Bioingénierie des cellules souches mésenchymateuses médullaires cultivées en 3D : application au traitement de l’anévrysme de l’aorte abdominale

Mohand Kaci, Faïza

06 April 2012

L'anévrisme de l'aorte abdominale (AAA) est une maladie dégénérative de la paroi vasculaire, actuellement traitée par chirurgie ou par endoprothèse. La diminution de la morbimortalité liée aux traitements et la réparation de ces vaisseaux pathologiques constituent un enjeu majeur de santé publique. L'objectif de ce travail de thèse est d'évaluer l'impact de la culture 3D sur les cellules souches mésenchymateuses (CSM), en particulier sur leur phénotype, leur multipotence, leur capacité à réparer les anévrysmes in vivo et à acquérir un phénotype adapté à la contrainte mécanique qu'elles subissent in vitro. Des conditions optimales de culture 3D dans un hydrogel d'acide hyaluronique préservant la multipotence des CSM in vitro ont ainsi été établies. Sous l'effet de contraintes mécaniques reproduisant celles subies par la paroi aortique in vivo, les CSM 2D et CSM 3D semblent garder une multipotence. Toutefois, dans ces conditions dynamiques, la viabilité des CSM 3D augmente contrairement à celle des CSM 2D. Les résultats montrent également que l'injection des CSM 2D ou 3D, en utilisant un modèle de xénogreffe chez le rat, stabilisent les AAA et améliorent la résistance mécanique de la paroi vasculaire anévrismale. L'étude réalisée chez le rat a été complétée par une approche thérapeutique cellulaire à base de CSM 3D dans le cas de faux anévrysmes chroniques de l'isthme chez le porc. Cette étape conduit à la caractérisation des CSM 3D et la mise au point du modèle expérimental chez le porc, ce qui permet d'envisager une thérapie cellulaire dans ce modèle. Plus généralement, ce travail contribue à la compréhension de la biologie des CSM et à l'amélioration des approches utilisées en thérapie cellulaire et en médecine régénérative. / Abdominal aortic aneurysm (AAA) is a degenarative disease of the arterial wall, which is usually treated with a conventional surgery or an andovascular stent. Due to its high morbidity and mortality, the AAA constitutes a major public health concern. The aim of this thesis is to evaluate the imapct of OD culture of mesenchymal stem cells (MSC), in particular on their phenotype, their multipotency, their ability to repair aneurysms in vivo and to acquire a phenotype suitable to the nechanical stress they support in vitro. Optmal culture conditions in a 3D hydrogel of hyaluronic acid preserving the multipotency of MSC in vitro have been established. Under mechanical effects, reproducing those supported by the aortic wall in vivo, 2D and 3D CSM seem to preserve their multipotency. However, under such dynamic conditions, the viability of 3D CSM increases unlike that of 2D CSM. By using a rat xenograft model, the results also show that injection of 2D or 3D CSM, stabilizes the AAA and improves the mechanical strenght of the aneurysmal vessel wall. The study in rat was supplemented by an evaluation of a therapeutic cell-based approach using 3D CSM in the case of chronic false aneurysms of the isthlus in pigs. This step allowed the characterization of 3D CSM and the development of an experimental model in pigs, which allows to consider cell therapy in this model. More genrally, this work contributes to a better understanding of CSM biology and to an improvement of the approaches used in cell therapy and regenerative medicine.

Anévrysme de l'aorte abdominale

Régénération tissulaire

Cellule souche mésenchymateuse

Culture 3D

Contrainte mécanique

Abdominal aortic aneurysm

Tissue engineering

Mesenchymal stem cell

Hyaluronic acid hydrogel

3D culture

Mechanical stress

616.1

Influence de l'architecture macroporeuse en phosphate de calcium sur le comportement cellulaire in vitro / The influence of a calcium phosphate macroporous architecture on cellular behavior in vitro

Chamary, Shaan

20 February 2018

Les phosphates de calcium tels que le β-TCP sont utilisés depuis des décennies comme substitut osseux synthétique. Leurs bonnes propriétés chimiques et leur comportement analogue au tissu osseux in vivo et in vitro peuvent être améliorés par la technique de mise en forme employée. Il est aujourd'hui largement admis qu'une architecture poreuse optimisée aura un impact positif sur la bioactivité du matériau. Cette étude vise à étudier les liens existant entre une structure macroporeuse en β-TCP et la prolifération et différenciation cellulaire. Le β-TCP est fabriqué par précipitation aqueuse. Les paramètres de synthèse sont optimisés afin d'avoir un produit répondant aux normes ISO 13175 et 13779. Trois méthodes de mise en forme ont été choisies pour leur aptitude à générer une macroporosité originale. L'imprégnation d'une structure polymérique par une suspension génère un réseau de pores sphériques (PS), la stéréolithographie génère des pores cubiques interconnectés (3D) et la congélation orientée produit un réseau de pores tubulaires ellipsoïdaux parallèles au sens de la congélation (CO). Deux tendances émergent des cultures de cellules souches mésenchymateuses humaines: PS et 3D favorisent la prolifération alors que CO favorise la pénétration cellulaire et l'activité de la phosphatase alcaline. Cette dernière est favorisée par le β-TCP et cette aptitude est améliorée par la congélation orientée. Cela pourrait s'expliquer par l'état d'avancement de la différenciation cellulaire: les cellules sur les échantillons CO semblent être à un stade de différenciation plus avancé. Des essais complémentaires sur l'expression de gènes clés sont en cours pour vérifier cette hypothèse. / Calcium phosphates such as β-TCP have been used for decades as synthetic bone substitutes. Its good chemical properties and its similar behavior to that of the bone in vivo and in vitro can be enhanced by the chosen shaping method. It is nowadays largely accepted that an optimized porous architecture will have a positive impact on the material's bioactivity. This study aims at studying the links between a porous architecture and cell proliferation and differentiation. β-TCP was manufactured by aqueous precipitation. Synthesis parameters were optimized in order to get a product complying with ISO 13779 and 13175 requirements. Three shaping methods were chosen for their ability to generate original structures. The impregnation of a polymeric scaffold yields a network of interconnected spherical pores (PS), stereolithography yields a network of interconnected cubical pores (3D) and ice templating yields a network of parallel ellipsoidal channel-like structure (CO). Two different trends emerged from the human mesenchymal stem cell culture: PS and 3D favored cell proliferation whereas CO promoted cell penetration and alkaline phosphatase activity. The latter is stimulated by β-TCP and this ability is enhanced by freeze casting. This could be explained by the state of cell differentiation: cells on CO samples seem to be far more differentiated than the other ones. However the study of key genes expression is needed to confirm this hypothesis.

