Improvement of adoptive T-cell therapy for Cancer

Jin, Chuan

January 2016

Cancer immunotherapy has recently made remarkable clinical progress. Adoptive transfer of T-cells engineered with a chimeric antigen receptor (CAR) against CD19 has been successful in treatment of B-cell leukemia. Patient’s T-cells are isolated, activated, transduced with a vector encoding the CAR molecule and then expanded before being transferred back to the patient. However some obstacles restrict its success in solid tumors. This thesis explores different aspects to improve CAR T-cells therapy of cancer. Ex vivo expanded T-cells are usually sensitive to the harsh tumor microenvironment after reinfusion. We developed a novel expansion method for T-cells, named AEP, by using irradiated and preactivated allo-sensitized allogeneic lymphocytes (ASALs) and allogeneic mature dendritic cells (DCs). AEP-expanded T-cells exhibited better survival and cytotoxic efficacy under oxidative and immunosuppressive stress, compared to T-cells expanded with established procedures. Integrating retro/lentivirus (RV/LV) used for CAR expressions randomly integrate in the T-cell genome and has the potential risk of causing insertional mutagenesis. We developed a non-integrating lentiviral (NILV) vector containing a scaffold matrix attachment region (S/MAR) element (NILV-S/MAR) for T-cells transduction. NILV-S/MAR-engineered CAR T-cells display similar cytotoxicity to LV-engineered CAR T-cells with undetectable level of insertional event, which makes them safer than CAR T-cells used in the clinic today. CD19-CAR T-cells have so far been successful for B-cell leukemia but less successful for B-cell lymphomas, which present semi-solid structure with an immunosuppressive microenvironment. We have developed CAR T-cells armed with H. pylorineutrophil-activating protein (HP-NAP). HP-NAP is a major virulence factor and plays important role in T-helper type 1 (Th1) polarizing. NAP-CAR T-cells showed the ability to mature DCs, attract innate immune cells and increase secretion of Th1 cytokines and chemokines, which presumably leads to better CAR T-cell therapy for B-cell lymphoma. Allogeneic-DCs (alloDCs) were used to further alter tumor microenvironment. The premise relies on initiation of an allo-reactive immune response for cytokine and chemokines secretion, as well as stimulation of T-cell response by bringing in tumor-associated antigen. We demonstrated that alloDCs promote migration and activation of immune cells and prolong the survival of tumor-bearing mice by attracting T-cells to tumors and reverse the immune suppressive tumor microenvironment.

Modulating hematopoietic progenitor cell engraftment and T cell differentiation : role of conditioning and route of administration / Modulation de la prise de greffe de progéniteurs hématopoiétiques et de la différenciation T : rôle du conditionnement et de la voie d'aministration

Cochonneau, Stéphanie

26 October 2012

Les déficits lymphocytaires T peuvent être corrigés par l'administration en intraveineuse (IV) de cellules souches hématopoiétiques (CSH) provenant d'un donneur. Dans un modèle d'immunodéficience lié à l'absence de la protéine kinase ZAP-70, notre équipe avait précédemment montré que l'injection intrathymique (IT) de CSH histocompatibles conduit à une reconstitution du compartiment T plus robuste et plus rapide que dans le cas où les CSH sont administrées par voie IV. Au cours de ma thèse, je me suis intéressée à l'approche IT dans un contexte non-histocompatible, où j'ai montré que l'injection de CSH semi-allogéniques directement dans le thymus permet le développement d'une thymopoièse à long-terme, même en absence de conditionnement. De plus, j'ai également montré la persistence de progéniteurs thymiques précoces (ETP) provenant du donneur dans le thymus des souris transplantées. De façon remarquable, ces ETP retiennent un potentiel de différenciation plus divers que ceux rencontrés dans le thymus d'une souris sauvage, et leur fréquence est significativement élévée après IT, ce dernier suggérant une disponibilité accrue des niches thymiques. De façon intéressante, j'ai également montré que les progéniteurs déficients en ZAP-70 pouvaient se différencier de façon importante vers le lignage CD8 lors d'une activation constante de la voie de signalisation Notch couplée à la présence d'interleukine 7 (IL-7). Après la greffe de CSH par voie IV de souris ZAP-70-/-, en absence de conditionnemt, j'ai également identifié l'accumulation d'une population de CSH présentant un phénotype particulier (Lin- Sca 1+ c-kit-), nommée LSAPT. Ces cellules LSAPT présentent un biais de différenciation vers le lignage T γδ ainsi qu'une production élevée d'IL-17, ce qui suggère que les fonctions effectrices d'une cellule T γδ sont dépendantes de leur origine progénitrices. L'ensemble de mes résultats apporte à la fois de nouveaux éléments concernant l'identification de progéniteurs T et démontrent de l'influence/coopération entre voies de signalisation et facteurs environnementaux dans la modulation de la différenciation T et de leur fonctions effectrices. / T cell deficiencies can be corrected by the intravenous (IV) injection of donor hematopoietic stem cells (HSCs). Using a murine model of ZAP-70-/- deficiency, our group previously showed that the intrathymic (IT) administration of histocompatible HSCs leads to a more robust and long-term thymopoiesis as compared to that achieved by the classical IV route. During my PhD, I found that the direct IT administration of semiallogeneic HSCs results in a sustained donor-derived thymopoiesis, overcoming histocompatibility barriers, even in the absence of conditioning. Furthermore, I found that donor-derived early thymic progenitors (ETPs) persist in the thymi of ZAP-70-/- transplanted mice, and present increased multi-lineage potential as compared to wild-type ETPs. Importantly, the frequency of donor-derived ETPs was augmented following IT transplantation, indicative of an increased progenitor niche. Interestingly, ZAP-70-deficient HSC could themselves be driven to a CD8 lineage fate in an environment where IL-7 potentiates continuous activation of the Notch pathway. Following IV transplantation of donor HSC into non-conditioned ZAP-70-/- mice, I determined that there is an accumulation of lineage-/Sca1+ donor progenitors lacking expression of the stem cell marker c-kit, termed LSAPT. These LSAPT show a biased differentiation towards the γδ T cell lineage with high IL-17-producing effector function, suggesting that progenitor origin regulates γδ T cell fate. The ensemble of my experiments provide new insights into the identity of T lineage progenitors and demonstrate how signaling pathways as well as environmental factors modulate T cell differentiation and effector function.

