileno semeada com 1 x 106 destas células .No grupo II, cada um recebeu a injeção de 0,2ml de gel de ácido hialurônico reticulado contendo o mesmo número destas células. Com três semanas de implante, células humanas e vasos foram identificados nos dois carreadores. Entretanto, com oito semanas, somente no gel de ácido hialurônico as células humanas e os vasos estavam presentes / Human undifferentiated mesenchymal cells were obtained by enzymatic digestion and centrifugation of the product of liposuction. These cells were expanded, in vitro, and implanted subcutaneously in athymic mice. In group I, each animal received the implant of a 0,25cm2 membrane of glycolic acid and trimethylene carbonate, seeded with 1 x 106 of these cells. In group II, each one received 0,2 ml of cross-linked hyaluronic acid gel containing the same amount of these cells. With three weeks of implantation, human cells and vessels were identified in both carriers. However, with eight weeks of implantation, only in hyaluronic acid gel human cells and vessels were present BIOMEDICAL ENGINEERING CÉLULAS DO TECIDO CONJUNTIVO CÉLULAS ESTROMAIS/transplante CÉLULAS PRIMITIVAS/classificação CÉLULAS PRIMITIVAS/transplante CONNECTIVE TISSUE CELLS ENGENHARIA BIOMÉDICA LESÕES DOS TECIDOS MOLES/terapia NEOVASCULARIZAÇÃO FISIOLÓGICA NEOVASCULARIZATION PHYSIOLOGIC PROCEDIMENTOS CIRÚRGICOS RECONSTRUTIVOS RECONSTRUCTIVE SURGICAL PROCEDURES SOBREVIVÊNCIA DE TECIDOS SOFT TISSUE INJURIES/therapy STEM CELL TRANSPLANTATION STROMAL CELLS/transplantation TISSUE SURVIVAL TISSUE TRANSPLANTATION TRANSPLANTE DE CÉLULAS-TRONCO TRANSPLANTE DE TECIDOS TRANSPLANTES TRANSPLANTS
234	"Células mononucleares de sangue de cordão umbilical e de sangue periférico estimulado com fator de crescimento granulocítico (G-CSF) : análise da proliferação e de apoptose in vitro" / Mononuclear cells from umbilical cord blood and from granulocyte colony-stimulating factor (G-CSF) mobilized peripheral blood. Analysis of proliferation and apoptosis in vitro Ribeiro, Andreza Alice Feitosa 08 September 2003 (has links) Células mononucleares de sangue de cordão umbilical (SCU) e sangue periférico mobilizado (SPM) com G-CSF, foram cultivadas in vitro com citocinas, na presença ou não de estroma de medula óssea. Os objetivos foram avaliar a capacidade proliferativa de células progenitoras, a ocorrência de apoptose e expressão de integrina. Nas culturas sem estroma, a celularidade aumentou 5 vezes (SCU) e não se alterou nas de SPM. O total de células CD34+ caiu em ambas culturas. Com estroma, o total de células nucleadas aumentou 7 vezes (SCU) e 2,3 vezes (SPM). O total de células CD34+ permaneceu o mesmo. A apoptose foi menor nas culturas de SCU. A expressão de integrina caiu, na população de células CD34+ e de CD45+ / Mononuclear cells from umbilical cord blood (UCB) and G-CSF mobilized peripheral blood (MPB), were cultured in vitro, in the presence of cytokines, with or without bone marrow stroma. The aims were to evaluate the proliferative response of progenitor cells, occurrence of apoptosis and expression of adhesion molecule. In cultures without stroma, cellularity increased 5-fold for UCB, but has not changed for MPB. The number of CD34+ cells has dropped in both culture. With stroma, total nucleated cells had a 7-fold increse (UCB) and a 2,3-fold (MBP), however, CD34+ cells number has not changed. Apoptosis was lower in UCB culture. The expression of integrin decreased, in the CD34+ and CD45+ population APOPTOSE/fisiologia APOPTOSES/physiology CELL ADHESION MOLECULES/blood CELL CULTURE/methods CELL DIVISION/immunology CÉLULAS ESTROMAIS/fisiologia CITOCINAS/agonistas CORDÃO UMBILICAL/transplante CULTURA DE CÉLULAS/métodos CYTOKINES/agonists DIVISÃO CELULAR/imunologia IN VITRO IN VITRO LEUCÓCITOS MONONUCLEARES/imunologia LEUKOCYTES MONONUCLEAR/immunology MOLÉCULAS DE ADESÃO CELULAR/sangue STROMAL CELLS/physiology UMBILICAL CORD/transplantation