Β-Tcp

Macroporeux

Congélation orientée

Cellule souche mésenchymateuse humaine

Différenciation cellulaire

In vitro

Calcium phosphate

Β-Tcp

Stereolithography

Ice templating

Human mesenchymal stem cell

Cell differentiation

In vitro

Traitement de l'infarctus du myocarde chronique : contribution des cellules souches mésenchymateuses de moelle osseuse autologue / Treatment of chronic myocardial infarction : Impact of the bone marrow autologous mesenchymal stem cells

Maureira, Juan Pablo

18 December 2012

La thérapie cellulaire et l'ingénierie tissulaire constituent de nouvelles stratégies à évaluer dans le traitement de la cardiopathie ischémique. Dans le cas particulier de l'infarctus chronique (IDMc), la possibilité de réhabiliter une zone cicatricielle à partir de cellules souches mésenchymateuses de moelle osseuse (CSMs), ainsi que la potentialité de remodeler l'architecture ventriculaire pariétale, sont particulièrement discutées. La première partie est un rappel des principaux concepts à l'origine des espoirs fondés sur ces nouvelles voies thérapeutiques. Dans la deuxième partie, nous présentons nos travaux concernant (1) l'injection cellulaire myocardique directe par voie épicardique chez le rat et chez l'homme souffrant d'IDMc et (2) l'application chirurgicale épicardique directe chez le rat IDMc, d'un patch tissulaire fabriqué à l'aide de CSMs incluses dans un réseau de collagène de type I. Les résultats montrent que l'injection cellulaire directe est responsable d'une réaction inflammatoire immédiate non spécifique. Néanmoins, ces travaux soutiennent aussi que (1) les CSMs stimulent l'angiogénèse locale en fonction de l'activité métabolique résiduelle et (2) le patch de CSMs favorise le remodelage ventriculaire inverse chez les rats infarcis. Dans la dernière partie, nous revenons, d'une manière plus générale, sur ces résultats qui restent encore trop limités pour espérer soigner une défaillance myocardique sévère. Néanmoins, bien que ces expériences ne confirment pas la potentialité cardiogénique des CSMs, elles suggèrent fortement la possibilité, par ces méthodologies, d'inverser le cours naturel de l'IDMc / Cellular therapy and tissue engineering are new strategies to be tested in the treatment of ischemic cardiopathy. In chronic infarction (MI) specifically, the possibility of rehabilitating a cicatricial zone using bone marrow mesenchymal stem cells (BMSC) as well as the feasibility of remodeling parietal ventricular architecture are especially discussed. The first part reviews the main concepts which have led to these new promising avenues of treatment. In the second part we present our work concerning (1) direct myocardial cellular injection via the epicardium in rats and in humans suffering from MI, and (2) direct epicardial surgical application of a tissular patch consisting of BMSC in a type I collagen network. The results show that direct cellular injection is responsible for an immediate non-specific inflammatory reaction. Nevertheless, the work also supports the notions that (1) BMSCs stimulate local angiogenesis on the basis of residual metabolic activity, and (2) the BMSC patch stimulates inverse ventricular remodeling in infarcted rats. The final part is devoted to a wider discussion of these results which are as yet too limited to hope to heal severe myocardial failure. However, despite the fact that these experiments do not confirm the cardiogenic potential of BMSCs, they do strongly hint at the possibility of using this methodology to invert the natural course of MI

Thérapie cellulaire cardiaque

Ingénierie tissulaire cardiaque

Infarctus du myocarde chronique

Chirurgie cardiaque expérimentale

Cellules souche mésenchymateuse

Cardiac cellular therapy

Cardiac tissular engineering

Chronic myocardial infarction

Experimental heart surgery

Mesenchymal stem cell

616.123

Reconstrução de defeitos ósseos cranianos em ratos com células-tronco de polpa dentária humana: estudo experimental de neoformação óssea / Reconstruction of cranial defects in rats with human dental pulp stem cells: experimental design of bone regeneration

