Análise imunoenzimática sérica de cães atópicos submetidos ao transplante de células-tronco mesenquimais – avaliação do perfil inflamatório

Berbel, Beatriz Rodrigues.

January 2018

Orientador: Luiz Henrique de Araújo Machado / Resumo: A dermatite atópica canina (DAC) apresenta uma complexa relação entre a inflamação e a barreira cutânea. O envolvimento de resposta imunológica do tipo Th2 e Th1, bem como produção de citocinas pró inflamatórias têm sido relacionadas com o padrão inflamatório, sinais clínicos e a gravidade da doença. As células-tronco mesenquimais (CTM) possuem características imunomoduladoras, sendo altamente sugeridas para reduzir a produção de citocinas inflamatórias e melhorar a qualidade de vida de animais atópicos. Visando comparar o efeito das CTM em cães atópicos, realizamos um estudo randomizado, simples-cego, com período inicial de placebo em seis cães. Foram comparados os perfis séricos inflamatórios por ELISA, além de resposta clínica por CADESI-04 e escala analítica de prurido. Ao final do estudo, os cães melhoraram significantemente o padrão clínico por CADESI-04 (p < 0,001) e pela escala de prurido (p < 0,05), contudo não houve mudança no perfil inflamatório das citocinas. Foi observado reações adversas em dois animais do estudo. Concluindo, o uso de CTM pode ser eficaz na melhora da sintomatologia relacionada a doença. / Abstract: Canine atopic dermatitis (CAD) presents a complex relationship between inflammation and cutaneous barrier. The involvement of Th2 and Th1 type immune responses, as well as the production of proinflammatory cytokines have been related to inflammatory pattern, clinical signs and severity of disease. Mesenchymal stem cells (MTCs) have immunomodulatory characteristics and are highly suggested to reduce the production of inflammatory cytokines and to improve quality of life of atopic animals. In order to compare effects of MTCs on atopic dogs, we performed a randomized, simple-blind, placebo-controlled study in 6 dogs. Inflammatory serum profiles were compared by ELISA, in addition to clinical response by CADESI-04 and analytical pruritus scale. At the end of the experiment, dogs significantly improved the clinical standard for CADESI-04 (p <0.001) and pruritus scale (p <0.05), however, there was no change in the inflammatory cytokine profile. Adverse reactions were observed in two study animals. Concluding that the use of CTM may be effective in improving symptoms related to disease / Mestre

Terapia celular.

imunomodulação

barreira cutânea

Prurido.

cellular therapy

immunomodulation

skin barrier

Prurido.

Le TGFβI dans la physiopathologie de l'arthrose et son rôle dans l'effet thérapeutique des cellules souches mésenchymateuses / The TGFβI in the pathophysiology of osteoarthritis and its role in mesenchymal stem cell therapeutic effect

Ruiz, Maxime

22 May 2018

L’arthrose est une maladie ostéoarticulaire fréquente et sans traitement curatif. Elle se manifeste par une dégénérescence du cartilage, associée à une altération des autres tissus de l’articulation. Dans ce contexte, les cellules souches mésenchymateuses (CSM) démontrent un effet thérapeutique. Afin d’identifier de nouveaux médiateurs de l’homéostasie articulaire, nous avons analysé le secrétome des CSM en nous focalisant sur les membres de la famille du facteur de croissance transformant β (TGFβ), une voie centrale dérégulée dans l’arthrose.Cette approche nous a permis d’identifier la protéine induite par le TGFβ (TGFβI ou βIGH3), pour laquelle nous avons évalué le rôle dans la différenciation des CSM et comparé l’expression dans les tissus articulaires de patients arthrosiques et de sujets sains.Nous montrons l’importance du TGFβI dans la régulation des processus de différenciation osseuse et chondrogénique des CSM. Nous mettons également en évidence une dérégulation au niveau transcriptionnel et protéique de ce facteur dans le cartilage, l’os sous-chondral ainsi que les CSM de patients arthrosiques. En testant son implication dans l’effet thérapeutique des CSM sur des modèles d’arthrose in vitro et in vivo, nous montrons que la diminution de son expression dans les CSM annule leur effet thérapeutique dans les modèles d’arthrose. Cet effet chondroprotecteur du TGFβI est associé à une inhibition du remodelage osseux et de la calcification des tissus mous articulaires.L’ensemble de nos résultats démontrent l’importance de la régulation de la voie TGFβ, et plus particulièrement du TGFβI, dans l’homéostasie articulaire. En parallèle, nos travaux illustrent le rôle de ce facteur dans l’effet thérapeutique des CSM, et suggèrent que l’altération de son expression dans les CSM de patients arthrosiques soit à l’origine d’une diminution de leur potentiel régénératif. / Osteoarthritis (OA) is the most common form of joint diseases without curative treatments. The disease is mainly characterized by the degradation of articular cartilage which is associated with other pathological changes in joint tissues. In this context, mesenchymal stem cells (MSC) have demonstrated a therapeutic effect. In order to identify new mediators involved in articular homeostasis, we analyzed MSC secretome, focusing on the transforming growth factor β (TGFβ) members, a central pathway dysregulated in OA.This approach allows us to identify the TGFβ induced protein (TGFβI or βIGH3). In the present study, we evaluated its role in the differentiation of MSC and compared its expression in articular tissues from OA patients and healthy donors.We highlight the importance of TGFβI in the regulation of differentiation of MSC towards bone and cartilage. We also demonstrate its dysregulation at both transcript and protein level in cartilage, bone and MSC from OA patients. We then evaluated its role in the therapeutic effect of MSC in vitro and in vivo and demonstrated that its decreased expression in MSC is associated with a loss of their therapeutic effect in OA models. The chondroprotective effect of TGFβI is associated with an inhibition of bone remodeling and calcification of soft articular tissues.Together, our results highlight the importance of the TGFβ pathway, and specially of TGFβI regulation, in joint homeostasis. Moreover, our work demonstrates its role in the therapeutic effect of MSC, suggesting that its dysregulation in OA MSC could lead to a decreased regenerative potential.