235	Étude des effets du phénotype de sénescence des cellules stromales de la moelle osseuse sur les fonctions hématopoïétiques Carbonneau, 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. Irradiation Sénescence Microenvironnement osseux Cellules stromales de la moelle osseuse INK4a/ARF Fonctions hématopoïétiques Homéostasie osseuse Ostéoblastes Ostéoclastes Ionizing radiation Senescence Bone marrow microenvironnement Bone marrow stromal cells INK4a/ARF Hematopoietic function Bone homeostasis Osteoblasts Osteoclasts
236	Contribuição das características clínicas, hormonais e radiológicas para o diagnóstico diferencial dos tumores de ovário produtores de andrógenos e hipertecose do estroma ovariano em mulheres na pós-menopausa / Contribution of clinical features, hormonal profile and radiological studies in the differential diagnosis of the virilizing ovary tumor and ovarian stromal hyperthecosis of postmenopausal women Viviane dos Reis Vieira Yance 02 August 2016 (has links) Introdução: Hiperandrogenemia associada a sinais clínicos de virilização na mulher após a menopausa é uma condição rara e pouco estudada. Os tumores ovarianos secretores de andrógenos (TOSA) e a hipertecose do estroma ovariano (HPT) são as etiologias mais frequentes de hiperandrogenismo nesta faixa etária. A diferenciação entre estas duas condições é difícil, pois as manifestações clínicas são semelhantes e caracterizadas por hirsutismo, alopecia androgênica, clitoromegalia, hipertrofia muscular e agravamento da voz. O perfil hormonal das mulheres pós-menopausadas com TOSA e HPT pode não ser um parâmetro ideal para discriminar estas duas condições. Além disso, os estudos de imagem podem não caracterizar com precisão estas lesões ovarianas. Devido às dificuldades, em estabelecer o diagnóstico diferencial entre TOSA e HPT, a ooforectomia bilateral é a terapêutica indicada para as mulheres menopausadas com diagnóstico de hiperandrogenismo de origem ovariana; embora na HPT o tratamento clínico com análogo do hormônio liberador de gonadotrofinas (aGnRH) possa ser uma opção terapêutica eficaz. Objetivos: O nosso objetivo foi avaliar a contribuição das características clínicas, do perfil hormonal e dos exames radiológicos para o diagnóstico diferencial entre TOSA e HPT em mulheres na pós-menopausa. Métodos: Trinta e quatro mulheres pós-menopausadas, na faixa etária de 52 a 80 anos de idade, que foram encaminhadas à Unidade de Endocrinologia do Hospital das Clinicas da Faculdade de Medicina da Universidade de São Paulo, entre 1999 e 2013 por hiperandrogenismo clínico e com diagnóstico histológico de TOSA (13 mulheres) e HPT (21 mulheres) foram avaliadas retrospectivamente. Os diagnósticos histológicos foram revisados e confirmados por um único patologista com experiência em patologia ginecológica. Os dados clínicos de hiperandrogenismo, o perfil hormonal (T, E2, LH, FSH) e as imagens radiológicas pélvicas (Ultrassom transvaginal e Ressonância Magnética, RM) foram obtidos a partir da revisão de prontuários médicos. Resultados: Em relação aos dados da história clínica, não houve diferença significativa entre os dois grupos de pacientes para nenhuma das variáveis clínicas analisadas, exceto para o número de gestações, que foi significantemente maior no grupo com TOSA. Os sinais clínicos de hiperandrogenismo, especialmente agravamento da voz (p < 0,001) e hipertrofia muscular (p = 0,01), foram mais prevalentes no grupo de pacientes com TOSA do que o grupo de HPT. Embora na análise dos parâmetros hormonais, os pacientes do grupo com TOSA tenham apresentado níveis mais elevados de T e E2 e níveis mais baixos de gonadotrofinas (p < 0,01 e p <0,01, respectivamente) do que o grupo de pacientes com HPT, uma grande sobreposição nos níveis hormonais foi observada entre os pacientes dos dois grupos. A RM de pelve apresentou uma boa acurácia para diferenciar os TOSAs da HPT em mulheres pós-menopausadas com hiperandrogenismo. Conclusão: Neste grupo de pacientes, as características que mais contribuíram para o diagnóstico diferencial entre TOSA e HPT foram o agravamento da voz