Costa, André de Mendonça

15 December 2009

Os defeitos da calota craniana causados por traumas severos, neoplasias, cirurgias ou deformidades congênitas representam um grande desafio para os cirurgiões. O uso de enxertia óssea autóloga continua sendo o método de tratamento padrão ouro, embora apresente morbidade na área doadora e seja considerado insuficiente para reconstrução de grandes defeitos. Recentemente, com o advento da bioengenharia tecidual, novas expectativas surgiram na regeneração óssea. O objetivo deste estudo foi desenvolver um modelo experimental em ratos para o estudo de deformidades craniofaciais e verificar se as células-tronco humanas provenientes de dentes decíduos seriam capazes de regenerar defeitos críticos em calota craniana de ratos não imunossuprimidos. Foram realizados dois defeitos ósseos de espessura total com diâmetro de 5 x 8 mm na região biparietal. O lado esquerdo foi preenchido com membrana de colágeno, enquanto o lado direito com membrana de colágeno associada a células-tronco humanas provenientes de dentes decíduos. Essas células foram caracterizadas previamente in vitro como células mesenquimais. A eutanásia dos animais foi realizada no 7º, 21º, 30º e 60º dia de pós-operatório e amostras de tecido ósseo foram extraídas para realização da análise histológica. A análise da presença de células humanas no novo osso formado foi confirmada através do estudo molecular. A linhagem de células-tronco humanas provenientes de dentes decíduos foi positiva para células-tronco mesenquimais e sua diferenciação em tecido ósseo também foi evidenciada in vitro. Foi observada a formação óssea após 21 dias de cirurgia nos dois lados, sendo o lado direito um osso mais maduro. A reação da cadeia de polimerase para DNA humano foi amplificada apenas no lado direito demonstrando que existiam células humanas nesse novo osso formado. O uso de células-tronco de dentes decíduos humanas em ratos não imunossuprimidos não evidenciou rejeição durante o período estudado. Os achados sugerem que o modelo experimental descrito poderá ser utilizado para o estudo dos defeitos ósseos cranianos em cirurgia craniofacial e que o uso de células-tronco humanas provenientes de dentes decíduos associado à membrana de colágeno parece representar uma importante estratégia para a reconstrução de tecidos ósseos e seu uso pode ser considerado uma opção para o reparo de grandes defeitos ósseos cranianos. / Repair of bone defects caused by severe trauma, resection of tumors, and congenital deformity remains a big challenge to surgeons. As a gold standard for the treatment of bone defects in clinic, autologous bone grafts are usually limited by considerable donor site mobility and available supply of tissue that can be harvested. Recently, tissue engineering has become a promising approach for bone regeneration. The main aim of this study is to create an experimental surgical protocol and evaluate the capacity of human dental pulp stem cells isolated from deciduous teeth, to reconstruct critical size cranial bone defects in nonimmunosuppressed rats. Bilateral 5 x 8 mm cranial full-thickness defects of parietal bone were created. The left side was supplied with collagen membrane only and the right side with collagen membrane and human dental pulp stem cells. Cells were used after in vitro characterization as mesenchymal cells. Animals were euthanized at 7, 21, 30 and 60 days postoperatively and cranial tissue samples were taken from the defects for histologic analysis. Analysis of the presence of human cells in the new bone was confirmed by molecular analysis. The human dental pulp stem cells lineage was positive for the four mesenchymal cell markers tested and showed osteogenic in vitro differentiation. The bone formation was observed 21 days after surgery on both sides, but a more mature bone was present in the right side. Human DNA was polymerase chain reaction-amplified only at the right side, indicating that this new bone had human cells. The use of human dental pulp stem cells in nonimmunosuppressed rats did not cause any graft rejection during this period. Our findings suggest that surgical protocol created may ultimately be used in experimental studies of cranial bone defects in craniofacial surgery and the use of human dental pulp stem cells together with collagen membrane seems to be a promising strategy for in vivo bone tissue reconstruction and their use might provide an option to repair human large cranial bone defects.

Adult stem cells

Anormalidades raniofaciais

Bone regeneration

Células-tronco

Células-tronco adultas

Craniofacial abnormalities

Dental pulp

Mesenchymal stem cell transplantation

Polpa dentária

Ratos

Rats

Regeneração óssea

Stem cells

Estudo da biodistribuição de células tronco de polpa de dente decíduo humana (CTPDDh) após o transplante intra-uterino no modelo canino (Canis lupus familiares) / Biodistribution of human immature dental pulp stem cells following in utero transplantation in canine model (Canis lupus familiaris)

Reginato, Ana Luísa

19 June 2012