Cellules souches hématopoiétiques

Thérapie cellulaire

Immunodéficiences

Zap-70

Thymocytes

Hematopoietic stem cells

Cell therapy

Immunodeficiencies

Zap-70

Thymocytes

Neuro-angiopathie diabétique : rôle des molécules de guidance neuronale / Diabetic neuro-angiopathy : role of axonal guidance molecules

Mantsounga, Chris Sorel

12 October 2015

Le diabète, caractérisé notamment par une atteinte neuro-vasculaire, représente aujourd’hui un réel problème de santé publique. Cependant plus de 30% des patients, ne peuvent bénéficier des traitements actuels (chirurgie et pharmacothérapie) d’où, la nécessité de développer de nouvelles approches thérapeutiques innovantes. L’objectif de ce travail a été de caractériser un modèle murin de neuro-angiopathie diabétique, représentatif de la pathologie humaine puis, d’évaluer les effets des molécules guidance neuronale dans la récupération de la fonction neuro-vasculaire. Dans un premier temps, nous avons mis en place un modèle et des techniques exploratoires de l’étude de la fonction neuro-vasculaire chez les souris diabétiques. Nous avons observé que suite à l’ischémie du membre inférieur, la revascularisation est altérée chez les animaux diabétiques par comparaison aux animaux non-diabétiques. A ce défaut de la fonction vasculaire, s’ajoute également un défaut de la fonction nerveuse. En effet, les paramètres électrophysiologiques, le flux sanguin nerveux, le nombre de capillaires dans le nerf sciatique et la régénération nerveuse sont fortement impactés chez les animaux diabétiques. Afin de palier au défaut de revascularisation et/ou de régénération nerveuse, nous avons proposé que le ciblage thérapeutique des molécules de guidance neuronale, éphrine-B2 et Sémaphorine-3A (Séma-3A) améliorerait la fonction neuro-vasculaire. Après ischémie, les cellules mononuclées du sang périphérique (CM-SP) provenant de patients diabétiques ou de sujets contrôles, traitées préalablement avec l’éphrine-B2/Fc, ont été ensuite injectées aux animaux diabétiques. Une nette amélioration de la revascularisation a été observée dans les groupes d’animaux traités avec l’éphrine-B2/Fc par rapport aux animaux non-traités ou traités avec des CM-SP non stimulées. Enfin, nous avons administré un inhibiteur de Séma-3A, SM-345431 (Vinaxanthone) à des animaux contrôles et diabétiques après ischémie du membre inférieur. Ce qui nous a permis de montrer que cette inhibition améliore significativement la revascularisation et régule notamment la voie de signalisation des MAPK, Erk1/2 et p38 ainsi que, les niveaux de VEGF et de TGF-β1. Dans l’ensemble, l’effet sur la fonction nerveuse périphérique n’a pas montré de différences majeures entre les groupes traités et non-traités. En somme, nos travaux ont permis de montrer que la thérapie cellulaire utilisant les CM-SP stimulées avec l’éphrine-B2/Fc, ou bien l’injection intramusculaire d’un inhibiteur de Séma-3A, à visée pro-angiogénique et/ou pro-neurorégénérative, apparaît comme une stratégie prometteuse et susceptible d’améliorer la qualité de vie des malades atteints de diabète. / Diabetes, characterized by neuro-vascular damages, is a real public health problem. More than 30% of diabetic patients can benefit from existing therapies (surgery and drug therapy), therefore, the need to develop new innovative therapeutic approaches. The objective of this work was to characterize a diabetic neuro-angiopathy mouse model, reproducible of human pathology and to assess the effects of neuronal guidance molecules in recovery of the neuro-vascular function. Firstly, we characterized a model and exploratory techniques to study the neuro-vascular functions in diabetic mice. After hindlimb ischemia induction, we observed that revascularization were impaired in diabetic animals compared to non diabetic animals. This alteration is associated of the nerve function defect. Indeed, the electrophysiological parameters, nerve blood flow, the number of capillaries in sciatic nerve and nerve regeneration are strongly affected in diabetic animals. Then, to rescue the revascularization or nerve regeneration, we proposed that the therapeutic targeting of molecules of neuronal guidance, ephrin-B2 and Semaphorin-3A (Sema-3A) would improve neuro-vascular functions. After ischemia induction, peripheral mononuclear blood mononuclear cells (PBMNC) from diabetic patients or subjects controls, pre-treated with ephrin-B2/Fc, were then injected in diabetic animals. A significant improvement of revascularization was observed in both groups, animals treated with ephrin-B2/Fc compared to untreated animals or treaties with PBMNC unstimulated. Finally, after hindlimb ischemia, we administrated a pharmacological inhibitor of Sema-3A, the SM-345431 (Vinaxanthone) in diabetic and control animals. We showed this selective inhibition significantly improved the post-ischemic revascularization, regulates the MAPK Erk1/2 and p38 signaling pathway, increased the levels of CXCL12, VEGF and TGF-β1. In our experiment conditions, we did not observe the significant effects of SM-345431 on peripheral nerve function between treated and untreated animal groups. Finally, our work showed that cell therapy using PBMNC stimulated with ephrin-B2/Fc, or the intramuscular injection of Sema-3A inhibitor referred to pro-angiogenic and/or pro-neuroregenerative, appears as a strategy promising and likely to improve the quality of life of diabetic patients.