e a hipertrofia muscular, os níveis séricos de testosterona e gonadotrofinas e a presença de nódulo ovariano na RM de pelve. Embora a associação das características clínicas, hormonais e radiológicas contribua para a elaboração de uma hipótese diagnóstica fundamentada, a análise histopatológica continua a ser o padrão ouro para o diagnóstico diferencial de hiperandrogenismo de origem ovariana em mulheres na pós-menopausa / Introduction: The presence of virilizing signs associated to high serum of androgen levels in postmenopausal women is a rare and poorly understood condition. Virilizing ovarian tumors (VOT) and ovarian stromal hyperthecosis (OH) are the most common hyperandrogenism etiologies in the postmenopausal women. The differential diagnosis between the two conditions is often difficult, because they present similar clinical features such as hirsutism, androgenic alopecia, clitoromegaly, muscle hypertrophy and deepening of the voice. The hormonal profile of postmenopausal women with VOT and OH may not be the optimal discriminating factor between these two conditions. Moreover, imaging may not accurately characterize these ovarian lesions. Due to the difficulties in establishing the differential diagnosis between VOT and OH, bilateral oophorectomy is the treatment of choice in postmenopausal women with hyperandrogenism of ovarian origin. However, the treatment with gonadotropin-releasing hormone analogue (GnRHa) might be an effective therapy in women with OH. Objectives: Our aim was to evaluate the contribution of clinical features, hormonal profile and radiological studies in the differential diagnosis between VOT and OH in postmenopausal women. Methods: Thirty-four postmenopausal women ranging from 52 to 80 years of age with clinical hyperandrogenism referred to the Endocrinology Unity of Hospital das Clinicas da Faculdade de Medicina da Universidade de São Paulo, between 1999 and 2013, with diagnosis of VOT (13 women) and OH (21 women) were evaluated retrospectively. Histological diagnoses were reviewed and confirmed by a single pathologist with expertise in gynecologic pathology. Clinical hyperandrogenism data, hormonal status (T, E2, LH, FSH) and the pelvic images (Transvaginal sonography and Magnetic Resonance Image- MRI) findings were obtained from medical records. Results: No clinical data evaluated in the study was significantly different between the two groups of patients. A higher number of pregnancies in the VOT group was observed, which was statistically different from the OH group. The clinical signs of hyperandrogenism, especially deepening of the voice (p < 0.001) and muscle hypertrophy (p = 0.01), were more prevalent in the VOT\'s than OH\'s group. Although, the VOT\'s group showed higher T and E2 levels and lower gonadotropins levels than the OH\'s group (p < 0.01 and p < 0.01, respectively), a great overlap in the hormone levels occur between VOT and OH patients. Pelvic MRI presented a good accuracy to differentiate these two conditions in hyperandrogenic postmenopausal women. Conclusion: In this group of patients, the main features to the differential diagnosis between VOT and OH were deepening of the voice and muscle hypertrophy, serum levels of testosterone and gonadotropins and presence of ovarian nodule in the pelvic MRI. Although the association of clinical, hormonal and radiological features contributes to the differential diagnosis between these two conditions, histopathological analysis remains the gold standard for the differential diagnosis of ovarian hyperandrogenism in post menopausal women Células estromais Hiperplasia Hirperandrogenismo Neoplasias ovarianas Ovário Pós-menopausa Tumor de células de Leydig Tumor de células de Sertoli-Leydig Virilismo Hyperandrogenism Hyperplasia Leydig cell tumor Ovarian neoplasms Ovary Postmenopause Sertoli-Leydig cell tumor Sex cord-gonadal stromal tumors Stromal cells Virilism