O transplante intrauterino de células-tronco (TIUCT) é um método de tratamento de doenças genéticas, congênitas, hematológicas e imunológicas em um feto durante a gestação. Em pesquisa básica este modelo permite o estudo da dinâmica de migração, enxertia e estado funcional de diferentes tipos de células-tronco (CT). Estas células podem ser transplantadas em diferentes momentos do período gestacional, que pode ser dividido em três momentos do desenvolvimento fetal, sendo estes, diferentes funcionalmente. A escolha deste momento para o transplante influenciará tanto no comportamento celular quanto no resultado. Para o TIUCT são utilizadas as CT mesenquimais derivadas da medula óssea ou fetais ou hematopoiéticas. Para esta pesquisa utilizamos células-tronco derivadas da polpa dentária imatura humana (CTIPDh) as quais apresentam potencial pluripotente e propriedades imunomodulatórias. Nosso principal objetivo foi avaliar a capacidade migratória, bem como de proliferação e endereçamento (homing) das CTIPDh durante o terceiro período gestacional do desenvolvimento fetal no modelo canino. Todos os procedimentos experimentais foram elaborados sob protocolo anestésico apropriado e aprovados pelo comitê de ética da FMVZ da USP. Foram transplantadas via intraperitoneal (IP) 1x106 CTIPDh GFP+ em cada feto, durante procedimento cirúrgico de laparotomia exploratória com ultrassonografia guiada intraoperatóriamente em quatro fetos com idade gestacional aproximada de 45 dias, e outros dois fetos os quais não receberam o transplante, utilizados como controle. Avaliamos os fetos pré e pós-transplante através do ultrasson. Após sete dias, realizamos a ovário-salpingo-histerectomia (OSH) para a colheita dos fetos. Em seguida coletamos seus órgãos e tecidos os quais foram fixados em paraformoldeído a 4% e criopreservados a temperatura de -80oC. Analisamos a biodistribuição das CTIPDh dentro dos órgãos e tecidos em criocortes de 5µm sob microscopia Confocal. Constatamos o homing das CTIPDh nos órgãos derivados das linhas germinativas endodermais, ectodermais e mesodermais. No estômago e intestinos as CTIPD/GFP+ foram identificadas tanto no espaço intraglandular, como na camada muscular da mucosa; no fígado no parenquima hepático; no coração especialmente no tecido muscular do miocárdio; no cérebro nos vasos da substância branca, e cerebelo entre células de Purkinje. Na placenta estas células foram encontradas especialmente junto aos vasos. Quantificamos as CTIPD GFP+ utilizando a citometria de fluxo. Comparativamente dentre os órgãos analisados, obtivemos resultados expressivos do homing celular no miocárdio (~50%), no baço e fígado. Nossos resultados foram confirmados através das análises de imunohistoquímica e imunofluorescência utilizando os anticorpos Anti-núcleo (HuNu), Anti-CTIPD e Anti-GFP humanos. Concluímos que as CTIPDh apresentam grande potencial migratório e proliferativo após o TIUCT em fetos caninos. Estas células indiferenciadas demonstraram homing, especialmente nos tecidos: hematopoiéticos fetais (placenta, fígado e baço), tecido epitelial e glandular de órgãos, bem como de nichos perivasculares de CT. Estes dados sugerem que as CTIPD através do TIU, é uma alternativa viável, segura e promissora para o tratamento de doenças genéticas, congênitas, hematológicas e imunológicas. / Intra-uterine stem cells transplantation (IUSCT) is a method for the treatment of genetic, congenital, hematological, and immunological diseases. In basic research it provides a model for studying the dynamics of migration, graft and functional status of different types of stem cells. The cells can be transplanted in different moments of gestational period, which can be divided into quarters that are not functionally equivalent. The choice of the cells and quarter where the stem cells will be applied can influence cells behavior and results of transplantation. Fetal and adult hematopoietic or bone marrow derived mesenchymal stem cells (MSCs) were mainly used for IUSCT. We previously obtained human immature dental pulp stem cell (IDPSCs), which showed pluripotent potential and immune-compatible properties. The goal of our study was to evaluate migration capacity, proliferation and homing of IDPSCs after IUSCT during the third fetal period in dogs. All experimental procedures were approved by the Ethical Committee of the School of Veterinary Medicine and Animal Science of São Paulo University and were performed under appropriate anesthesia. 1x106 of undifferentiated GFP-positive human IDPSCs were transplanted following laparotomy and intraperitoneal injection under intra-operative ultrasound control into 5 fetuses at the 45 days of gestation. Five fetuses, which did not receive IDPSCs, were used as a control. Ultrasound analyses were performed daily before collection of the fetuses. After 7 days ovarian hysterectomy was performed, fetuses were collected; organs and tissues were isolated and fixed in 4% paraformaldehyde or cryopreserved. Biodistribution of IDPSCs within the organs and tissues were analyzed on cryosections (5µm) under Confocal Microscopy. Homing of IDPSCs was observed in organs derived from three germ lines, endoderm, ectoderm and mesoderm. In stomach and in intestine GFP IDPSCs were found in intraglandular space as well as in muscularis mucosae. In liver they appeared in hepatic parenchyma; in heart in myocardium and in brain in bold vessels, in cerebellum within Purkinje cells. Using Flow cytometry assay GFP IDPSCs graft was quantified. Among the different organs an expressive homing was observed in myocardium of heart (~50%), in spleen and liver. The IDPSCs were also found in canine placenta, especially in blood vessels. These data were confirmed using anti-human nucleus (HuNu), anti-GFP and anti-IDPSCs anti-bodies. Human IDPSCs showed high migration and proliferation potential after IUSCT in dog fetuses. Undifferentiated IDPSCs demonstrated homing in fetal hematopoietic (placenta), epithelial (gastric glands) and perivascular stem cells niches. Our data suggest that IDPSCs is a new promising source for genetic, congenital, hematological, and immunological treatment for those diseases through IUSCT.