Diabète

Angiopathie

Neuropathie

Éphrine-B2

Sémaphorine-3A

Thérapie cellulaire

Diabetes

Angiopathy

Neuropathy

Ephrin-B2

Semaphorin-3A

Cell therapy

616.462

Avaliação do efeito da terapia celular com osteoblastos na regeneração do tecido ósseo / Evaluation of the effect of cell therapy with osteoblasts on bone tissue regeneration

Souza, Alann Thaffarell Portilho de

26 January 2018

Apesar do grande potencial de regeneração do tecido ósseo, em algumas situações a extensão da lesão impede que o tecido se repare completamente. Como uma alternativa em relação aos tratamentos convencionais, a terapia celular tem sido considerada como promissora para o reparo de defeitos ósseos. No entanto, poucos estudos investigaram a terapia celular utilizando osteoblastos, portanto, avaliamos o efeito da injeção direta de osteoblastos na regeneração do tecido ósseo. Como os osteoblastos têm origens embrionárias diferentes, foi comparado in vitro o potencial osteogênico de osteoblastos derivados da crista neural, do mesoderma e de ambas as origens embrionárias. Considerando a necessidade de grande número de células para a terapia, foi comparado o efeito de uma subcultura, como meio de aumentar a quantidade de células, no potencial osteogênico dos osteoblastos. Para avaliação da regeneração dos defeitos, osteoblastos foram injetados diretamente nesses defeitos. Osteoblastos foram obtidos da calvária de ratos recém-nascidos (Wistar), sendo que os derivados da crista neural foram isolados dos ossos frontais (OB-CN); os do mesoderma isolados dos ossos parietais (OB-MS); e de ambas as origens embrionárias isolados de toda a calvária (OB-Cal). O efeito da subcultura no potencial osteogênico foi avaliado em OB-Cal ou na primeira passagem dessa cultura (OB-Cal P1). Após até 14 dias em cultura, foram avaliadas a proliferação celular, atividade de fosfatase alcalina (ALP), formação de matriz extracelular mineralizada e a expressão dos genes marcadores osteoblásticos: fator de transcrição runt-related 2 (RUNX2), ALP, osteocalcina (OC) e sialoproteína óssea (BSP). Para avaliar a regeneração do tecido ósseo, foram criados defeitos de 5 mm de diâmetro na calvária de ratos Wistar, que após 2 semanas foram tratados com 5 x 106 osteoblastos derivados de OB-Cal P1, por meio de injeção local. Ao final de 4 semanas, a formação óssea foi avaliada por microtomografia computadorizada e análise histológica. Os dados foram comparados por ANOVA, seguido do teste de Student-Newman-Keuls, ou teste t, quando apropriado, considerando o nível de significância de 5%. A comparação do potencial osteogênico em relação à origem embrionária mostrou que, os OB-MS apresentaram maior proliferação mas não houve diferença entre as culturas no evento final da diferenciação osteoblástica, que é a formação de matriz mineralizada. No entanto, como as culturas de OB-Cal apresentaram maior expressão gênica de marcadores iniciais, intermediários e finais dessa diferenciação; e considerando que, essas culturas são aquelas nas quais é possível obter o maior número de células, optamos por utilizar essas culturas na avaliação da formação óssea induzida pela terapia celular. Além disso, os resultados mostraram que os OB-Cal P1 tem seu potencial osteogênico reduzido, mas considerando que a subcultura permite a obtenção de maior número de células, são uma boa escolha para a terapia celular. Tanto que, ao avaliar in vivo a capacidade regenerativa das OBCal P1 no reparo dos defeitos ósseos, as análises microtomográficas e histológicas mostraram que que a terapia celular com injeção local de osteoblastos obtidos de fragmentos ósseos da calvária constitui uma estratégia adequada para estimular o reparo ósseo / Despite of the great potential of regeneration of the bone tissue, in some situations the extension of the lesion prevents the tissue from repairing completely. As an alternative to conventional treatments, cell therapy has been considered a promising strategy for the repair of bone defects. However, few studies investigated cell therapy using osteoblasts, therefore, we evaluated the effect of direct injection of osteoblasts on the regeneration of bone tissue. Since osteoblasts have different embryonic origins, the osteogenic potential of osteoblasts derived from neural crest, mesoderm and both embryonic origins was compared in vitro. Considering the need for a large number of cells for the therapy, the effect of a subculture, a common way to increase the amount of cells, on the osteogenic potential was also compared. Then, osteoblasts were injected directly into bone defects to evaluate the regeneration of bone tissue. Osteoblasts were obtained from the calvaria of newborn rats (Wistar), the neural crest derivatives were isolated from the frontal bones (OB-CN); those of the mesoderm isolated from the parietal bones (OB-MS); and from both embryonic origins isolated from the entire calvaria (OB-Cal). The effect of the subculture on the osteogenic potential was evaluated in OB-Cal and in its firstpassage (OB-Cal P1). After up to 14 days, all cultures were assayed for cell proliferation, alkaline phosphatase activity (ALP), mineralized extracellular matrix formation and the expression of the osteoblastic marker genes: runtrelated transcription factor 2 (RUNX2), ALP, osteocalcin (OC) and bone sialoprotein (BSP). To evaluate the effect of cell injection on bone regeneration, defects of 5 mm diameter were created in the calvaria of Wistar rats, that after 2 weeks were injected with 5 x 106 OB-Cal P1-derived osteoblasts. Vehicle injections were used as control. At the end of 4 weeks, the bone formation was evaluated by computerized microtomography and histological analysis. Data were compared by ANOVA, followed by the Student-Newman-Keuls test, or ttest, when appropriate, and the level of significance was set at 5%. The comparison of the osteogenic potential related to the embryonic origin showed that the OB-MS presented a greater proliferation but there was no difference between the cultures in the final event of the osteoblastic differentiation, that is the formation of mineralized matrix. However, as OB-Cal cultures showed greater gene expression of initial, intermediate and final markers of this differentiation; and considering that these cultures are those in which it is possible to obtain the largest number of cells, we selected these cultures for evaluating the bone formation induced by the cell therapy. In addition, the results showed that OB-Cal P1 still holds its osteogenic potential and despite being lower than that of OB-Cal as the subculture allows obtaining more cells, it has been considered as a good choice for cell therapy. In agreement with this, OB-Cal P1-derived osteoblasts injected into the bone defects were capable of inducing more bone formation than control, as revealed by microtomographic and histological analyzes. Therefore, it supports the idea that cell therapy with local injection of osteoblasts obtained from calvarial bone fragments is an adequate strategy to stimulate bone formation