Arthrose

Cellules Souches Mésenchymateuses

Thérapie Cellulaire

Osteoarthritis

Mesenchymal Stem Cells

Cellular Therapy

Estabelecimento e caracterização de células-tronco fetais de membrana amniótica canina em diferentes estágios gestacionais / Establishment and characterization of stem cells from fetal canine amniotic membrane at different stages of gestation

Caroline Pinho Winck

21 December 2012

A membrana amniótica é uma membrana translucida sendo a membrana mais interna da cavidade amniótica, formada por uma monocamada de células epiteliais disposta sobre uma membrana basal. Com o crescente interesse na utilização de células-tronco provenientes de anexos fetais, esta se torna uma promissora fonte de células-tronco. Sendo assim em trabalho anterior realizado pelo nosso grupo tivemos como objetivo, o estabelecimento da cultura celular e caracterização das células-tronco fetais de membrana amniótica de cão para verificar se a mesma pudesse ser uma nova fonte celular a ser usada nos protocolos de terapia celular, uma vez que os cães têm sido considerados modelos animais atraentes para avaliar novas drogas ou realizar ensaios pré-clínicos. As células de membrana amniótica obtidas a partir do trabalho anterior foram caracterizadas in vitro, observando-se características semelhantes a outras células-tronco mesenquimais. Porém, quando foi analisado o seu o seu potencial carcinogênico observamos a formação de um tumor de crescimento rápido, aproximadamente um mês, após o inóculo dessas células em 10 camundongos imunossuprimidos nude, sendo o tumor identificado histologicamente como um carcinoma embrionário. Diante deste comportamento acreditamos ser de extrema importância analisar células provenientes de novas coletas verificando se a mesmas podem se comportar como as anteriormente estudadas. Com isso, temos como objetivo deste trabalho estabelecer e caracterizar as células provenientes de duas novas coletas em diferentes períodos gestacionais visando verificar se estas células se comportam da mesma que as anteriores isso é se quando inoculadas nos animais formam tumor e assim poder ter certeza de que essas células são ou não, boas alternativas para terapia celular. As células obtidas nestas novas coletas têm características de células-tronco mesenquimais expressando alguns marcadores, tem curva de crescimento semelhante às células-tronco mesenquimais, se aderem ao plástico e se diferenciaram em adipócitos. Diferentemente das células obtidas no estudo anterior estas células não geraram tumor quando injetadas em camundongos imunossuprimidos, nude em até 60 dias após inoculação. / Amniotic membrane is a membrane translucent with the inner membrane of the amniotic cavity, formed by a monolayer of epithelial cells disposed on a basal membrane. With the growing interest in the use of stem cells from fetal membranes, this becomes a promising source of stem cells. So in a previous study conducted by our group we aim, the establishment of cell culture and characterization of fetal stem cells from amniotic membrane from dog to see if it could be a new source cell to be used in cell therapy protocols, Once the dogs have been considered attractive animal models to evaluate new drugs or performing pre-clinical tests. The cells from amniotic membrane obtained from previous work were characterized in vitro, observing characteristics similar to other mesenchymal stem cells. But when it was analyzed its its carcinogenic potential observed the formation of a fast-growing tumor, approximately one month after inoculation of these cells into immunocompromised nude mice 10, and the tumor identified histologically as embryonal carcinoma. Given this behavior we believe is extremely important to analyze cells from new collections by checking if the same can behave like those previously studied. With this, we aim of this work to establish and characterize the cells from two new collections at different gestational periods to verify whether these cells behave the same as the previous ones is that when inoculated into animals form tumor and thus be able to make sure that these cells are either not good alternatives for cell therapy. The cells obtained in these new collections has characteristics of mesenchymal stem cells expressing some markers, growth curve is similar to mesenchymal stem cells, adhere to plastic and differentiated into adipocytes. Unlike the cells obtained in the previous study these cells did not generate tumors when injected into immunocompromised mice, nude within 60 days after inoculation.