237	"Influência da composição de carreador biodegradável na viabilidade do implante de células mesenquimais indiferenciadas do tecido adiposo humano" / Influence of scaffold composition in the viability of implantation of human adipose derived undifferentiated mesenchymal cells Isa Dietrich 09 December 2004 (has links) Células mesenquimais indiferenciadas humanas foram obtidas por digestão enzimática e centrifugação do produto de lipoaspiração, expandidas in vitro, e implantadas no tecido subcutâneo de camundongos atímicos. No grupo I, cada animal recebeu o implante de uma membrana de 0,25cm2 de ácido glicólico e carbonato de trimetileno semeada com 1 x 106 destas células .No grupo II, cada um recebeu a injeção de 0,2ml de gel de ácido hialurônico reticulado contendo o mesmo número destas células. Com três semanas de implante, células humanas e vasos foram identificados nos dois carreadores. Entretanto, com oito semanas, somente no gel de ácido hialurônico as células humanas e os vasos estavam presentes / Human undifferentiated mesenchymal cells were obtained by enzymatic digestion and centrifugation of the product of liposuction. These cells were expanded, in vitro, and implanted subcutaneously in athymic mice. In group I, each animal received the implant of a 0,25cm2 membrane of glycolic acid and trimethylene carbonate, seeded with 1 x 106 of these cells. In group II, each one received 0,2 ml of cross-linked hyaluronic acid gel containing the same amount of these cells. With three weeks of implantation, human cells and vessels were identified in both carriers. However, with eight weeks of implantation, only in hyaluronic acid gel human cells and vessels were present CÉLULAS DO TECIDO CONJUNTIVO CÉLULAS ESTROMAIS/transplante CÉLULAS PRIMITIVAS/classificação CÉLULAS PRIMITIVAS/transplante ENGENHARIA BIOMÉDICA LESÕES DOS TECIDOS MOLES/terapia NEOVASCULARIZAÇÃO FISIOLÓGICA PROCEDIMENTOS CIRÚRGICOS RECONSTRUTIVOS SOBREVIVÊNCIA DE TECIDOS TRANSPLANTE DE CÉLULAS-TRONCO TRANSPLANTE DE TECIDOS TRANSPLANTES BIOMEDICAL ENGINEERING CONNECTIVE TISSUE CELLS NEOVASCULARIZATION PHYSIOLOGIC RECONSTRUCTIVE SURGICAL PROCEDURES SOFT TISSUE INJURIES/therapy STEM CELL TRANSPLANTATION STROMAL CELLS/transplantation TISSUE SURVIVAL TISSUE TRANSPLANTATION TRANSPLANTS
238	"Células mononucleares de sangue de cordão umbilical e de sangue periférico estimulado com fator de crescimento granulocítico (G-CSF) : análise da proliferação e de apoptose in vitro" / Mononuclear cells from umbilical cord blood and from granulocyte colony-stimulating factor (G-CSF) mobilized peripheral blood. Analysis of proliferation and apoptosis in vitro Andreza Alice Feitosa Ribeiro 08 September 2003 (has links) Células mononucleares de sangue de cordão umbilical (SCU) e sangue periférico mobilizado (SPM) com G-CSF, foram cultivadas in vitro com citocinas, na presença ou não de estroma de medula óssea. Os objetivos foram avaliar a capacidade proliferativa de células progenitoras, a ocorrência de apoptose e expressão de integrina. Nas culturas sem estroma, a celularidade aumentou 5 vezes (SCU) e não se alterou nas de SPM. O total de células CD34+ caiu em ambas culturas. Com estroma, o total de células nucleadas aumentou 7 vezes (SCU) e 2,3 vezes (SPM). O total de células CD34+ permaneceu o mesmo. A apoptose foi menor nas culturas de SCU. A expressão de integrina caiu, na população de células CD34+ e de CD45+ / Mononuclear cells from umbilical cord blood (UCB) and G-CSF mobilized peripheral blood (MPB), were cultured in vitro, in the presence of cytokines, with or without bone marrow stroma. The aims were to evaluate the proliferative response of progenitor cells, occurrence of apoptosis and expression of adhesion molecule. In cultures without stroma, cellularity increased 5-fold for UCB, but has not changed for MPB. The number of CD34+ cells has dropped in both culture. With stroma, total nucleated cells had a 7-fold increse (UCB) and a 2,3-fold (MBP), however, CD34+ cells number has not changed. Apoptosis was lower in UCB culture. The expression of integrin decreased, in the CD34+ and CD45+ population APOPTOSE/fisiologia CÉLULAS ESTROMAIS/fisiologia CITOCINAS/agonistas CORDÃO UMBILICAL/transplante CULTURA DE CÉLULAS/métodos DIVISÃO CELULAR/imunologia IN VITRO LEUCÓCITOS MONONUCLEARES/imunologia MOLÉCULAS DE ADESÃO CELULAR/sangue APOPTOSES/physiology CELL ADHESION MOLECULES/blood CELL CULTURE/methods CELL DIVISION/immunology CYTOKINES/agonists IN VITRO LEUKOCYTES MONONUCLEAR/immunology STROMAL CELLS/physiology UMBILICAL CORD/transplantation
