Cellules souches adultes MuStem : phénotype, myogénicité, immunomodulation et contexte immunologique d'administration in vivo / Adult stem cells named MuStem : phenotype, myogenicity, immunomodulation and immunological context of in vivo delivery

Lorant, Judith

16 December 2016

La dystrophie musculaire de Duchenne (DMD) est une pathologie récessive liée au chromosome X qui résulte d’une mutation sur le gène de la dystrophine aboutissant à l’absence complète de la protéine. Elle correspond à la plus fréquente des dystrophies musculaires et reste aujourd’hui sans traitement curatif. L’UMR a fait la preuve de concept de l’administration systémique d’une population de cellules souches adultes résidentes du muscle, les cellules MuStem canines chez le chien dystrophinopathe, modèle cliniquement pertinent de la DMD. L’objectif de la thèse a consisté à caractériser la population humaine (hMuStem) en terme de phénotype, myogénicité, immunomodulation et de contexte immunologique d’administration in vivo. La population hMuStem se compose de progéniteurs myogéniques précoces d’origine mésenchymateuse-périvasculaire. Elle se définit par une forte capacité proliférative, une oligopotence et une participation à la régénération musculaire après administration dans un muscle lésé. Elles présentent des propriétés immunomodulatrices en interagissant avec l’immunité adaptative et innée par inhibition de la prolifération lymphocytaire et du complément via un ensemble de molécules de surface et/ou de facteurs sécrétés. Enfin, un traitement immunosuppressif restreint à la période d’injection in vivo de la population allogénique s’avère nécessaire mais suffisant pour éviter une réaction immune de l’hôte. L’ensemble de ces résultats aboutit à une meilleure compréhension de l’identité et des modalités d’action de la population MuStem. / Duchenne Muscular Dystrophy is a X-linked recessive disorder that results from mutation in the dystrophin gene leading to a total lack of the protein. It is the most frequent muscular dystrophy with no curative treatment. The lab made a proof of concept of the systemic delivery of a muscle-derived adult stem cell population called MuStem cells in dystrophic dog, the clinically relevant DMD model. The aim of my Ph.D. was to characterize the human population (hMuStem) in terms of phenotype, myogenicity, immunomodulation and immunological context of in vivo delivery. hMuStem cell population is composed of myogenic progenitors with mesenchymal/perivascular imprint. It exhibits a high proliferative capacity, an oligopotency and a participation to muscle regeneration after transplantation into injured muscle. It displays immunomodulatory properties by interacting with adaptive and innate immunity with inhibition of lymphocyte proliferation and complement thanks to expression of surface molecules and/or secreted factors. At last, an immunosuppressive regimen restricted to the allogeneic injection period is necessary but sufficient to avoid host immune response. Collectively, these results allow a better understanding of identity and action modalities of MuStem cell population.

Dystrophie musculaire de Duchenne

Thérapie cellulaire

Cellules souches adultes

Duchenne Muscular Dystrophy

Cell therapy

Adult stem cells

Cellules souches du muscle squelettique : étude d'une population capable de différenciation multipotente / Skeletal muscle stem cells : study of cell population capable of multipotent differentiation