Canine Model

Cell Traffking

Célula tronco mesenquimal

Endereçamento (Homing) celular

Fetal Medicine

GFP (green fluorescent protein)

GFP (green fluorescent protein)

Medicina fetal

Mesenchymal Stem Cell

Modelo canino

Stem Cell Homing

Tráfego celular

Efeito das células-tronco pluripotentes induzidas (iPS) no tratamento da insuficiência renal crônica experimental

Dias, Cinthia

25 August 2015

Submitted by Fabíola Silva (fabiola.silva@famerp.br) on 2016-06-21T17:12:33Z No. of bitstreams: 1 cinthiadias_dissert.pdf: 1995817 bytes, checksum: 27317444195c0604e0ed14f9ac182ee5 (MD5) / Made available in DSpace on 2016-06-21T17:12:33Z (GMT). No. of bitstreams: 1 cinthiadias_dissert.pdf: 1995817 bytes, checksum: 27317444195c0604e0ed14f9ac182ee5 (MD5) Previous issue date: 2015-08-25 / Fundação de Amparo à Pesquisa do Estado de São Paulo - FAPESP / Introduction: Stem cell therapy is a promising strategy to repair or delay the progression of chronic renal failure (CRF). Induced pluripotent stem cells (iPS) can be a therapeutic alternative due to their differentiation potential. Objectives: 1- To modify genetically stem cells from mice´s fibroblasts with lentiviral vectors containing transcription factors, transforming differentiated cells into iPS; 2- To evaluate the effect of iPS in the experimental IRC progression of IRC induced by 5/6 nephrectomy (CRF-5/6). Materials and Methods: The animals were divided according to the type of cell therapy received from extracted mesenchymal stem cells from bone marrow (MSC) or iPS and compared with CRF group 5/6 without treatment. Assessment of renal function was carried out during baseline and after 60 days. Additionally expression of genes, VEGF, IL-6, TGF-β and IL-10 were quantified in the kidney tissue, and also the analysis of implanted cell migration through the SRY gene. Immunohistochemical study evaluated the expression of CD68, α-SMA, TGF-β, PCNA and VEGF markers. Results: A significant decrease was observed in creatinine variation (p<0.05) and plasma urea (p<0.01) in animals treated with MSC and a 33%-decrease in plasma creatinine levels of animals treated with iPS cells, although non- significant when compared to the control group. The 24-hour proteinuria was significantly reduced only in the iPS group (p<0.0001). Significant improvement was observed in creatinine clearance in both treatments (p<0.04). Disease progression measured by the clearance decline rate was significantly lower only in the MSC group (p<0.05) and the urinary osmolality was similar in both treated groups. There was an increase in the expression of TGF- β gene in iPS group when compared to the control group (p<0.05) and VEGF expression in the groups treated with iPS and MSC (p<0.05). IL-6 and IL-10 showed similar expression levels in both treated groups (p=NS). Immunohistochemical analysis showed fewer macrophages and decreased cell proliferative activity (PCNA) in the iPS group p<0.05. Histological analysis showed a significant decrease in glomerulosclerosis in both treatment groups (p<0.01), tubular atrophy was similar in all groups . Leukocyte infiltration was reduced in both treatments when compared to CRF group. The SRY gene was detected in 5 out of 8 (62.5%) mice that were treated with iPS. After 60 days the tumor formations were observed in animals in which SRY gene was detected. Conclusions: MSC therapy is effective in delaying the progression of CKD. Treatment with iPS also improves some parameters of renal function but this assessment can be difficult since the onset of tumor formations; thus some care is necessary with this type of cells. / Introdução: A terapia com células-tronco (CT) é uma estratégia promissora para reparar ou retardar a progressão da insuficiência renal crônica (IRC). As células-tronco pluripotentes induzidas (iPS) podem ser uma alternativa terapêutica, em virtude de seu potencial de diferenciação. Objetivos: 1) Modificar geneticamente células de fibroblastos de ratos com vetores lentivirais contendo fatores de transcrição, transformando essas células diferenciadas em iPS; 2) Avaliar o efeito das iPS e CTM na progressão da IRC experimental induzida pela nefrectomia 5/6 (CRF5/6). Materiais e Métodos: Os animais foram divididos conforme o tipo de terapia celular recebida (célula-tronco mesenquimal extraída da medula óssea (CTM) ou com iPS) e comparados com o grupo CRF5/6. A avaliação da função renal foi realizada no período basal e após 60 dias. Adicionalmente foi quantificada a expressão dos genes, VEGF, IL-6, TGF-β e IL-10 no tecido renal e estudada a migração das células implantadas contendo o gene SRY. O estudo imunohistoquímico avaliou a expressão de marcadores CD68, α-SMA, TGF-β, PCNA e VEGF. Resultados: Redução significativa foi observada na variação da creatinina (p<0,05) e ureia plasmática (p<0,01) dos animais tratados com CTM e uma diminuição de 33% dos níveis de creatinina plasmática nos animais tratados com células iPS, porém sem significância estatística quando comparada ao grupo controle. A proteinúria de 24 horas foi reduzida somente no grupo iPS (p=0,0001) e houve melhora significativa no clearance de creatinina com ambos tratamentos (p=0,04). A progressão da doença, medida pela taxa de declínio do clearance de creatinina, foi significativamente lentificada somente no grupo CTM (p=0,04) e a osmolalidade urinária foi similar em ambos os grupos tratados. Houve aumento na expressão do gene TGF-β no grupo iPS quando comparado ao grupo controle (p=0,01) e da expressão de VEGF nos grupos tratados com iPS e CTM (p=0,01). IL-6 e IL-10 mostraram níveis de expressão semelhantes em ambos os grupos tratados (p=NS). A análise imunohistoquímica demonstrou menor número de macrófagos e diminuição da atividade proliferativa celular (PCNA) no grupo iPS p<0,05. A analise histológica mostrou diminuição significativa da glomeruloesclerose em ambos grupos tratados (p<0,01), a atrofia tubular foi semelhante nos três grupos. A infiltração leucocitária foi reduzida em ambos os tratamentos, quando comparados ao grupo CRF. O gene SRY foi detectado em 5 de 8 (62,5%) ratos que receberam tratamento com iPS. Após 60 dias foram observadas as formações tumorais nos respectivos animais em que o gene SRY foi detectado. Conclusões: A terapia com CTM é eficiente para retardar a progressão da IRC. Tratamento com iPS também melhora alguns parâmetros da função renal, mas o aparecimento de formações tumorais dificulta essa avaliação e requer cuidados com esse tipo de célula.