239	Nouvelles stratégies thérapeutiques des affections articulaires du cheval : évaluation du potentiel thérapeutique des chondrocytes autologues et des cellules souches de cordon ombilical (sang et gelée de Wharton) : vers l'industrialisation de cellules médicaments. / New therapeutic strategies for articular disorders in the equine model : therapeutic potential evaluation of autologous chondrocytes and umbilical cord stem cells (from umbilical cord blood and Wharton jelly) : toward industrialization of drug cells Rakic, Rodolphe 05 September 2017 (has links) Les affections articulaires touchant le cartilage, telles que les lésions focales et l’arthrose, correspondent aux principales causes de baisse de performance et d’arrêt prématuré de la carrière sportive du cheval. Ainsi, le traitement des affections du cartilage représente un enjeu vétérinaire majeur dans le monde équin, du fait des importantes pertes financières qu’elles occasionnent à la filière. Les faibles capacités de réparation intrinsèque du cartilage, ainsi que l’absence de thérapie à long terme des dommages cartilagineux, nécessitent le recours à des thérapies de nouvelles générations telle que l’ingénierie tissulaire du cartilage. Dans ce cadre, notre étude s’est attachée à comparer différents types cellulaires pour la génération de cartilage in vitro, afin d’envisager une implantation pour traiter les atteintes cartilagineuses chez le cheval. Une technique initialement développée chez l’Homme, la transplantation de chondrocytes autologues, représente toujours un « gold standard » en ingénierie tissulaire du cartilage. Dans ce travail de thèse, après avoir développé une nouvelle génération de substitut cartilagineux de haute qualité biologique, à partir de chondrocytes articulaires équins, des limites techniques et biologiques inhérentes au type cellulaire persistent. Ainsi, nos travaux se sont tournés vers la recherche de types cellulaires alternatifs. Les cellules souches/stromales mésenchymateuses (CSM) néonatales issues de cordon ombilical telles que les CSM de sang placentaire (CSM-SPL) et les CSM de gelée de Wharton (CSM-GW) pourraient représenter un avantage thérapeutique du fait de leur isolement non-invasif, de leur forte prolifération cellulaire et de leur capacité de différenciation en chondrocyte. Il est néanmoins indispensable de définir le meilleur candidat thérapeutique, parmi ces deux sources cellulaires, pour l’obtention d’un substitut cartilagineux de qualité biologique optimale. Ces résultats de thèse ont montré d’importantes différences dans le processus de chondrogenèse de ces deux sources de CSM néonatales et plaident en faveur de l’utilisation des CSM-SPL dans le cadre d’une stratégie thérapeutique d’ingénierie tissulaire du cartilage équin. Ces travaux ont permis une meilleure compréhension de la biologie du chondrocyte et des CSM. De surcroît, ces travaux permettent d’envisager de futurs essais cliniques chez le cheval, afin de traiter les affections articulaires de ce modèle gros animal. / Articular cartilage disorders, such as focal defects and osteoarthritis, are the main causes of decreased performance or early retirement of sport- and racehorses. Thus, cartilage disorders represent a major veterinary issue in the equine industry, due to significant financial losses. Poor intrinsic cartilage repair properties and the absence of long- term therapy for cartilage defects lead to the development and use of new generation therapies such as autologous chondrocytes implantation. In this context, our study aimed