Mitutsova, Violeta

30 October 2015

L'utilisation des cellules souches est une approche prometteuse pour le traitement des maladies dégénératives neuromusculaires. De nombreuses études portent actuellement sur les cellules souches embryonnaires (ES) et les cellules pluripotentes induites par reprogrammation (IPs) dont l'utilisation en médecine régénérative reste sujette à caution à cause du potentiel de ces cellules à former des tératomes. Des lors, aussi bien les ES que les IPs nécessitent une différenciation vers un type cellulaire précis. Cette différenciation peut mener à des risques supplémentaires tels que la dérive génique ou diverses sources de contamination.Le muscle squelettique adulte, avec sa grande plasticité et capacité régénératrice, contient une population de cellules souches qui est spécifique de ce compartiment tissulaire et qui a été isolée et étudiée au laboratoire. Les cellules souches du muscle squelettique adulte: skeletal Muscle-Derived Stem Cells, MDSC, repeuplent et réparent en quelques jours le muscle squelettique lésé avec une haute efficacité, même en présence des cellules satellites endogènes. (Arsic et al Exp. Cell Res. 2008). Le laboratoire d'accueil a entrepris de caractériser cette population cellulaire, en particulier par son origine histologique, de tester le potentiel de réparation tissulaire de ces cellules transplantées dans des modèles murins, et de déterminer la bio-distribution de ces cellules en vue d'utilisation thérapeutique.Mon travail de thèse s'est intéressé à cette population de cellules souches issues du muscle qui ont une propriété commune : la faible adhérence au substrat. La faible adhérence est une propriété très intéressante car en plus de définir des cellules plus proches de l'état pluripotent, cette propriété leur confère une grande capacité de migration. Ces cellules seraient donc plus facilement utilisables en médecine régénératrice. Dans cette perspective il est intéressant de disposer de cellules souches multipotentes qui pourrait se comporter comme des cellules pluripotentes en terme de capacité régénératrice, mais sans les inconvénients de ces dernières à savoir ; risque tératogène et prolifération incontrôlée, et manipulation des cultures cellulaires longues et couteuses.Au début de ma thèse je me suis donc intéressée aux différentes populations de cellules présentes dans le muscle et je me suis concentrée sur différents marqueurs connus chez les cellules souches, dont la présence a été établie chez différentes cellules souches y compris chez les cellules souches dérivées du muscle squelettique, mais pas clairement identifiés d'un point de vue histologique. Les cellules souches du muscle expriment le facteur de pluripotence Sox2, mais aussi des marqueurs d'immaturité tels que BCRP1/ABCG2, Sca-1 et SSEA1. J'ai examiné leur potentiel de différenciation in vitro en plusieurs lineages tels que des cellules cardiaques spécifiques (dites pacemakers), des cellules productrices d'insuline et des cellules qui présentent des marqueurs neuronaux. Je me suis également concentrée sur les possibles applications thérapeutiques grâce à l'utilisation de modèles génétiques murins et notamment dans les cas de problèmes du rythme cardiaque, et du diabète insulinodépendant. Pour ces études in vivo du potentiel réparateur des MDSC on procède à une simple injection des cellules souches dérivées du muscle squelettique (MDSC). Le fait de retrouver des MDSC injectées dans les organes cibles des souris modèles pose aussi la question de la biodistribution de ces cellules dans l'organisme. J'ai donc consacré plus d'un an de mon financement doctoral pour examiner cette biodistribution et montré un recrutement ciblé dès 48h après injection, vers les organes ou tissus lésés. / The use of stem cells is a promising approach for the treatment of neuromuscular degenerative diseases. Many studies currently focus on embryonic stem cells (ES) and induced pluripotent stem cells (IPs) for use in regenerative medicine. But some problems remain for their use in cell therapy in particular the potential of these cells to form teratomas. This problem requires both ES and IPs to be differentiated towards a specific cell type. Such induction of differentiation can lead to additional risks such as genetic drift or various sources of contamination.The adult skeletal muscle, has a high plasticity and regenerative capacity, it contains a stem cell population that is specific for muscle, and has been isolated and studied in the laboratory. Adult skeletal Muscle-Derived Stem Cells, MDSC repopulate and repair damaged skeletal muscle with high efficiency in a few days, even in the presence of endogenous satellite cells. (Arsic et al Exp. Cell Res. 2008). The host laboratory is characterizing this cell population and its histological identity and testing the tissue repair potential of transplanted MDSC in mouse models, as well as their bio-distribution for therapeutic use.My thesis work addressed the study of this stem cells population isolated from skeletal muscle showing low adhesion to substrate. Poor/low adherence is an interesting property because in addition to be defined as closer to the pluripotent state, this property is associated with a higher migration capability. This population of muscle stem cells should be easier to use than pre-differentiated stem cells in regenerative medicine. In this perspective it is interesting to use multipotent stem cells that are close to pluripotent cells in terms of differentiation and regenerative capacity, but without the inconveniencies like teratogenic risk and uncontrolled proliferation, as well as expensive and time-consuming cell culture.At the beginning of my thesis I was interested by the different populations of cells present in muscle and I focused my work on known markers of stem cells, whose presence has been established in skeletal muscle, but not clearly identified histologically. Muscle stem cells expressed the pluripotency factor Sox2, but also markers, such as BCRP1/ABCG2, Sca-1 and SSEA1. I have examined the potential of MDSC to differentiate in vitro into several cell types such as cardiac pacemaker-like cells, insulin-producing cells and cells that exhibit neuronal markers. I also focused on the possible therapeutic applications of MDSC, particularly in the case of heart rhythm problems and in the case of insulin-dependent diabetes. For these in vivo studies of the repair potential of MDSC, a single systemic injection is carried out in mouse models of the diseases. The histological recovery of injected MDSC into target organs also raises the question of the biodistribution of MDSC in the body. Therefore I spent more than a year of my doctoral thesis to address this issue and showed a targeted recruitment of MDSC to injured tissue or organs within 48h of their systemic injection.