Cão

Células-tronco

Membrana amniótica

Terapia celular

Amniotic membrane

Cellular therapy

Dog

Análise do potencial terapêutico de células derivadas do órgão vômeronasal de coelhos da raça Nova Zelândia / Analysis of therapeutic potential of cells from vomeronasal organ of rabbits New Zealand

Marcio Nogueira Rodrigues

31 October 2014

O órgão vômeronasal (OVN), é uma estrutura que detecta feromônios, emitindo sinais que modulam o comportamento social e reprodutivo. Possui células-tronco que se dividem e migram para substituir neurônios ao longo da vida. O objetivo deste estudo foi isolar e caracterizar as células derivadas do órgão vômeronasal de coelhos da raça Nova Zelândia e testar seu potencial terapêutico no tratamento da ablação da via vômeronasal. Utilizou-se 10 coelhos machos com 120 dias, sendo 9 submetidos a ablação do OVN e 1 utilizado para coleta de material para cultivo celular. Foram testados três meios de cultivo DMEM High Glucose, DMEM/F12 e MEM Alfa. No cultivo celular observou-se maior confluência e crescimento quando utilizado o DMEM High Glucose, confirmado pelos ensaios de MTT e Azul de Trypan. Na imunocitoquímica observou-se PCNA+, OCT4+, Nanog+, GFAP+, Vimentina+, Nestin+, Stro-1+, B-Tubulina+, CK-18+, CD73+, CD90+, CD105+, CD34-, CD117- e CD45-. Na citometria de fluxo foi observado PCNA+, OCT-3/4+, Nanog+, GFAP+, Vimentina+, Nestin+, Stro-1+, B-Tubulina+, CK-18+, CD73+, CD90+, CD105+, CD34- e CD45-. Na análise molecular foi possível observar a expressão de CD73, CD105, Oct-4, Nestina, Vimentina e GAPDH. Funcionalmente as células se diferenciaram em adipócitos, osteócitos e condrócitos e não possuem potencial tumorigênico em camundongos Balb-cnu/nu. A análise hormonal demonstrou que nos animais tratados após 7 e 14 dias não houveram diferenças significativas entre os grupos tratados e controles. No grupo após 21 dias notou-se uma diferença de 50% nos níveis hormonais no grupo tratado em relação ao grupo controle. Na análise da expressão para eGFP observou-se que os animais tratados após 7 dias as células injetadas formavam aglomerados celulares na região subjacente ao epitélio sensitivo. Após 14 dias continuavam a circundar o epitélio neurosensorial e após 21 dias observou-se pouca expressão de células localizadas apenas na região subjacente ao epitélio neurosensorial. A linhagem celular derivada do órgão vômeronasal possui uma população de células progenitoras, que foram visualizadas no foco da lesão, demonstrando sua capacidade de migração, o que a torna uma boa fonte para terapia celular em ablação da via vômeronasal. / The vômeronasal organ (VNO) is a structure that detects pheromones, emits signals that modulate social and reproductive behavior. It has stem cells that divide and migrate to replace neurons throughout life. The aim of this study was to isolate and characterize cells derived from the vômeronasal organ from rabbits New Zealand and test their therapeutic potential in the treatment of ablation of the vômeronasal pathway. 10 male rabbits with 120 days were submitted to the ablation of VNO and 2 controls animals used to collect material for cell culture. Three different culture media DMEM High Glucose, Alpha MEM and DMEM/F12 were tested. In cell culture observed greater confluence and growth when used DMEM High Glucose, confirmed by MTT assay and Trypan Blue. In immunocytochemistry observed PCNA + OCT4 +, Nanog +, GFAP + Vimentin +, Nestin +, Stro-1 + B-tubulin +, CK-18 +, CD73 +, CD90 +, CD105 +, CD34-, CD117-and CD45-. In flow cytometry was observed PCNA + OCT-3/4 + Nanog +, GFAP + Vimentin +, Nestin +, Stro-1 + B-tubulin +, CK-18 +, CD73 +, CD90 +, CD105 +, CD34-and CD45-. Molecular analysis was possible to observe the expression of CD73, CD105, Oct-4, Nestin, vimentin and GAPDH. Functionally, the cells differentiate into adipocytes, osteocytes and chondrocytes have not Balb-cnu/nu tumorigenic potential in mice. Hormonal analysis demonstrated that animals treated after 7 days and 14 days there were no significant differences between treated groups and controls. In group after 21 days noticed a 50% difference in hormone levels in the treated group compared to the control group. In expression analysis for eGFP was observed that the treated animals after 7 the injected cells formed cell clusters in the underlying sensory epithelium region. After 14 days continued to surround the neurosensory epithelium and after 21 days there was little expression in the cells located just behind the neurosensory epithelium region. The cell line derived from the vômeronasal organ has a population of progenitor cells that were visualized in the lesion focus, demonstrating their ability to migrate, which makes it a good source for cell therapy in ablation of the vômeronasal pathway.