Bone tissue

Cell therapy

Crista neural

Medicina regenerativa

Mesoderm

Mesoderma

Neural crest

Osteoblast

Osteoblasto

Regenerative medicine

Tecido ósseo

Terapia celular

Desenvolvimento de uma agulha para terapia celular e biópsia direta ou percutânea do coração / Development of a needle for percuttaneous heart cell therapy and biopsy

Soubihe Junior, Nathan Valle

16 May 2016

Introdução:O papel das biopsias do miocárdio, tem tido relativa importância em cardiologia, sendo método diagnóstico fundamental em um pequeno número de patologias do coração como na doença por depósito de glicogênio, amiloidose, hemocromatose e nas miocardites. Ao longo dos anos, o desenvolvimento de diferentes procedimentos que possibilitam a obtenção de fragmentos do tecido cardíaco passou por diversos estágios e evoluída miocardiectomia a céu-aberto aos cateteres endovasculares, passando por procedimentos com agulhas de punção. Estes apesar de estar em desuso atualmente, têm particular importância por proporcional acesso ao miocárdio e a cavidade ventricular esquerda. Paralelamente, a terapia celular tem sido utilizada na recuperação e preservação da função cardíaca em coronariopatia crônica e na doença de chagas. As punções biópsias do coração ressurgem como possível método alternativo de acesso ao miocárdio e implante de material biológico para terapia celular. Objetivos:apresentar instrumento de punção, biopsia e injeção intramiocárdica de material biológico, padronizar a técnica e atestar a segurança do método.A adaptação consiste em um sistema de escarificação do miocárdio para permitir melhor fixação de células-tronco. O objetivo do presente trabalho visa apenas o desenvolvimento da agulha e testar histologicamente a qualidade das biópsias. Método: O instrumento para punção e injeção de material biológico é composto por uma agulha exterior (1), chamado de acoplamento de infusão, o qual contém na sua extremidade uma ponta romba (2) e vários orifícios de 0,5 mm de diâmetro (3). Internamente, está equipado com uma agulha com um mandril fechado, que quando introduzidas no exterior, pode ser mobilizada para dentro para encher os orifícios laterais ocluindo ou soltá-los. O procedimento para a produção de microlesões micro é feito através da troca do mandril de ponta romba (durante o procedimento) por um mandril escova (4), provido de microcerdas que são estruturalmente concebidas para preencher os orifícios com a exteriorização das pequenas cerdas (5). O instrumento está equipado com um mecanismo de bloqueio, que permite a sua mobilização perfeita como uma única unidade de microlesões ou, ainda pode ser utilizado somente como uma agulha externa, de modo que pode tornar-se um instrumento de injeção biológica. Resultado: A técnica já foi testada em modelo suíno vivo mostrando sua viabilidade e segurança. Como resultados são apresentados aspectos macroscópicos e microscópicos do coração (Corantes Hematoxilina eosina, Tricrômico Masson e Azul de Evans).Conclusão: No tocante a sua função o novo Instrumento de punção/infusão tem por característica principal o fato de ser multifuncional. Permite ao operador acessar a cavidade ventricular esquerda por via transtorácica sem risco de lesão (perfuração), das artérias coronárias. Permite penetrar o miocárdio sem laceração das fibras musculares pela divulsionamento das mesmas e escarificar o miocárdio. gerando micro-lesões musculares por intermédio de seu mandril com cerdas, promovendo a \"inflamação benéfica ao processo de transplante celular. / Introduction: The role of myocardial biopsy has had relative importance in cardiology, being fundamental diagnostic method in a small number of diseases of the heart as in glycogen deposit disease, amyloidosis, hemochromatosis and in miocardites. Over the years, the development of different procedures that allow obtaining cardiac tissue fragments went through several stages and evolved from open miocardiectomy to endovascular catheters, going through procedures with puncture needles. These despite being in disuse today, have particular importance for offering access to myocardium and left ventricular cavity. At the same time, the Cellular therapy has been used in the recovery and preservation of cardiac function in chronic coronary artery disease and Chagas disease. The puncture-heart biopsies to re-emerge as a possible alternative method of access to the myocardium and implantable biomaterial for cell therapy. Objectives: Objectives: to present puncture tool, biopsy and intramyocardial injection of biological material, standardizing the technical and certify the safety of the method. The adaptation allows in a myocardial scarification system for making possible a better stem cells fixation. The objective of this study covers only the development of needle and test, macroscopically and histologically the quality of biopsies. Methods: The instrument for puncturing and injection of biological material is composed of an external needle (1), called coupling infusion, which contains at its end a blunt tip (2) and multiple 0.5 mm diameter holes (3). Internally it is fitted with a blunt mandrill needle, which when introduced into the external, can be mobilized inside to fill the lateral holes occluding or releasing them. The procedure for producing micro lesions is done by exchanging the blunt mandrill (during the procedure) for a brush-mandrill (4), provided with micro bristles that are structurally designed to fill the holes with small exteriorization of bristles (5). The instrument is equipped with a locking mechanism, which allows its perfect mobilization as one single unit for micro lesions or it can be used only as an external needle so it can become a biological injection instrument.Result: The technique has been tested in vivo pig model showing its feasibility and safety. The results are presented through macroscopic and microscopic aspects of the heart (dyes hematoxylin eosin, Masson Masson and Evans blue).Conclusion: Regarding its function the new instrument is to be multifunctional main feature. It allows the operator to access the left ventricular cavity through transthoracic without risk of injury (perforation) of the coronary arteries. It allows penetrate the myocardial laceration of the muscle fibers by divulsionamento of them and rip the myocardium. generating muscle micro-injuries through its arbor with bristles, promoting \"inflammation beneficial to the cell transplant process.Key words: heart biopsy puncture, infusion of stem cells in the heart.