Myogenèse

Régéneration musculaire

Thérapie cellulaire

Cellules souches adultes

Myogenesis

Muscle Regeneration

Adult Stem cells

Cell Therapy

Ribosome profiling: aplicação no estudo do processo de diferenciação de células-tronco obtidas de tecido adiposo humano

Marcon, Bruna Hilzendeger

January 2014

Submitted by Karin Goebel (karing@fiocruz.br) on 2014-11-25T18:05:56Z No. of bitstreams: 1 Dissertação Bruna Hilzendeger Marcon.pdf: 6455497 bytes, checksum: 8ea632ce91cdf16edd8b86a624972dba (MD5) / Approved for entry into archive by Karin Goebel (karing@fiocruz.br) on 2014-11-25T18:06:29Z (GMT) No. of bitstreams: 1 Dissertação Bruna Hilzendeger Marcon.pdf: 6455497 bytes, checksum: 8ea632ce91cdf16edd8b86a624972dba (MD5) / Made available in DSpace on 2014-11-25T18:06:29Z (GMT). No. of bitstreams: 1 Dissertação Bruna Hilzendeger Marcon.pdf: 6455497 bytes, checksum: 8ea632ce91cdf16edd8b86a624972dba (MD5) Previous issue date: 2014 / Fundação Oswaldo Cruz. Instituto Carlos Chagas. Curitiba, PR, Brasil / As células-tronco (CTs) caracterizam-se por possuírem a capacidade de se autorrenovar e de dar origem a um ou mais tipos celulares diferenciados. Nos últimos anos, diversos trabalhos mostraram a existência de CTs em tecidos adultos, tornando-as uma alternativa interessante para uso em terapias celulares. Contudo, para melhor utilizar as CTs, é preciso primeiramente compreender como ocorre a diferenciação em um tipo celular específico e, principalmente, como é regulada a expressão gênica durante este processo. Em 2009, Ingolia e colaboradores apresentaram uma nova técnica conhecida como ribosome profiling, a qual consiste no isolamento e sequenciamento em larga escala dos fragmentos de RNA associados e protegidos pelos ribossomos, os quais têm um tamanho aproximado de 30 nucleotídeos (conhecido com footprint ribossomal). Ao mapear as sequências obtidas, é possível obter informações não apenas sobre quais sequências estão sendo traduzidas, mas também sobre a cinética da tradução e sua extensiva rede de regulação. Assim, o objetivo deste trabalho foi aplicar a técnica de ribosome profiling ao estudo do processo de diferenciação de CTs adultas. Como modelo de estudo, foram utilizadas CTs obtidas de tecido adiposo antes (t=0) e após a indução para diferenciação adipogênica por 3 dias (t=72h). O primeiro passo do trabalho foi a adaptação do protocolo de ribosome profiling para o estudo de CTs adultas, o qual consiste na lise celular, digestão do lisado com uma RNA nuclease (a qual irá degradar o RNA exposto, preservando os fragmentos protegidos pelo ribossomo), ultracentifrugação do homogenato sobre colchão de sacarose 1 M para sedimentação dos ribossomos, extração de RNA e isolamento dos fragmentos de 30 nucleotídeos. Também foi feita extração do RNA poliA. As amostras foram sequenciadas (SOLiD™) e os dados obtidos foram triados e mapeados contra um banco de dados de RNAm, utilizando-se a ferramenta CLC Genomics Workbench. Foram identificados mais de 8.000 transcritos para as amostras de ribosome profiling e mais de 17.000 para as de poliA. Ao calcular o fold change entre as condições t=0 e t=72h, foi possível verificar que mais de 50% dos genes foram detectados como diferencialmente expressos apenas por ribosome profiling. Observou-se que genes relacionados com vias de diferenciação adipogênica e de metabolismo de lipídeos encontravam-se regulados positivamente em ambas as amostras de RNA. Por outro lado, observou-se que vias de regulação do citoesqueleto de actina e de adesão focal estavam