Cavidade nasal

Células-tronco

Órgão vômeronasal

Terapia celular

Cellular therapy

Nasal cavity

Stem Cells

Vômeronasal organ

Estabelecimento e caracterização de células-tronco fetais de membrana amniótica de cão / Establishment and characterization of fetal stem cells from amniotic dog\'s membrane

Evander Bueno de Lima

15 March 2012

A membrana amniótica humana vem assumindo um papel de extrema importância na medicina regenerativa nos últimos anos, principalmente na área de dermatologia e oftalmologia, sendo seu uso promissor no tratamento de doenças cuja terapêutica atual é pouco eficaz. Além disso, na membrana amniótica humana encontram-se células-tronco mesenquimais, que apresentam plasticidade e vem sendo aplicadas para a regeneração de tecidos. Entretanto, muito pouco se sabe sobre a capacidade plástica e o uso de células-tronco de membrana amniótica de animais, já que a literatura a este respeito, não é tão ampla quanto à de humanos. Neste projeto estabelecemos a cultura de células-tronco de membrana amniótica (MA) de fetos caninos, caracterizando as células in vitro e in vivo. As células de MA foram obtidas a partir de um procedimento cirúrgico de histerectomia em cadelas prenhas, durante campanhas de castração da prefeitura da cidade de São Paulo. As células de MA foram caracterizadas in vitro, observando-se características semelhantes a outras células-tronco mesenquimais. Porém, quando foi analisado o seu comportamento in vivo, observamos a formação de um tumor de crescimento rápido, aproximadamente um mês, após o inóculo dessas células em 10 camundongos imunossuprimidos nude, sendo o tumor identificado histologicamente como um carcinoma embrionário. Diante do comportamento biológico formando um tumor in vivo, inferimos que células-tronco provenientes de membrana amniótica de cães não devem ser usadas para aplicação com objetivos terapêuticos em animais, pelo menos até que novas coletas sejam realizadas para que se possa confirmar ou não este comportamento. / The human amniotic membrane has taken an extremely important role in regenerative medicine in recent years, especially in dermatology and ophthalmology, and its promising use in treating diseases for which current therapy is ineffective. In addition, the amniotic membrane has human mesenchymal stem cells, which exhibit plasticity and have been applied to tissue regeneration. However, very little is known about the plastic capacity and the use of stem cells from amniotic membrane of animals, since the literature in this regard, it is not as broad as those of humans. In this project we established a culture of amniotic stem cells of dog, characterizing these cells in vitro and in vivo. The cells were obtained from a surgical procedure for hysterectomy in pregnant bitches, during castration\'s campaigns of the São Paulo\'s municipality. The cells were characterized in vitro, observing characteristics similar to other mesenchymal stem cells. In spite of their behavior, in vivo we observed the formation of a fast-growing tumor about a month after the inoculation of these cells in 10 immunosuppressed mice, being the tumor identified histologically as an embryonic carcinoma. Considering the biological behavior of forming a tumor in vivo, we infer that stem cells from amniotic membrane of dogs should not be used for application for therapeutic purposes in animals, at least until other collections are carried out so that it can be confirmed or not.