Insuficiência renal crônica

Células-Tronco Pluripotentes Induzidas

Renal Insufficiency, Chronic

Induced Pluripotent Stem Cells

Cell- and Tissue-Based Therapy

Mesenchymal Stem Cell Transplantation

CIENCIAS DA SAUDE

Avaliação da interface osso- implante em mandíbula de miniporcos irradiados e o uso de células-tronco mesenquimais associadas ao plasma rico em plaquetas na osseointegração / Evaluation of the bone-implant contact in the mandible of irradiated minipigs and the use of mesenchymal stem cells associated with platelet-rich plasma on osseointegration

Zanicotti, Roberta Targa Stramandinoli

24 January 2014

Introdução: Pacientes com câncer na região de cabeça e pescoço normalmente são tratados por combinação de cirurgia, radioterapia (RT) e quimioterapia. Em muitos casos, a reabilitação oral com próteses implanto-suportadas representa a melhor opção para uma recuperação funcional adequada. Entretanto, em pacientes irradiados procedimentos como exodontias e instalações de implantes dentários são fatores de risco ao desenvolvimento de osteorradionecrose. Diversos estudos experimentais têm demonstrado que o uso de células-tronco mesenquimais (CTMs) associadas a fatores de crescimento como plasma rico em plaquetas (PRP) proporciona melhora no reparo ósseo e na osseointegração, podendo ser considerada uma alternativa viável para defeitos ósseos ou injúria. Objetivos: Isolar e caracterizar as CTMs da medula óssea (MO) de miniporcos brasileiros (Minipigs BR-1), avaliar a interferência da RT e o efeito da associação de CTMs-MO+PRP no processo de osseointegração de implantes instalados em alvéolos frescos em mandíbulas de miniporcos, por análise histológica e histomorfométrica da interface osso-implante. Métodos: CTMs-MO de 12 miniporcos adultos machos foram isoladas da crista ilíaca. Após 21 dias de cultura, o potencial de diferenciação celular foi avaliado por meio de coloração e RT-PCR. O perfil imunofenotípico foi caracterizado por citometria de fluxo. Os animais foram divididos em três grupos: Grupo A (grupo controle, sem RT), Grupo B (implantes instalados 15 dias antes da RT) e Grupo C (implantes instalados três meses após a RT). A dose total de radiação para cada lado da mandíbula foi de 24 Gy, divididos em três doses de 8 Gy com intervalo de 7 dias entre as doses, a qual equivale biologicamente a aproximadamente 56 Gy, com 28 exposições de 2 Gy cada. Quatro implantes de titânio foram instalados nos alvéolos frescos, imediatamente após as extrações dos terceiro e quarto pré-molares, totalizando 48 implantes controles e 48 experimentais (uso de CTM-MO+PRP). Os animais foram eutanasiados 90 dias pós-implantação. Foram analisados o percentual de implantes perdidos (PIP), o contato osso-implante (COI), e a densidade óssea no interior das roscas (DOIR). Resultados: A eficiência de isolamento das CTMs-MO foi de 100% e em cultura as células apresentaram morfologia fibroblastóide. As células foram positivas para CD90 (88,6%), CD29 (89,8%), CD44 (86,9%) e negativas para CD34 (1,6%), CD45 (1,8%), CD14 (1,8%) e MHC-II (2,7%). As células foram diferenciadas em adipócitos, demonstrado pela presença de vacúolos lipídicos no interior das células; osteoblastos, pela mineralização da matriz extracelular e condrócitos pela presença de lacunas ao redor dos condrócitos jovens. A maior expressão gênica de AP2, ALP e COL II em células induzidas também confirmou o potencial de diferenciação (p < 0,001; p < 0,001; p = 0,031; respectivamente). Os PIP nos lados controle e experimental foram respectivamente 25,0% e 18,7% no grupo A (p = 0,686), 31,2% e 25,0% no grupo B (p=0,686) e 68,7% e 68,7% no grupo C (p =1,000). Na comparação entre os três grupos, o PIP apresentou diferença estatisticamente significante tanto no lado controle (p=0,041) como no experimental (p = 0,047). Os percentuais de COI nos lados controle e experimental foram respectivamente 39,0 e 27,7 no grupo A (p = 0,110); 20,9 e 16,7 no grupo B (p=0,347) e 16,0 e 7,1 no grupo C (p = 0,310), com diferença estatística entre os grupos tanto no lado controle (p = 0,033) quanto no experimental (p=0,046). As DOIR nos lados controle e experimental foram respectivamente 46,8 e 36,5 no grupo A (p = 0,247); 29,3 e 24,1 no grupo B (p = 0,379) e 21,0 e 11,6 no grupo C (p = 0,421), porém com diferença estatisticamente significante entre os três grupos somente no lado controle (p=0,025). Conclusões: As CTMs-MO de Minipigs BR-1, obtidas com o protocolo utilizado neste estudo são células-tronco, podendo ser aplicadas em ensaios pré-clínicos na medicina regenerativa. Os resultados mostraram um efeito negativo da radiação ionizante na neoformação óssea periimplantar tanto no grupo B quanto no C. Após a RT a perda de implantes foi três vezes maior que em osso não irradiado. A RT realizada 15 dias após a instalação dos implantes não interferiu na perda de implantes, sugerindo que este seria o melhor momento para reabilitação bucal com implantes dentários. Com a metodologia empregada, o uso da associação CTMs-MO+PRP previamente à instalação de implantes não apresentou efeito positivo significante na neoformação óssea periimplantar / Introduction: Patients with head and neck cancer are usually treated by a combination of surgery, radiotherapy (RT) and chemotherapy. In many cases, oral rehabilitation with implant-supported prostheses is the best option for a proper functional recover. However, in irradiated patients procedures as dental extractions and implants are risk factors for developing osteoradionecrosis. Several experimental studies have shown that the use of mesenchymal stem cells (MSCs) associated with growth factors such as platelet-rich plasma (PRP) provides improvement in bone regeneration and osseointegration, being considered an alternative to bone defects or injury. Objectives: To isolate and characterize MSCs from bone marrow (BM) of Brazilian minipigs (Minipigs BR-1), to evaluate the effect of RT and of BM-MSCs+PRP in the osseointegration of implants placed in fresh sockets, by histological and histomorphometric analysis of the bone-implant interface. Methods: BM-MSCs from 12 adult male minipigs were isolated from the iliac crest. After 21 days of culture, cell differentiation potential was assessed by staining and RT-PCR. The immunophenotypic profile was characterized by flow cytometry. The animals were divided into three groups: Group A (control group, no RT), Group B (implants placement 15 days before RT) and Group C (implants placement three months after RT). The total radiation dose for each side of the mandible was 24 Gy, divided into 3 doses of 8 Gy with a 7 dayinterval for each dose, which is biologically equivalent to approximately 56 Gy, with 28 sections of 2 Gy each. Four titanium implants were installed in the alveoli fresh, immediately after the extraction of the third and fourth premolars of each hemimandible, totalling 48 implants on the control side and 48 on the experimental side (using BM-MSCs+PRP). The animals were euthanized 90 days post-implantation. The implant loss rate (ILR), the bone-implant-contact (BIC) and bone density inside the threads (BDIT) were determined in each group. Results: The efficiency of the isolation of BM-MSCs was 100%, and in culture, the cells showed fibroblastoid morphology. Cells were positive for CD90 (88.6%), CD29 (89.8%), CD44 (86.9%) and negative for CD34 (1.6%), CD45 (1.8%), CD14 (1.8%) and MHC-II (2.7%). Cells were differentiated into adipocytes, as demonstrated by the presence of lipid vacuoles in the cells, osteoblasts, by mineralization of extracellular matrix and chondrocytes, by the presence of gaps around the young chondrocytes. The higher gene expression of AP2, ALP and COL II at induced cells also confirmed the differentiation potential (p < 0.001, p < 0.001, p=0.031; respectively). The ILR in control and experimental sides were respectively 25.0% and 18.7% in group A (p=0.686), 31.2% and 25.0% in group B (p = 0.686) and 68.7% and 68.7% in group C (p =1.000), with a statistically significant difference between the three groups at the control side (p = 0.041) and at the experimental side (p = 0.047). The percentage of BIC in control and experimental sides were respectively 39.0 and 27.7 in group A (p = 0.110), 20.9 and 16.7 in group B (p = 0.347) and 16.0 and 7.1 in group C (p = 0.310), with statistical significance between the groups at the control side (p = 0.033) and at the experimental side (p = 0.046). The BDIT in experimental and control sides were respectively 46.8 and 36.5 in group A (p = 0.247), 29.3 and 24.1 in group B (p = 0.379) and 21.0 and 11.6 in group C (p = 0.421), with statistical significance between the three groups only at the control side (p = 0.025). Conclusions: The BM-MSCs of Minipigs BR-1 obtained with this protocol can be used in pre-clinical regenerative medicine since they are stem cells. The results showed a negative effect of RT in peri-implant bone regeneration in group B and C. The implant loss was three times higher in irradiated bone than in non-irradiated one. The RT performed 15 days after implant placement did not interfere with implant loss, suggesting that this would be the best time for oral rehabilitation with dental implants. With this methodology, the use of BM-MSCs+PRP before the implant placement did not show any significant positive effect on peri-implant bone regeneration

Células-tronco

Dental implant

Implantes dentários

Mesenchymal stem cell transplantation

Minipigs

Miniporcos

Osseointegração

Osseointegration

Plasma rico em plaquetas

Platelet-rich plasma

Radioterapia

Radiotherapy

Stem cell

Electric Stimuli as Instructive Cues to Guide Cellular Differentiation on Electrically Conductive Biomaterial Substrates in vitro