biopsia do coração

cardiac cell therapy

infusão de células tronco no coração

myocardial infarction

myocardium biopsy

punção do coração

stem cell

Terapia celular do linfedema murino induzido utilizando células-tronco de membrana amniótica humana / Cell terapy for induced murine lymphedema using human amniotic membrane stem cells

Dias, João Leonardo Rodrigues Mendonça

22 December 2016

Linfedema é uma condição crônica que predispõe a uma substancial morbidade e perda da função do órgão ou tecido afetado. Ele não tem cura e em longo prazo leva a dificuldades físicas e psicológicas ao paciente, tornando-se um grande desafio para os médicos. Infelizmente, é triste constatar que aproximadamente 400 anos após a descoberta dos vasos linfáticos, não há cura para o linfedema, sendo o tratamento baseado em drenagem linfática manual através de massagem e limitadas intervenções de fisioterapia, ambas visando redução do volume de edema, o que fornece alívio parcial para os indivíduos afetados que não garantem o desaparecimento da fibrose, aparentemente irreversível. Por isso, estudos que proporcionem novas intervenções, como a terapia celular com células-tronco, são de grande interesse. Neste trabalho tivemos como objetivo realizar terapia celular de linfedema murino utilizando células-tronco da membrana amniótica. Em um primeiro momento, a obtenção do modelo de insuficiência linfática foi feita com base em Tabibiazar et al., 2006 onde uma microablação de 2 mm em toda a circunferência foi feita na cauda do animal. Entretanto, após 30 dias de indução uma regressão espontânea foi observada inviabilizando a utilização deste modelo. Após vasta pesquisa na literatura outro modelo de indução de linfedema (Shimizu et al., 2012) foi encontrado, onde os autores fazem uma microablação cirúrgica, mantendo um flap de 4 mm na região ventral. Neste trabalho os autores obtiveram um linfedema estável por no mínimo 30 dias. Com base nestes achados, o modelo de linfedema murino induzido baseado em Shimizu foi realizado e após a comprovação desta estabilidade por 60 dias, esse modelo foi utilizado para indução do linfedema. Após esta caracterização, os animais que tiveram o linfedema induzido foram submetidos a terapia celular utilizando 0,5X106 células-tronco da membrana amniótica humana (MAh) ou saco vitelino canino (SVc) no momento da indução. Animais sem lesão, com lesão (SHAM) e tratados apenas com solução fisiológica (placebo) também foram analisados. O monitoramento do linfedema na cauda foi feito através de acompanhamento clínico, registro fotográfico e mensura do diâmetro caudal a cada 2-3 dias. Ao final do estudo, os animais foram eutanasiados, tiveram suas caudas removidas e foram submetidos a avaliação dos efeitos terapêuticos da terapia celular através de análise do exsudato, análises histológicas (HE, picrossírius) e imuno-histoquímicas. A histológica obtida por coloração de HE além de apresentar o melhor resultado quando comparado com as demais técnicas, possibilitou avaliar as alterações patológicas pertinentes de cada amostra, revelando efeitos benéficos da terapia quando comparados com SHAM e placebo. Já, a coloração Picrossírius permitiu visualizar além das alterações estruturais, a inversão da predominância da expressão de colágeno do tipo I, por colágeno do tipo III nos tecidos estruturalmente comprometidos. O resultado do conjunto de análises das amostras apresentou o padrão linfedematoso esperado para os grupos SHAM e placebo, porém também mostrou um processo inflamatório muito menor e mais curto nos grupos MAh, e SVc, permitindo sugerir que a terapia celular causou um impacto favorável e os animais apresentaram resultados muito próximos aos padrões exibidos pelo grupo controle. / Lymphedema is a chronic condition, which predisposes to substantial morbidity and loss of function of the affected organ or tissue. It has no cure and, in the long term, leads patients to physical and psychological problems, which is a major challenge for doctors. Unfortunately, it is sad to realize that, approximately 400 years after the discovery of the lymphatic vessels, there is no cure for lymphedema. The treatment is based on manual lymphatic drainage through massage and limited physiotherapy interventions. Both techniques aim at reducing the volume of the edema, which provides partial relief for affected individuals, but do not guarantee the disappearance of the fibrosis, which is, apparently, irreversible. Therefore, studies that provide new interventions, such as stem cell therapy, are of great interest. In this study, we carried out induced murine lymphedema using human amniotic membrane stem cells. At first, we obtained the model of lymphatic insufficiency based on Tabibiazar et al., 2006, in which a 2 mm microablation throughout the circumference was made in the tail of the animal. However, after 30 days of induction, a spontaneous regression was observed, making this model unusable. After extensive literature research, another model of lymphedema induction (Shimizu et al., 2012) was found. In this model, the authors perform a surgical microablation, maintaining a 4 mm flap in the ventral region. The authors obtained stable lymphedema for at least 30 days. Based on these findings, the model of induced murine lymphedema, based on Shimizu et al., 2012, was performed and, after proving this stability for 60 days, this model was used for the induction of murine lymphedema. After this characterization, the animals that have had induced lymphedema were subjected to cell therapy using 0.5X106 human amniotic membrane stem cells (MAh) or canine yolk sac (SVc) at the time of induction. Animals without lesion, with lesion (SHAM) and treated only with solution were also analyzed. The monitoring of lymphedema in the tail was done through clinical follow-up, photographic record and caudal diameter measurement every 2-3 days. At the end of the study, the animals were euthanized, had their tails removed, and were subjected to evaluation of the therapeutic effects of the cell therapy through exudate analysis, histological analysis (HE, picrosirius) and immunohistochemistry analysis. The histological obtained by HE staining, besides presenting the best result when compared to the other techniques, allowed to evaluate the pertinent pathological alterations of each sample, revealing beneficial effects of the therapy when compared to SHAM and placebo. Picrosirius staining allowed to visualize, in addition to the structural alterations, the reversal of the predominance of type I collagen expression by type III collagen in structurally compromised tissues. The result of the sample analysis showed the expected lymphomatoid pattern for the SHAM and placebo groups, but also showed a much shorter and shorter inflammatory process in the MAh and SVc groups, suggesting that the cell therapy had an impact and the animals presented results very close to the standards presented by the control group.