Cão

Carcinoma embrionário

Células-tronco

Membrana amniótica

Terapia celular

Amniotic membrane

Carcinoma

Cellular therapy

Dog

Microfluidic and computational technologies to improve cell therapy manufacturing

Anandakumaran, Priya Nivashini

January 2021

Cell therapies are an emerging form of therapy, with the potential to treat and cure a variety of diseases. As more cell therapies become approved and commercialized, challenges remain in the manufacturing of these often single-batch products due to their complexity and patient-to-patient variability, which limit their cost-effectiveness and reproducibility. In this dissertation, we aim to improve the manufacturing of two different cell therapies, namely, organoid-based cell therapies using hydrogel scaffolds, and adoptive cell therapies using deep learning and microfluidics, to facilitate their widespread clinical use. First, we develop new tools to manufacture organoids, which are widespread in drug-screening technologies, but have been sparingly used for cell therapy as current approaches for producing self-organized cell clusters lack scalability or reproducibility. Here, we use alginate microwell scaffolds to form pre-vascularized organoids composed of endothelial cells and mesenchymal stem cells, where the size and structure can be readily tuned by varying the cell source, ratio of cells, or size of the microwells. Furthermore, by uncrosslinking the alginate scaffold, the organoids can be harvested in a gentle manner without damaging their structure or impairing their functionality. Finally, we assess the ability of the pre-vascularized organoids to restore vascular perfusion in a mouse model of hindlimb ischemia. By making use of the dynamic nature of hydrogels, this method can offer high yields of reproducible, self-organized multicellular aggregates for use in cell therapies. Next, we shift our focus to the identification of antigen-specific T cells, which is a critical step in the manufacturing of adoptive cell therapy. Conventional techniques for selecting antigen-specific T cells are time-consuming, making them difficult to adapt for large-scale manufacturing, and are limited to pre-defined antigenic peptide sequences. Here we train a deep learning model to rapidly classify videos of antigen-specific CD8+ T cells by distinguishing the distinct interaction dynamics (in motility and morphology) between cognate and non-cognate T cells and dendritic cells (DCs). The model is able to classify high affinity antigen-specific CD8+ T cells from OT-I mice with an area under the curve (AUC) of 0.91, and generalizes well to other types of high and low affinity CD8+ T cells. We also show that the experimental addition of anti-CD40 antibodies amplifies the differences between cognate and non-cognate T cells and DCs, thereby improving the model’s ability to discriminate between them. This workflow can be used to better understand the role of cognate T cell – DC interactions in the pathogenesis of cancer and autoimmune diseases, and can be integrated into a device to simplify and accelerate the selection of antigen-specific T cells for use in adoptive cell therapy. Finally, we sought to develop a device to address two other issues associated with the selection of antigen-specific T cells: low-throughput screening, and the inability to assess a mixed population of T cells against a library of antigens, both of which are necessary to identify rare T cells, and improve clinical outcomes of the corresponding cell therapy. A few specialized assays exist that can assess T cells against multiple antigens, but they are often limited by an increased manufacturing burden. Here, we develop a microfluidic artificial lymph node, which is inspired by the efficient selection of antigen-specific T cells in vivo. In particular, our flow-through design consists of multiple compartments, each containing microcarrier beads coated with DCs presenting a distinct antigen, such that T cells that are flowed sequentially through each compartment can stably arrest to cognate DCs, becoming captured in the appropriate compartment. We test a single-compartment device computationally using agent-based simulations, and experimentally using a mixed population of antigen-specific and wild-type (WT) (non-specific) T cells, and in both cases we observe a preferential accumulation of cognate, antigen-specific T cells. This proof-of-concept single-compartment device can be readily scaled up to systematically test many T cells against multiple antigens. Underlying this work is the development of technologies to enable the large-scale manufacturing of cell therapies. Cell therapies are undergoing a transformation to a new class of therapeutic modality, and there are many emerging questions, especially related to the scale-up and scale-out of production processes. Together, this work aims to engineer technologies to improve cell therapy manufacturing processes, facilitate their clinical translation, and ensure their availability to all patients who would benefit from them.