Greeshma, T

January 2015

Directing differential cellular response by manipulating the physical characteristics of the material is regarded as a key challenge in biomaterial implant design and tissue engineering. In developing various biomaterials, the influence of substrate properties, like surface topography, stiffness and wettability on the cell functionality has been investigated widely. However, such study to probe into the influence of substrate conductivity on cell fate processes is rather limited. The need for such an understanding is based on the fact that specific tissues in the body are electrically active in nature, such as in brain, heart and skeletal muscle. These tissues make use of electrical conductivity as an effective cue for tissue homeostasis, development, regeneration and so on. Moreover, understanding the importance of underlying conductivity in basic biological processes is essential in developing electrically conductive biomaterials with the ability to simulate normal electrophysiology of the body by interfacing with bioelectric fields in cells and tissues. Electrical stimulation and charge conduction can regulate numerous intracellular signalling pathways, can interact with cytoskeleton proteins to modulate the morphology, increase protein synthesis and on the more can favor the ECM protein conformational changes. On these grounds, the present dissertation illustrates that persistent electrical activation influences the multipotency of hMSCs and acts like a promoter towards selective differentiation of hMSCs into neural/cardiomyogenic or osteogenic lineage. Besides, continual exposure to electric field stimulated conducting culture environments lead to growth arrest while enhancing differentiation. In total, this dissertation suggests the dominant role of conductivity in inducing my oblast differentiation and hMSc lineage commitment that involves EF stimulated in vitro culture conditions. Also, a knowledge base with qualitative and quantitative understanding of stem cells and their response to substrate physical properties and external field effect was developed through this comprehensive study. Such an improved understanding of the ability of hMSCs in sensing electrical conductivity may lead to the development of culture additives/conditions that better induce directed stem cell differentiation.

Tissue and Organ Culture

Biomaterial Substrates

Electroactive Ceramic Substrates

Electroactive Nano Particles

Stem Cells

Stem Cell Niche

Myoblast Cell Proliferation

Osteogenesis

Human Mesenchymal Stem Cell

Stem Cell Differentiation

Nano Science and Engineering

Geração e caracterização de linhagens de células-tronco mesenquimais de camundongo geneticamente modificadas para expressão ectópica de hIGF-1 ou hG-CSF

Gonçalves, Gabrielle Viana Martins Gonçalves

January 2015

Submitted by Ana Maria Fiscina Sampaio (fiscina@bahia.fiocruz.br) on 2016-02-19T13:49:54Z No. of bitstreams: 1 Gabrielle Viana Martins Gonçalves Geração...2015.pdf: 6199357 bytes, checksum: 605427028fc638e77cf5015ba759917c (MD5) / Approved for entry into archive by Ana Maria Fiscina Sampaio (fiscina@bahia.fiocruz.br) on 2016-02-19T13:50:09Z (GMT) No. of bitstreams: 1 Gabrielle Viana Martins Gonçalves Geração...2015.pdf: 6199357 bytes, checksum: 605427028fc638e77cf5015ba759917c (MD5) / Made available in DSpace on 2016-02-19T13:50:09Z (GMT). No. of bitstreams: 1 Gabrielle Viana Martins Gonçalves Geração...2015.pdf: 6199357 bytes, checksum: 605427028fc638e77cf5015ba759917c (MD5) Previous issue date: 2015-01 / Fundação Oswaldo Cruz, Centro de Pesquisas Gonçalo Moniz. Salvador, BA, Brasil / As células-tronco mesenquimais (CTM) constituem uma ferramenta promissora para o campo de terapia celular. Além de seu potencial de diferenciação em diferentes tipos celulares, as CTM apresentam a habilidade de secretar moléculas bioativas e, assim, exercer múltiplos efeitos biológicos, tais como indução da regeneração de tecidos lesionados, redução de fibrose e modulação do sistema imune. A superexpressão dos fatores de crescimento G-CSF e IGF-1, conhecidos por seus efeitos sobre os processos de imunomodulação, sobrevivência celular e reparo tecidual, pode ampliar as ações terapêuticas das CTM. O objetivo deste trabalho consiste em gerar e caracterizar linhagens de CTM de camundongo superexpressando hGCSF ou hIGF-1. Um sistema lentiviral de segunda geração foi utilizado para modificação de CTM para expressão ectópica dos genes de interesse. As sequências codificantes de hG-CSF e hIGF-1 foram amplificadas por PCR e subclonadas em um vetor lentiviral de transferência, contendo um promotor constitutivo. As partículas lentivirais foram produzidas a partir da cotransfecção de células da linhagem HEK293FT com os vetores constituintes do sistema lentiviral. Em seguida, as CTM obtidas da medula óssea de camundongos transgênicos para proteína fluorescente verde (GFP) foram transduzidas com partículas lentivirais infectantes contendo hG-CSF ou hIGF-1. A expressão gênica de hG-CSF ou hIGF-1 pelas linhagens geradas foi quantificada por qRTPCR, e a produção da proteína por ELISA. As linhagens foram caracterizadas por imunofenotipagem e avaliadas quanto ao seu potencial de diferenciação celular. Foram geradas duas linhagens de CTM superexpressando hG-CSF e três linhagens superexpressando hIGF-1. Todas demonstraram por qRTPCR, estar efetivamente expressando os genes de interesse. Foi possível detectar e quantificar a síntese proteica de G-CSF e IGF-1. Todas as linhagens geradas foram capazes de se diferenciar em osteócitos, condrócitos e adipócitos, demonstrando a manutenção de seu fenótipo estromal. Neste contexto, este trabalho resultou em ferramentas funcionais para a avaliação dos efeitos terapêuticos de IGF-1 e G-CSF combinados à CTM, em modelos de lesões animais, em comparação com CTM não-modificadas geneticamente. Além disso, estas ferramentas poderão ser empregadas em estudos de pesquisa básica, para melhor compreensão dos efeitos de hIGF-1 e hG-CSF sobre a biologia das CTM. / Mesenchymal stem cells (MSCs) are a promising tool for the cell therapy field. In addition to their potential for differentiation into different cell types, MSCs have the ability to secrete bioactive molecules and thus exert multiple biological effects such as induction of the injured tissue regeneration, fibrosis reduction and modulation of the immune system. The overexpression of the growth factors G-CSF and IGF-1, known for their effects on immune modulation processes, cell survival and tissue repair, can result in a magnification of MSCs' therapeutic actions. The objective of this work is to generate and characterize mouse MSCs lines overexpressing hG-CSF or hIGF-1. A second generation lentiviral system was used to modify MSCs derived from mice for the ectopic expression of the genes of interest. The coding sequences of hG-CSF and hIGF-1 were amplified by PCR and subcloned into a lentiviral transfer vector containing a constitutive promoter. The lentiviral particles were produced from the co-transfection of HEK293FT lineage cells with the lentiviral vectors. Subsequently, MSCs obtained from the bone marrow of transgenic mice for green fluorescent protein (GFP) were transduced with infectious lentiviral particles containing hG-CSF or hIGF-1. The gene expression of hG-CSF or hIGF-1 by the generated cell lines was quantified by qRTPCR, and the protein production by ELISA. The lineages were characterized by immunophenotyping and evaluated for their potential of cellular differentiation. Two lines of MSCs overexpressing hG-CSF and three lines overexpressing hIGF-1 were generated. All the cell lines demonstrated to be effectively expressing the genes of interest by qRTPCR. It was possible to detect and quantify the protein synthesis of G-CSF and IGF-1. Moreover, all the generated lines were capable of differentiating into osteocytes, chondrocytes and adipocytes, indicating the conservation of their stromal phenotype even after genetic modification. In this context, this study resulted in functional tools for evaluating the IGF-1 and G-CSF therapeutic effects when combined with MSCs, to be tested in experimental animal models in comparison to non-genetically modified MSCs. Furthermore, these tools may be employed for basic research studies, for a better understanding of the effects of hIGF-1 and hG-CSF on MSCs' biology