Amniotic membrane

Anexos embrionários

Cell Therapy

Células-tronco

Fetal stem cell

Linfedema

Lymphedema

Membrana- amniótica

Stem cells

Terapia celular

Neuro-angiopathie diabétique : rôle des molécules de guidance neuronale / Diabetic neuro-angiopathy : role of axonal guidance molecules

Mantsounga, Chris Sorel

12 October 2015

Le diabète, caractérisé notamment par une atteinte neuro-vasculaire, représente aujourd’hui un réel problème de santé publique. Cependant plus de 30% des patients, ne peuvent bénéficier des traitements actuels (chirurgie et pharmacothérapie) d’où, la nécessité de développer de nouvelles approches thérapeutiques innovantes. L’objectif de ce travail a été de caractériser un modèle murin de neuro-angiopathie diabétique, représentatif de la pathologie humaine puis, d’évaluer les effets des molécules guidance neuronale dans la récupération de la fonction neuro-vasculaire. Dans un premier temps, nous avons mis en place un modèle et des techniques exploratoires de l’étude de la fonction neuro-vasculaire chez les souris diabétiques. Nous avons observé que suite à l’ischémie du membre inférieur, la revascularisation est altérée chez les animaux diabétiques par comparaison aux animaux non-diabétiques. A ce défaut de la fonction vasculaire, s’ajoute également un défaut de la fonction nerveuse. En effet, les paramètres électrophysiologiques, le flux sanguin nerveux, le nombre de capillaires dans le nerf sciatique et la régénération nerveuse sont fortement impactés chez les animaux diabétiques. Afin de palier au défaut de revascularisation et/ou de régénération nerveuse, nous avons proposé que le ciblage thérapeutique des molécules de guidance neuronale, éphrine-B2 et Sémaphorine-3A (Séma-3A) améliorerait la fonction neuro-vasculaire. Après ischémie, les cellules mononuclées du sang périphérique (CM-SP) provenant de patients diabétiques ou de sujets contrôles, traitées préalablement avec l’éphrine-B2/Fc, ont été ensuite injectées aux animaux diabétiques. Une nette amélioration de la revascularisation a été observée dans les groupes d’animaux traités avec l’éphrine-B2/Fc par rapport aux animaux non-traités ou traités avec des CM-SP non stimulées. Enfin, nous avons administré un inhibiteur de Séma-3A, SM-345431 (Vinaxanthone) à des animaux contrôles et diabétiques après ischémie du membre inférieur. Ce qui nous a permis de montrer que cette inhibition améliore significativement la revascularisation et régule notamment la voie de signalisation des MAPK, Erk1/2 et p38 ainsi que, les niveaux de VEGF et de TGF-β1. Dans l’ensemble, l’effet sur la fonction nerveuse périphérique n’a pas montré de différences majeures entre les groupes traités et non-traités. En somme, nos travaux ont permis de montrer que la thérapie cellulaire utilisant les CM-SP stimulées avec l’éphrine-B2/Fc, ou bien l’injection intramusculaire d’un inhibiteur de Séma-3A, à visée pro-angiogénique et/ou pro-neurorégénérative, apparaît comme une stratégie prometteuse et susceptible d’améliorer la qualité de vie des malades atteints de diabète. / Diabetes, characterized by neuro-vascular damages, is a real public health problem. More than 30% of diabetic patients can benefit from existing therapies (surgery and drug therapy), therefore, the need to develop new innovative therapeutic approaches. The objective of this work was to characterize a diabetic neuro-angiopathy mouse model, reproducible of human pathology and to assess the effects of neuronal guidance molecules in recovery of the neuro-vascular function. Firstly, we characterized a model and exploratory techniques to study the neuro-vascular functions in diabetic mice. After hindlimb ischemia induction, we observed that revascularization were impaired in diabetic animals compared to non diabetic animals. This alteration is associated of the nerve function defect. Indeed, the electrophysiological parameters, nerve blood flow, the number of capillaries in sciatic nerve and nerve regeneration are strongly affected in diabetic animals. Then, to rescue the revascularization or nerve regeneration, we proposed that the therapeutic targeting of molecules of neuronal guidance, ephrin-B2 and Semaphorin-3A (Sema-3A) would improve neuro-vascular functions. After ischemia induction, peripheral mononuclear blood mononuclear cells (PBMNC) from diabetic patients or subjects controls, pre-treated with ephrin-B2/Fc, were then injected in diabetic animals. A significant improvement of revascularization was observed in both groups, animals treated with ephrin-B2/Fc compared to untreated animals or treaties with PBMNC unstimulated. Finally, after hindlimb ischemia, we administrated a pharmacological inhibitor of Sema-3A, the SM-345431 (Vinaxanthone) in diabetic and control animals. We showed this selective inhibition significantly improved the post-ischemic revascularization, regulates the MAPK Erk1/2 and p38 signaling pathway, increased the levels of CXCL12, VEGF and TGF-β1. In our experiment conditions, we did not observe the significant effects of SM-345431 on peripheral nerve function between treated and untreated animal groups. Finally, our work showed that cell therapy using PBMNC stimulated with ephrin-B2/Fc, or the intramuscular injection of Sema-3A inhibitor referred to pro-angiogenic and/or pro-neuroregenerative, appears as a strategy promising and likely to improve the quality of life of diabetic patients.