Immunology

T cells--Therapeutic use

Lymph nodes

Dendritic cells

Antigens

Cellular therapy

Potentiel thérapeutique des progeniteurs endothéliaux dans le traitement de la défaillance ventriculaire droite secondaire à l'hypertension pulmonaire / Therapeutic potential of endothelial progenitors cells in the treatment of right ventricular dysfonction secondary to pulmonary hypertension

Loisel, Fanny

17 January 2019

L’hypertension pulmonaire est une pathologie rare et grave résultant d’une obstruction des artères pulmonaires et provoquant une dysfonction cardiaque droite, caractérisée par une ischémie. C’est cette dysfonction cardiaque qui conditionne la survie des patients.L’objectif de ce travail de thèse était de mettre au point une thérapie cellulaire permettant de soutenir le ventricule droit et ainsi de prolonger la survie des patients.Une thérapie cellulaire à base de cellules endothéliales progénitrices, capables d’induire et de participer à l’angiogénèse, a été administrée par voie intracoronaire, intracardiaque et par l’intermédiaire d’un patch chez un modèle porcin d’hypertension pulmonaire.Nous avons mis en évidence une amélioration de la fonction cardiaque droite, une augmentation de la densité capillaire et une diminution de l’hypertrophie suite à l’administration intracoronaire. En revanche, les injections de cellules dans le ventricule droit ont révélé une augmentation de la densité capillaire de manière localisée mais n’ont pas permis d’améliorer la fonction cardiaque. Enfin, l’administration par patch n’a pas permis la migration cellulaire dans le ventricule droit. En conclusion, l’injection intracoronaire donne des résultats pré-cliniques encourageants en améliorant la fonction du ventricule droit chez un modèle animal d’hypertension pumonaire. Ces résultats sont à confirmer sur d’autres modèles et sont à compléter par des études mécanistiques approfondies. / Pulmonary perturbation is a rare and serious pathology resulting from obstruction of the pulmonary arteries and causing right cardiac dysfunction, characterized by ischemia. It is this cardiac dysfunction that conditions the survival of patients.The goal of this thesis work was to develop a cell therapy to support the right ventricle and thus prolong the survival of patients.Cell therapy with endothelial progenitor cells, capable of inducing and participating in angiogenesis, has been administered intracoronally, intracardiacally and via a patch in a porcine model of pulmonary hypertension.We found improvement in right heart function, increased capillary density, and decreased hypertrophy following intracoronal administration. In contrast, injections of cells into the right ventricle revealed an increase in capillary density in a localized manner but failed to improve cardiac function. Finally, patch administration did not allow cell migration into the right ventricle. In conclusion, intracoronal injection gives encouraging preclinical results by improving the function of the right ventricle in an animal model of pulmonary hypertension. These results are to be confirmed on other models and are to be completed by detailed mechanistic studies.

Hypertension pulmonaire

Thérapie cellulaire

Défaillance ventriculaire droite

Pulmonary hypertension

Cellular therapy

Right ventricular dysfonction

Methods and mechanisms to improve endothelial colony forming cell (ECFC) survival and promote ECFC vasculogenesis in three dimensional (3D) collagen matrices in vitro and in vivo

Kim, Hyojin

30 June 2015

Indiana University-Purdue University Indianapolis (IUPUI) / Human cord blood (CB) derived circulating endothelial colony forming cells (ECFCs) display a hierarchy of clonogenic proliferative potential and possess de novo vessel forming ability upon implantation in immunodeficient mice. Since survival of ECFC post-implantation is a critical variable that limits in vivo vasculogenesis, we tested the hypothesis that activation of Notch signaling or co-implantation of ECFC with human platelet lysate (HPL) would enhance cultured ECFC vasculogenic abilities in vitro and in vivo. Co-implantation of ECFCs with Notch ligand Delta-like 1 (DL1) expressing OP9 stromal cells (OP9-DL1) decreased apoptosis of ECFC in vitro and increased vasculogenesis of ECFC in vivo. The co-culture of ECFC with HPL diminished apoptosis of ECFC by altering the expression of pro-survival molecules (pAkt, pBad and Bcl-xL) in vitro and increased vasculogenesis of human EC-derived vessels both in vitro and in vivo. Thus, activation of the Notch pathway by OP9-DL1 stromal cells or co-implantation of ECFC with HPL enhances vasculogenesis and augments blood vessel formation by diminishing apoptosis of the implanted ECFC. The results from this study will provide critical information for the development of a cell therapy for limb and organ re-vascularization that can be applied to recovery of ischemic tissues in human subjects.

Fetal blood -- Transplantation

Hematopoietic stem cells -- Physiology.