to compare different cell types for the in vitro cartilage generation, in order to implant the biological substitute to treat cartilage defects in the horse. A therapeutic strategy initially developed in human medicine, the autologous chondrocytes transplantation, always represents a "gold standard" in cartilage tissue engineering. In the present study, after developing a new generation of cartilaginous substitute of high biological quality, composed of equine articular chondrocytes, technical and biological limits inherent to the cell type persist. Thus, we have used alternative cell types such as neonatal mesenchymal stem/stromal cells (MSCs) from umbilical cord, such as umbilical cord blood MSC (UCB-MSCs) and umbilical cord matrix or Wharton jelly MSCs (UCM- MSCs). These MSCs sources could represent a therapeutic advantage due to their non-invasive isolation, their high cell proliferation and their ability to differentiate into chondrocytes. Nevertheless, it is essential to define the best therapeutic candidate between these two MSCs sources, to obtain an optimal quality for the neocartilaginous substitute. Our data highlighted important differences in the chondrogenesis process of these two neonatal MSCs sources, allowing us to consider UCB-MSCs as the best therapeutic candidate for equine cartilage tissue engineering. This work allows a better understanding of the chondrocyte and MSCs biology. Moreover, this work leads the way to setting-up future clinical trials in the horse, in order to treat articular defects of this large animal model. Sang placentaire Gelée de Wharton Arthrose Chondrogenèse Matrice extracellulaire Ingénierie tissulaire du cartilage Cartilage tissue engineering Horse Chondrocyte Umbilical cord blood Osteoarthritis Chondrogenesis Extracellular matrix Mesenchymal stem/stromal cells Chondral defects
240	Study of the role of the p16INK4a gene in tumor progression and tissue regeneration/function following exposure to ionizing radiation Palacio, Lina 12 1900 (has links) La sénescence est un important mécanisme cellulaire qui prévient la tumorigenèse et se caractérise par un arrêt permanent du cycle cellulaire orchestré principalement par les inhibiteurs des cycline-kinases dépendantes (i.e p16INK4a). La sénescence est une caractéristique importante du vieillissement, mais un déséquilibre dans son induction peut être délétère pour la régénération tissulaire et paradoxalement pour la progression tumorale. L'irradiation (IR) est couramment utilisée comme approche thérapeutique dans le cancer. Chez les enfants survivants du cancer, l’exposition à l’irradiation et à la chimiothérapie entrainent le développement d’importants effets secondaires, lesquels sont associés à une forme de vieillissement prématuré. La formation de cellules sénescentes, en inhibant la prolifération tissulaire et en sécrétant des cytokines proinflammatoires, pourrait être en être responsable. Notre groupe a précédemment démontré que le gène p16INK4a est augmenté de manière tardive (environ 8 semaines) suite à une exposition à l’irradiation. Il n'a pas encore été étudié si cette expression retardée survient en réponse aux dommages causés par l'irradiation sur l’homéostasie tissulaire ou à titre de mécanismes de suppression tumorale. Un objectif de cette thèse visait donc à déterminer s’il était possible de moduler/inhiber l’expression de p16INK4a dans le but d’accroitre la régénération tissulaire sans nécessairement accroitre les risques d’incidence du cancer. En effet, ceci pourrait être possible dans la mesure ou la sénescence induite par p16INK4a est également irréversible in vivo. Nos résultats ont démontré que l’inhibition de l’expression de p16INKa (suite à l’administration de tamoxifen chez les souris p16L/LCre), induit à la fois une augmentation de la régénération tissulaire mais malheureusement également une augmentation de l’incidence du cancer. Nous voulions également connaitre l’impact de l’accumulation de ces cellules sénescentes sur les