Diabète

Angiopathie

Neuropathie

Éphrine-B2

Sémaphorine-3A

Thérapie cellulaire

Diabetes

Angiopathy

Neuropathy

Ephrin-B2

Semaphorin-3A

Cell therapy

616.462

Évaluation des vésicules extracellulaires dérivées de cellules cardiaques humaines comme une alternative à la greffe des cellules : applications dans un modèle d'insuffisance cardiaque chronique / Evaluation of extracellular vesicles secreted by human induced pluripotent stem cell-derived beating cardiomyocytes as an alternative to cell transplantation : applications to myocardial repair in a model of chronic heart failure

Kervadec, Anaïs

07 September 2017

L’insuffisance cardiaque (IC) est un problème majeur de santé publique. La pénurie des greffons cardiaques et la résistance de nombreux patients aux traitements conventionnels ont poussé les chercheurs à développer de nouvelles thérapeutiques dont la thérapie cellulaire. Bien que l’idée initiale de la thérapie cellulaire ait été de repeupler la partie nécrosée du cœur par l’administration de cellules viables et fonctionnelles, leur disparition rapide alors que les bénéfices perdurent dans le temps a conduit à l’hypothèse que les cellules agiraient via un mécanisme paracrine. Les vésicules extracellulaires (VE), incluant les exosomes et les microparticules, seraient principalement impliquées dans ce processus. Elles agiraient ainsi comme de véritables navettes transportant des biomolécules actives permettant d’activer des voies de réparation endogènes dans le tissu traité. Ce projet de thèse a pu mettre en évidence : 1) La non-infériorité des VE issues de progéniteurs cardiovasculaires (Pg) dérivés de cellules souches embryonnaires humaines par rapport à leurs cellules d’origine dans un modèle murin d’IC chronique (ICC). Ces VE activeraient des voies de signalisation endogènes impliquées dans la stimulation de la prolifération cellulaire, la survie cellulaire, la réparation de l’ADN et la diminution de la fibrose. Leur contenu moléculaire spécifique, et notamment les microARN, pourrait être impliqué dans ces phénomènes. 2) L’importance du choix du type cellulaire dans la production de VE efficaces sur le plan thérapeutique puisque ni les VE dérivées de cardiomyocytes matures ni celles de cellules souches mésenchymateuses n’ont eu d’effets bénéfiques sur la fonction cardiaque de souris en ICC. 3) L’implication des VE dans l’effet paracrine des cellules, confirmée par l’amélioration de la fonction cardiaque chez des souris présentant une ICC traitées avec des VE issues de Pg dérivés d’iPS. Des tests fonctionnels in vitro ont montré que les VE auraient un rôle pro-angiogénique, pro-prolifératif et amélioreraient la survie des cellules. Une thérapie a-cellulaire aurait une réelle pertinence clinique en réglant une partie des problèmes techniques, immunologiques et sécuritaires associés aux greffes de cellules. Si cette hypothèse est confirmée, il pourrait en résulter une simplification des problèmes réglementaires, une diminution des coûts de production et de ce fait une plus grande diffusion clinique de la méthode. / Heart failure (HF) is a major public health concern. The lack of donor hearts and the resistance of numerous patients to conventional treatments has led scientists to develop new therapies such as cell therapy. The initial goal of cell therapy was to repopulate the infarcted heart by directly injecting viable and functional cells. However, the rapid disappearance of the transplanted cells contrasts with their long term, ongoing functional benefits, suggesting that cells may act through a paracrine mechanism. Extracellular vesicles (EV), including exosomes and microparticles, may be key to this process, acting as shuttles to transport bioactive macromolecules that stimulate endogenous repair pathways in the host tissue. This PhD project demonstrates: 1) The non-inferiority of EV secreted by cardiovascular progenitors (Pg) derived from human embryonic stem cells as compared to their parent cells in a mouse model of chronic HF (CHF). These EV could act by the activation of endogenous signaling pathways implicated in cell proliferation, survival, DNA repair and decreased fibrosis. Their specific content, such as miRNA, could be involved in these benefits. 2) The importance of the cell type in the production of therapeutically effective EV, since EV derived from mature cardiomyocytes and mesenchymal stem cells did not improve cardiac function in mice with CHF. 3) The importance of EV in paracrine effects of cells, confirmed by the improvement of cardiac function in mice with CHF treated with EV secreted by Pg derived from iPS cells. In vitro data shows that EV might have pro-angiogenic, pro-proliferative and pro-survival effects. An acellular therapy should be clinically relevant by reducing technical, immunological and safety problems associated with cell transplantation. If this hypothesis is confirmed, regulatory concerns would be simplified and production costs reduced, facilitating large-scale production.

Vésicules extracellulaires

Thérapie cellulaire

Insuffisance cardiaque

Progéniteurs cardiovasculaires

MicroARN

Extracellular vesicles

Cell therapy

Heart failure

Cardiovascular progenitors

MicroRNA

617.95

Implante de células-tronco de polpa dentária humana associadas à biomateriais para o reparo de lesões em joelhos de ovinos / Implantation of stem cells from human dental pulp associated with biomaterials in joint damage in sheep