Nude mouse -- Immunology

Cellular therapy

Lésion cervicale de la moelle épinière : vulnérabilité cérébrale et stratégie réparatrice spinale

Felix, Marie-Solenne

05 November 2012

Les lésions spinales cervicales sont au premier rang de l'épidémiologie des lésions spinales. Ce type de lésion porte atteinte aux commandes motrices bulbo-spinales respiratoires et entraîne des insuffisances respiratoires mettant en jeu le pronostic vital du patient. L'étude de la récupération spontanée de la fonction respiratoire et le développement de stratégies réparatrices constituent un enjeu majeur. Les stratégies thérapeutiques par greffe de cellules engainantes olfactives sont les plus prometteuses. Nous exposons l'effet de la transplantation de cellules gliales olfactives d'origine nasale au niveau spinal dans le cadre d'une hémi-contusion spinale cervicale chez le rat adulte et de la récupération de la fonction respiratoire. Nous montrons également, pour la première fois, qu'une lésion spinale a un impact sur les foyers de neurogenèse du cerveau et qu'un phénomène de neuroprotection se met en place dans la medulla du tronc cérébral suite à une lésion spinale. Nos travaux se replaçent dans une thématique clinique très actuelle, riche en publications. Il est impératif de prendre en compte les conséquences sus-lésionnelles d'une lésion spinale notamment pour la médecine régénératrice. / Cervical spinal cord injuries are the most frequent type of spinal cord injury. It interrupts motor bulbospinal respiratory pathway inducing respiratory deficits bringing into play the vital diagnostic of patients. The study of spontaneous recovery of respiratory function and the development of reparing strategies are a major issue. Therapeutic strategies by olfactory enseathing cells are the most promising. We show the effect of nasal olfactory enseathing cells transplantation at the spinal level considering a cervical spinal cord hemicontusion in adult rat and the recovery of respiratory function. We also demonstrate, for the first time, that spinal cord injury has an impact on adult brain neurogenesis niches and that a neuroprotective phenomenon appears after spinal cord injury in the medulla of the brainstem. Our results concerns an actual clinical research theme, well-referenced in publications. It is of high importance to consider supralesional consequences of spinal cord injury, especially for the regenerative medicine

Lésion spinale

Récupération fonctionnelle

Fonction respiratoire

Thérapie cellulaire

Neurogenèse

Spinal cord injury

Functional recovery

Respiratory function

Cellular therapy

Neurogenesis

Estudo in vitro do potencial de diferenciação condrogênico e osteogênico de células mesenquimais obtidas de líquido e membrana sinovial de equinos / Chondrogenic and osteogenic differentiation potential of mesenchymal cells from equine synovial fluid and synovial membrane - in vitro study