reguladas negativamente apenas nas amostras de ribosome profiling. Isso é interessante, uma vez que a inibição destas vias já foi descrita como importante para o processo de adipogênese. Além disso, foi observada uma forte redução na eficiência de tradução de genes relacionados com a tradução após 72 horas de indução para diferenciação. Os resultados obtidos no presente trabalho reforçam as evidências de que os mecanismos de regulação pós-transcricionais e traducionais têm um papel muito importante na regulação da diferenciação celular de CTs, sendo que a técnica de ribosome profiling permitiu obter informações mais detalhadas de como este processo pode estar acontecendo. / Stem cells (SC) are characterized by their capacity of both self-renewing and giving rise to new differentiated cells. SC are found in adult tissues, which are considered a putative source for cell therapy. However, little is known about the mechanisms involved in the trigger of SCs differentiation into a specific cell type. Understanding adult SCs differentiation process is a fundamental step to better use and to take advantage of their potential. In 2009, Ingolia and collaborators presented a new methodology of transcriptome analysis named ribosome profiling, which consists on the isolation and deep-sequencing of the mRNA fragments enclosed by ribosomes. When lysed cells are submitted to nuclease digestion, unprotected mRNA is degraded, while fragments within ribosomes are preserved and have a known footprint of 30 nucleotides. Sequencing these ribosome-protected fragments results in a high-precision measurement of in vivo translation, providing precise information about translation kinetics and its extensive regulation. The objective of this work was to apply the ribosome profiling methodology to the study of adipogenic differentiation in adult SCs. SCs were isolated from human adipose tissue from three donors and were cultured in a control medium (t=0) and induced to adipogenic differentiation for 72 hours (t=72h). The first step was to adapt and optimize the ribosome profiling protocol to the SC model, which consists in cell lysis, cell lysate digestion by nuclease (to degrade unprotected RNA, preserving ribosome-protected fragments), ultracentrifugation over a 1M sucrose cushion to pellet ribosomes, RNA extraction and 30 nucleotides fragments isolation. poliA RNA was also isolated. Samples were submitted to deep-sequencing (SOLiD™) and the reads obtained were trimmed and mapped onto the reference mRNA database using the CLC Genomics Workbench. Over 8000 transcripts were identified in ribosome profiling samples and over 17000 in poliA samples. Fold change analysis between t=0 and t=72h of both RNA samples showed that differential expression of more than 50% of the genes was identified only by ribosome profiling. Pathways related to adipogenesis and lipid metabolism were upregulated in both RNA samples. However, regulation of the actin cytoskeleton and focal adhesion proteins were downregulated only in ribosome profiling samples. Interestingly, downregulation of these pathways was already described as an important phenomenon to cell adipogenesis. Besides, we observed a strong reduction of translational efficiency of genes involved in translation at t=72h. Our results reinforce previous data, suggesting that posttranscriptional and translational regulation play a fundamental role in the regulation of SC differentiation process and that ribosome profiling is an important tool to better understand this process.