tissus, plus spécifiquement sur la fonction des cellules immunitaires de la rate. Nous avons démontré que des altérations (dépendantes de p16INK4a) au sein du microenvironnement splénique pouvaient altérer les fonctions intrinsèques des macrophages, des cellules dendritiques et des lymphocytes T. En outre, l'élimination systémique des cellules p16INK4a positives (modèle de sourie p16-3MR) a conduit à une restauration partielle de la fonction de ces cellules immunitaires. La combinaison de ces données nous permet de mieux comprendre le rôle et la fonction du gène p16INK4a dans le processus de sénescence induite par l’irradiation. Nos résultats suggèrent qu’il est envisageable d’utiliser des agents pharmacologiques tels que des composés sénolytiques, capables d’induire l’apoptose chez les cellules sénescentes spécifiquement, afin de potentiellement diminuer les effets du vieillissement prématuré induit par la sénescence cellulaire chez les survivants du cancer. / Senescence is an important cellular mechanism that prevents tumorigenesis and is characterized by a permanent cell cycle arrest orchestrated by cyclin-dependent kinases inhibitors (i.e p16INK4a). Senescence is an important hallmark of aging and unbalanced levels of senescence is considered deleterious for tissue regeneration, and paradoxically for tumor progression. Irradiation (IR) is commonly used therapeutic approach in cancer treatment. Together with surgery and chemotherapy, it has helped to increase the life expectancy of patients and, in some cases, leads to complete remission. However, long-after therapy, children who survive cancer encounter alterations in the integrity of tissues/organs associated with premature aging. The accumulation of senescent cells may be responsible for this accelerated aging by limiting tissue proliferation and secreting pro-inflammatory cytokines. Our group has previously demonstrated that the p16INK4a gene is increased in a delayed manner (approximately 8 weeks) following exposure to IR. It has not yet been investigated whether this delayed expression occurs in response to IR-induce damage of tissue homeostasis or as tumor suppression mechanisms. One objective of this thesis was to determine whether it was possible to modulate / inhibit the expression of p16INK4a in order to increase tissue regeneration without necessarily increasing the risk of cancer incidence. Indeed, this may be possible since p16INK4a-induced senescence is also irreversible in vivo. Our results demonstrated that the inhibition of p16INK4a expression in conditional-p16INK4a null mice , induces both an increase in tissue regeneration but unfortunately also an increase in the incidence of cancer. We also wanted to know the impact of the accumulation of these senescent cells on the tissues, more specifically on the function of the immune cells in the spleen. We have demonstrated that alterations (p16INK4a-dependent) within the splenic microenvironment can alter the intrinsic functions of macrophages, dendritic cells and T cells. In addition, the systemic elimination of p16INK4a positive cells (mouse model p16-3MR) has led to a partial restoration of the function of these immune cells. The combination of these data allows us to better understand the role and function of the p16INK4a gene in the irradiation-induced senescence process. Our results suggest that it is conceivable to use pharmacological agents such as senolytic compounds, capable of inducing apoptosis in senescent cells specifically, in order to potentially reduce the effects of premature aging induced by cellular senescence in cancer survivors. Rayonnement ionisant Sénescence Microenvironnement splénique Cellules stromales INK4a / ARF Fonction hématopoïétique Phagocytose Prolifération cellulaire Activité b-gal Prolifération des cellules T Ionizing radiation Senescence Splenic microenvironment Stromal cells INK4a/ARF P16INK4a Hematopoietic function Phagocytosis Cell proliferation T cell proliferation Regeneration.

Search results