Fülber, Joice

20 May 2015

Na espécie equina, as enfermidades osteoarticulares causam prejuízo econômico e impacto negativo no desempenho atlético, devido aos danos causados na cartilagem articular. A regeneração da cartilagem hialina e a manutenção da integridade das estruturas que a compõe norteiam a busca do tratamento ideal. Neste contexto, este estudo foi delineado com o objetivo de investigar a presença de células-tronco mesenquimais (CTMs) no líquido sinovial (LS) e na membrana sinovial (MS) de equinos com articulações hígidas, com osteocondrite dissecante (OCD) e com osteoartrite (OA) e compará-las, visando estabelecer qual fonte celular possui melhor característica fenotípica e capacidade de diferenciação celular, mais especificamente, aquela que seja superior em relação à capacidade condrogênica. Foram utilizados equinos machos e fêmeas de diferentes idades, totalizando 97 articulações. O LS e MS foram coletados durante artroscopia e as células foram cultivadas, e avaliadas por citometria de fluxo com os anticorpos CD44, CD90, CD105, CD34; e por imunocitoquímica com os anticorpos nanog, oct4, PGP 9.5, lisozima, vimentina e citoqueratina. Adicionalmente, o potencial de diferenciação das células foi avaliado para as linhagens condrogênica, osteogênica e adipogênica. Foi realizado teste de tumorigenicidade em camundongos Balb-Cnu/nu, para comprovar aplicabilidade clínica, e posteriormente, as CTMs provenientes de LS de articulações hígidas foram aplicadas em articulações de equinos. A identidade das células foi comprovada durante o cultivo demonstrando características de adesão ao plástico e morfologia fibroblastóide. A média percentual das populações positivas para CD90 foi de 64,9% (LS-H), 48,3% (LS-OCD), 48,1% (LS-OA), 66,6% (MS-H), 40,2% (MS-OCD) e 40,3% (MS-OA). A porcentagem de células positivas para CD44 foi de 1,18% (LS-H), 3,98% (LS-OCD), 14,2% (LS-OA), 1,9% (MS-H), 2,17% (MS-OCD) 8,56% (MS-OA). Não foi observada expressão dos anticorpos CD34 e CD105. Na análise imunocitoquímica foi detectada expressão positiva para os anticorpos: lisozima, PGP 9.5, PCNA e vimentina, e negativa para nanog, oct4 e citoqueratina. A multipotência (osteogênica, condrogênica e adipogênica) das células foi confirmada através da coloração Alizarin Red para detecção de matriz de cálcio, Oil Red O para detecção de gotículas de gordura e azul de toluidina, alcian blue e hematoxilina eosina para detecção de matriz de proteoglicanos. Com relação aos resultados do teste tumorigênico, nenhum órgão dos camundongos foi afetado, assegurando a aplicabilidade das células estudadas. Ainda, as articulações de equinos tratadas, não apresentaram quaisquer sinais de reação inflamatória após aplicação de células alogênicas. Por fim, concluímos que, a fenotipagem positiva de CD44 e CD90 somada à capacidade de diferenciação nas linhagens osteogênica e condrogênica confirma a presença de CTMs nas populações celulares obtidas de LS e MS de equinos. Também foi observado que as células de LS provenientes de articulações hígidas, são as de melhor utilização clínica, uma vez que apresentaram maior expressão de CD90 e demonstraram melhor capacidade de diferenciação celular em relação às células derivadas de articulações enfermas. Além disso, possuem método mais fácil de colheita em relação à colheita de MS, visando futura terapia celular na rotina clínica / In the equine species, osteoarticular diseases cause significant economic losses and negative impact on equine athletic performance. The hyaline cartilage regeneration and the maintenance of integrity of its components guide the search for the ideal treatment. In this scenario, this study aimed to investigate the presence of mesenchymal stem cell (MSCs) in the synovial fluid (SF) and in the synovial membrane (SM) of healthy equine joints, osteoarthritic (OA) and osteochondritic joints (OCD), comparing their potential as cellular sources, according to their differentiation ability, in particular with superior chondrogenic potential and the phenotypic characteristics of the MSCs. Ninety-seven equine joints from males and females of different ages were used to harvest cells. SF and SM were obtained during arthroscopy and the cells SF and SM were cultured and assessed for CD90, CD44, CD105 and CD34 markers by flow cytometry, and nanog, oct4, PGP 9.5, lyzozyme, vimentin and cytokeratin were assessed by immunocytochemistry. Additionally, cells were evaluated in vitro for their osteogenic, adipogenic and chondrogenic differentiation potential. The tumorigenicity test was carried in Balb-C nu/nu mice, to verify the safety of cell sources and, later, mesenchymal stem cells harvested from healthy equine joints were injected into equine joints. The identity of these cells was confirmed during cell growth, through properties of plastic adhesion and fibroblastoid morphology. The mean percentage of CD90 positive cells was 64.9% (SF-H), 48.3% (SF-OCD), 48.1% (SF-OA), 66.6% (SM-H), 40.2% (SM- OCD) and 40.3% (SM-OA). The percentage of CD44 positive cells was 1.18 % (SF-H), 3.98% (SF-OCD), 14.2% (SF-OA), 1.9% (SM-H), 2.17% (SM-OCD) and 8.56% (SM-OA). The expression of CD34 and CD105 antibodies was not observed. Through immunocytochemical analysis, expression for lysozyme, PGP9.5, PCNA e vimentin antibodies was detected and negative expression for nanog, oct4 e cytokeratin was observed. The multipotent capacity of mesenchymal stromal cells for lineage differentiation (osteogenic, chondrogenoic and adipogenic) was confirmed with different staining techniques: Alizarin Red enabled detection of the calcium matrix, Oil Red O enabled the detection of fat droplets and Toluidin Blue, Alcian Blue and haematoxylin eosin enabled detection of proteoglycan matrix. Results of tumorigenic tests in mice showed no compromise of any internal organ, assuring applicability of the studied cells. Furthermore, equine joints treated with MSC harvested from healthy joints did not show any signs of an inflammatory reaction after injection of the allogeneic cells. The presence of cells with positive CD44 and CD90 phenotypes and with the ability to differentiate into osteogenic and chondrogenic lineages confirms the presence of MSCs in equine SF and SM. Cells obtained from healthy SF were more suitable for clinical application, for they presented higher CD90 expression and demonstrated greater differentiation capabilities, when compared to that of cells retrieved from compromised joints. In addition to that, SF derived cells are easier to obtain when compared to SM cells, aiming their future application clinical

Cellular therapy

Célula-tronco mesenquimal

Equine

Equino

Líquido sinovial

Membrana sinovial

Mesenchymal stem cells

Synovial fluid

Synovial membrane

Terapia celular