Pesquisa com Células-Tronco

Células Mesenquimais Estromais

Stem Cell Research,

Insulin-Like Growth Factor I

Granulocyte-colony stimulating factor

Mesenchymal Stromal Cells

Mice

Mesenchymal Stem Cell Transplantation

Reconstrução de defeitos ósseos cranianos em ratos com células-tronco de polpa dentária humana: estudo experimental de neoformação óssea / Reconstruction of cranial defects in rats with human dental pulp stem cells: experimental design of bone regeneration

André de Mendonça Costa

15 December 2009

Os defeitos da calota craniana causados por traumas severos, neoplasias, cirurgias ou deformidades congênitas representam um grande desafio para os cirurgiões. O uso de enxertia óssea autóloga continua sendo o método de tratamento padrão ouro, embora apresente morbidade na área doadora e seja considerado insuficiente para reconstrução de grandes defeitos. Recentemente, com o advento da bioengenharia tecidual, novas expectativas surgiram na regeneração óssea. O objetivo deste estudo foi desenvolver um modelo experimental em ratos para o estudo de deformidades craniofaciais e verificar se as células-tronco humanas provenientes de dentes decíduos seriam capazes de regenerar defeitos críticos em calota craniana de ratos não imunossuprimidos. Foram realizados dois defeitos ósseos de espessura total com diâmetro de 5 x 8 mm na região biparietal. O lado esquerdo foi preenchido com membrana de colágeno, enquanto o lado direito com membrana de colágeno associada a células-tronco humanas provenientes de dentes decíduos. Essas células foram caracterizadas previamente in vitro como células mesenquimais. A eutanásia dos animais foi realizada no 7º, 21º, 30º e 60º dia de pós-operatório e amostras de tecido ósseo foram extraídas para realização da análise histológica. A análise da presença de células humanas no novo osso formado foi confirmada através do estudo molecular. A linhagem de células-tronco humanas provenientes de dentes decíduos foi positiva para células-tronco mesenquimais e sua diferenciação em tecido ósseo também foi evidenciada in vitro. Foi observada a formação óssea após 21 dias de cirurgia nos dois lados, sendo o lado direito um osso mais maduro. A reação da cadeia de polimerase para DNA humano foi amplificada apenas no lado direito demonstrando que existiam células humanas nesse novo osso formado. O uso de células-tronco de dentes decíduos humanas em ratos não imunossuprimidos não evidenciou rejeição durante o período estudado. Os achados sugerem que o modelo experimental descrito poderá ser utilizado para o estudo dos defeitos ósseos cranianos em cirurgia craniofacial e que o uso de células-tronco humanas provenientes de dentes decíduos associado à membrana de colágeno parece representar uma importante estratégia para a reconstrução de tecidos ósseos e seu uso pode ser considerado uma opção para o reparo de grandes defeitos ósseos cranianos. / Repair of bone defects caused by severe trauma, resection of tumors, and congenital deformity remains a big challenge to surgeons. As a gold standard for the treatment of bone defects in clinic, autologous bone grafts are usually limited by considerable donor site mobility and available supply of tissue that can be harvested. Recently, tissue engineering has become a promising approach for bone regeneration. The main aim of this study is to create an experimental surgical protocol and evaluate the capacity of human dental pulp stem cells isolated from deciduous teeth, to reconstruct critical size cranial bone defects in nonimmunosuppressed rats. Bilateral 5 x 8 mm cranial full-thickness defects of parietal bone were created. The left side was supplied with collagen membrane only and the right side with collagen membrane and human dental pulp stem cells. Cells were used after in vitro characterization as mesenchymal cells. Animals were euthanized at 7, 21, 30 and 60 days postoperatively and cranial tissue samples were taken from the defects for histologic analysis. Analysis of the presence of human cells in the new bone was confirmed by molecular analysis. The human dental pulp stem cells lineage was positive for the four mesenchymal cell markers tested and showed osteogenic in vitro differentiation. The bone formation was observed 21 days after surgery on both sides, but a more mature bone was present in the right side. Human DNA was polymerase chain reaction-amplified only at the right side, indicating that this new bone had human cells. The use of human dental pulp stem cells in nonimmunosuppressed rats did not cause any graft rejection during this period. Our findings suggest that surgical protocol created may ultimately be used in experimental studies of cranial bone defects in craniofacial surgery and the use of human dental pulp stem cells together with collagen membrane seems to be a promising strategy for in vivo bone tissue reconstruction and their use might provide an option to repair human large cranial bone defects.

Anormalidades raniofaciais

Células-tronco

Células-tronco adultas

Polpa dentária

Ratos

Regeneração óssea

Adult stem cells

Bone regeneration

Craniofacial abnormalities

Dental pulp

Mesenchymal stem cell transplantation

Rats

Stem cells