Células-tronco adultas

Diferenciação

Ribosome profiling

Regulação pós-transcricional

Adult stem cells

Differentiation

Ribosome profiling

Post-transcriptional regulation

Loss of Mismatch Repair in the Aging Human Hematopoietic Stem Cell

Kenyon, Jonathan Dallas

08 March 2013

No description available.

Bioinformatics

Biology

Biomedical Research

Cellular Biology

Genetics

Gerontology

Health

Molecular Biology

Aging

Adult Stem Cells

DNA Repair

Mismatch Repair

Reprogrammation nucléaire de cardiomyocytes vers un stade progéniteur par fusion partielle avec des cellules souches adultes / cardiomyocyte nuclear reprogramming toward a progenitor state after partial cell fusion with adult stem cell

Acquistapace, Adrien

26 October 2011

La thérapie cellulaire régénératrice offre des perspectives d'applications dans de nombreuses pathologies entraînant une perte cellulaire. Cependant, suite à un infarctus du myocarde et donc une diminution importante du nombre de cardiomyocytes, l'injection de cellules souches n'a permis de mettre en évidence qu'une amélioration légère et transitoire de la fonction cardiaque. Ces résultats suggèrent qu'il est nécessaire d'améliorer l'efficacité des protocoles de thérapie cellulaire cardiaque. Cette amélioration passe par une meilleure compréhension des mécanismes mis en jeu par les cellules souches dans la régénération myocardique. Parmi les hypothèses soulevées, la fusion entre les cellules souches et les cardiomyocytes a été décrite dans plusieurs études mais le rôle physiologique de ce phénomène reste inconnu. Mon travail de thèse a consisté à étudier ce mécanisme in vitro au sein de cocultures entres des cellules souches adultes humaines (cellules hMADS pour human multipotent adipose derived stem cells) et des cardiomyocytes murins adultes. Nous avons pu mettre en évidence un processus de fusion hétérologue entre ces deux types cellulaires, aboutissant à la reprogrammation du cardiomyocyte vers un stade de progéniteur. Les cellules hybrides résultant de cette fusion ont exprimé des marqueurs cardiomyogéniques précoces et de prolifération et ont été montrées comme ayant un génotype exclusivement murin. Ces cellules hybrides ou progéniteurs cardiaques se sont formés préférentiellement par un mécanisme de fusion partielle par l'intermédiaire de structures intercellulaires appelées nanotubes composés de f-actine et de microtubules. En outre, nous avons montré que le transfert de mitochondries des cellules souches vers les cardiomyocytes était indispensable pour la reprogrammation des cardiomyocytes. En conclusion, nos résultats apportent de nouveaux éléments dans la compréhension des mécanismes de régénération médiés par les cellules souches qui est un pré-requis pour optimiser les protocoles de thérapie cellulaire cardiaque / Regenerative cell therapy offers potential applications in many diseases involving cell loss. However, following myocardial infarction and the dramatic decrease in the number of cardiomyocytes, the injection of stem cells led to a poor and transient improvement of cardiac function. Therefore stem cell-based therapy to treat myocardial infarction requires a better understanding of the mechanisms brought into play by stem cells in heart regeneration. Among the different hypothesis raised, cell fusion between stem cells and cardiomyocytes has been described in several studies. However, the respective physiological impact of cell fusion remains unknown. During my thesis, I investigated this cell fusion mechanism in vitro in a coculture model between human multipotent adipose-derived stem cells (hMADS) and murine fully differentiated cardiomyocytes. We showed intercellular exchanges of cytoplasmic and nuclear material between both cell types, followed by a heterologous cell fusion process promoting cardiomyocyte reprogramming back to a progenitor-like state. The resulting hybrid cells expressed early cardiac commitment and proliferation markers and exhibited a mouse genotype. We provided evidence that cardiac hybrid cells were preferentially generated through partial cell fusion mediated by intercellular structures composed of f-actin and microtubule filaments. Furthermore, we showed that stem cell mitochondria were transferred into cardiomyocytes and were required for somatic cell reprogramming. In conclusion, by providing new insights into previously reported cell fusion processes, our results might contribute to a better understanding of stem cell-mediated regenerative mechanisms and thus, the development of more efficient stem cell-based heart therapies

Reprogrammation nucléaire

Cellules souches adultes

Fusion partielle

Cardiomyocytes

Nanotubes

Mitochondries

Nuclear reprogramming

Adult stem cells

Partial cell fusion

Cardiomyocytes

Nanotubes

Mitochondria

Caractérisation des cellules souches gingivales et protocole de culture préclinique pour une thérapie osseuse humaine / Characterization of human gingival stem cells and preclinical culture protocol for human bone therapy