Silva, Marcos Vinícius Mendes

13 July 2011

A terapia celular com células-tronco (CT) surgiu nos últimos anos como uma esperança para o tratamento de doenças, sem tratamento efetivo, como a osteoartrite (OA) em joelho. Nesse trabalho utilizamos células-tronco imaturas de polpa dentária humana (CTPD) cultivadas ou não em associação com biomateriais para o tratamento de lesões osteoarticulares em joelhos de ovinos. As CTPD humanas foram transduzidas com o gene repórter, EGFP, facilitando o monitoramento das mesmas in vitro e in vivo, após o implante na articulação femorotibiopatelar de ovinos. A capacidade de adesão e acomodação das células de polpa dentária no biomaterial foi observada in vitro 24 horas e um mês após sua aplicação no mesmo, sendo a viabilidade celular semelhante em ambos os períodos, porém com uma maior dispersão celular no período mais longo, segundo as análises realizadas por técnicas de microscopia eletrônica de varredura e histologia. Ainda para a realização das análises histológicas, foram realizadas técnicas para padronizar os métodos de descalcificação e inclusão do tecido ósseo-articular, prévio aos cortes. Exames radiográficos, ultrassonográficos e artroscópicos foram feitos para acompanhar a evolução dos tratamentos. Os resultados revelaram que as CTPD humanas aderem bem ao biomaterial e que em associação possuem uma excelente capacidade aparente de reconstituição do tecido lesado. Com a realização deste trabalho, concluímos que o protocolo de terapia utilizado é um bom modelo para o estudo de OA e serve para futuras aplicações clínicas. / Cell therapy with stem cells (CT) has emerged in recent years as a hope for the treatment of diseases without effective treatment, such as osteoarthritis (OA) in knee. In this work we use stem cells from immature human dental pulp (hSCIDP) in association or not with biomaterials for the treatment of osteoarticular lesions in sheep´s kneef. The human hSCIDP were transduced with the reporter gene EGFP, thus making easier monitoring these in vitro and in vivo after implantation in sheep´s femorotibiopatelar joint. The capacity of adhesion and accommodation of dental pulp cells in the biomaterial in vitro was observed 24 h and one month after its application, resulting in similar cell viability in both periods, but with a greater cell dispersion in the longer, period, according to analysis performed by scanning electron microscopy and histology. Moreover, some histological techiniques were performed to standardize the methods for inclusion and decalcification of bone tissue joints. Radiographic, ultrasonographic and arthroscopic analyses were made to monitor the progress of treatment. The results revealed that the human hSCIDP adhere well to the biomaterial and have an excellent apparent reconstitution of damaged tissue. With this work, we conclude that the therapy protocol used is a good model for studying OA and useful for future clinical applications.

biomateriais

biomaterials

cell therapy

célula-tronco de polpa dentária

dental pulp stem cell

osteoarthritis

osteoartrite

ovinos

sheep

terapia celular

Terapia celular para isquemia cardíaca: efeitos da via de administração, do tempo pós-lesão e do uso biopolímero para a retenção das células e função miocárdica / Cell therapy for ischemic cardiac disease: effect of different routes for cell administration, time post-mi and the use of a fibrin polymer for cardiac cell retention and myocardial function

Nakamuta, Juliana Sanajotti

29 January 2009

A terapia celular representa uma abordagem promissora para o tratamento de cardiopatia isquêmica, porém aspectos-chave dessa estratégia permanecem incertos. Neste trabalho avaliamos a eficiência da retenção cardíaca de células da medula óssea marcadas com tecnécio (99m Tc-CMO) transplantadas, de acordo com o tempo após o infarto (1, 2, 3 e 7 dias) e a via de administração dessas células (intravenosa [IV], intraventricular [IC], intracoronariana [ICO] e intramiocárdica [IM]), em ratos submetidos à isquemia-reperfusão cardíaca [I&R]. Após 24 horas, a retenção cardíaca de 99m Tc-CMO foi maior na via IM comparada com a média alcançada pelas demais (6,79% do total injetado vs. 0,53%). O uso de fibrina como veículo para a injeção de células incrementou a retenção em 2.5 vezes (17,12 vs. 6,84%) na via IM. Curiosamente, quando administradas após 7 dias, a retenção de células na via IM alcançou valores próximos dos observados com da matriz de fibrina injetadas 24 h após a I&R (16,55 vs. 17,12%), enquanto que para as demais vias as mudanças foram insignificantes. Nos animais em que as CMO foram administradas por via intramiocárdica 24 horas após a I&R, com ou sem fibrina, observou-se melhora significante do desempenho cardíaco frente ao estresse farmacológico com fenilefrina quando comparados aos controles. Em conjunto, os dados mostram a biodistribuição das células injetadas após a I&R por 4 diferentes vias e 4 intervalos de tempo pós-lesão e indicam que a via IM é a que produz maior retenção cardíaca. O uso do biopolímero de fibrina aumenta a retenção das células e a eficácia deste efeito sobre a função cardíaca e mortalidade dos animais em longo prazo, além de 30 dias pós I&R, merecerá ser investigada no futuro. / Cell therapy represents a promising approach for ischemic cardiac disease, but key aspects of this strategy remain unclear. We examined the effects of timing and route of administration of bone marrow cells (BMCs) after myocardial ischemia/reperfusion injury (I&R). 99mTc-labeled BMCs were injected by 4 different routes: intravenous (IV), left ventricular cavity (LV), left ventricular cavity with temporal aorta occlusion (LV+) and intramyocardial (IM). The injections were performed 1, 2, 3, or 7 days after infarction. Cardiac retention was higher following the IM route compared to the average values obtained by all other routes (6.79% of the total radioactivity injected vs. 0.53%). Use of a fibrin biopolymer as vehicle during IM injection led to a 2.5-fold increase in cardiac cell accumulation (17.12 vs. 6.84%). Interestingly, the retention of cells administered with culture medium at day 7 post-MI by the IM route was similar to that observed when cells were injected 24 h post-IM using fibrin (16.55 vs 17.12%), whereas no significant changes were observed for the other routes. Cell therapy 24 hs post MI by IM injection, with or without fibrin, resulted in comparable improvement in cardiac function under pharmacological stress compared to control animals. Together, we provide evidence for the biodistribution of 99mTc-labeled BMCs injected post MI by 4 different routes and times post-injury, which shows that the IM rout is the most effective for cardiac cell retention. The use of a fibrin biopolymer further increased cardiac cell retention and its potential long term benefits, beyond 30, on reducing mortality and improving cardiac function deserve to be explored in the future.

Bone marrow cells

Cardiac function

Cell therapy

Células da medula óssea

Fibrin

Fibrina

Função ventricular

Infarto do miocárdio

Myocardial infarction

Terapia celular