Taïhi, Ihsène

04 December 2017

La thérapie cellulaire est une méthode d’avenir innovante, actuellement utilisée dans le traitement de pathologies multiples (auto-immunitaire, cancéreuses, pathologies inflammatoires, allogreffes…) et la régénération des pertes de substance tissulaire. Les cellules souches mésenchymateuses, par la variabilité de leurs origines, présentent des propriétés très intéressantes à la thérapie, notamment un potentiel de différenciation en lignées multiples, et des propriétés d’immunomodulation importantes. Mon projet s’intéresse à l’utilisation de cellules souches orales récemment isolées de la gencive par notre équipe : cellules souches gingivales (GSC), et présentant un avantage fonctionnel par rapport aux sources cellulaires traditionnelles d’origine mésodermique (moelle osseuse) ou orales (pulpe dentaire, follicule dentaire, ligament parodontal, glandes salivaires…). Les défauts osseux des mâchoires, de par leur multitude d’étiologies (traumatismes, dysmorphoses, cancer, ...) et le handicap généré, représentent une cible thérapeutique privilégiée. Les GSCs ont la même origine embryologique neurectodermique que les os maxillaires et par là-même un phénotype proche, exploré dans notre équipe. Cette source gingivale de prélèvement non traumatique est une alternative aux techniques chirurgicales actuelles mutilantes pour le site donneur. Notre objectif est double : Etablir un protocole préclinique de culture des GSC en ostéoblastes, pour être compatibles avec la thérapie humaine afin d’obtenir une régénération osseuse optimale. Les capacités immunomodulatrices des GSCs sont par là-même étudiées dans ces nouvelles conditions, dans le but de maitriser la réaction inflammatoire et préserver la greffe osseuse, grâce à la plateforme exceptionnelle mise à notre disposition par l’établissement français du sang, et une équipe très spécialisée dans l’étude des mécanismes de régulation immunitaires. Nos résultats permettront non seulement une régénération osseuse transposable chez l’homme, mais également d’utiliser ces cellules pour le traitement d’autres pathologies (cancéreuses, auto-immunitaires…) en utilisant leur capacité immunomodulatrice. / Cell therapy is an innovative method of the future, currently used in the treatment of multiple diseases (autoimmune, cancer, inflammatory pathologies, allografts ...) and the regeneration of tissue loss. Mesenchymal stem cells (MSC), regardless their origins, exhibit very interesting properties for therapy, including a potential for multi-line differentiation, and important immunomodulation properties. My project focuses on the use of oral stem cells recently isolated from the gingiva by our team (GSC), and having a functional advantage over traditional mesodermal (bone marrow) cellular sources. The bone defects of the jaws, due to their multitude of etiologies (trauma, dysmorphoses, cancer...) and the generated handicap, represent a preferred therapeutic target. GSCs have the same neurectodermal embryological origin as the maxillary bones and thus a similar phenotype, explored in our team. This gingival source of non-traumatic removal is an alternative to current mutilating surgical techniques for the donor site. Our goal is twofold: To establish a preclinical GSC culture protocol in osteoblasts, to be compatible with human therapy, in order to achieve optimal bone regeneration. The immunomodulatory capacities of the GSCs are themselves studied under these new conditions, with the aim of controlling the inflammatory reaction and preserving the bone graft, thanks to the exceptional platform made available to us by the French blood establishment, and A highly specialized team in the study of immune regulation mechanisms. Our results will not only allow transposable bone regeneration in humans but also use these cells for the treatment of other pathologies (cancerous, autoimmune ...) using their immunomodulatory capacity.

Cellule Souche Adulte

Gencive

Régénération Osseuse

Milieux de Culture. Sans Sérum

Adult Stem Cells

Gingiva

Bone Regeneration

Culture Media. Serum Free

617.6

Diferenciação neuronal in vitro de células-tronco mesenquimais humanas para uso em transplante neural / Neuronal differentiation of human mesenchymal stem cells in vitro for neural transplantation

Lepski, Guilherme Alves

07 August 2007

Introdução. O transplante de células é possibilidade terapêutica promissora para muitas doenças neurológicas. Nos últimos anos, a possibilidade do isolamento de células-tronco dos tecidos adultos, por exemplo da medula-óssea, atrai a atenção da comunidade científica, estratégia que minimiza os problemas éticos relativos ao uso de tecido fetal para implantes visando ao tratamento de doenças neurológicas. Entretanto, a eficiência da transdiferenciação de células-tronco mesenquimais em neurônios, bem como os mecanismos envolvidos nesse processo, permanecem desconhecidos. A obtenção de neurônios maduros ocorreu somente em sistemas de co-cultura, o que induz a questão se a diferenciação representa um potencial das células per si, ou se é possível somente devido à fusão com neurônios maduros. Objetivos. No presente trabalho, pretendeu-se verificar o potencial de as células-tronco mesenquimais tornarem-se neurônios e esclarecer os possíveis mecanismos envolvidos nesse processo. Material e métodos. Células-tronco mesenquimais foram isoladas de 20 doadores voluntários normais e caracterizadas por análise de separação celular ativada por fluorescência. A multipotencialidade foi investigada ao se diferenciar as células em condrócitos e osteócitos. A capacidade de auto-renovação foi confirmada pelo ensaio de incorporação de BrdU. Ulteriormente, as células foram diferenciadas por uma semana em meio contendo AMPc, IBMX, ou combinação de ambos, e os resultados foram comparados com o cultivo em meio básico. Diferentes bloqueadores de Ca2+ ou inibidores de PKA foram usados como tentativa de se impedir a diferenciação, ocorrência que foi mensurada com imunocitoquímica para NF-200 (marcador de neurônios maduros). O registro eletrofisiológico por meio de patch clamp foi usado para se confirmar o fenótipo neuronal. As figuras foram configuradas em microscopia confocal. Para análise estatística foi utilizada ANOVA com teste post-hoc. Resultados. As células isoladas expressaram CD90, 105, 44 e 13 mas foram negativas para CD34 e 45. Isto significa que não são de origem hematopoiética; 98,74 ± 0,43% das células incorporaram BrdU em 24 horas. Após o isolamento, foi possível diferenciá-las em condrócitos ou osteócitos. Em situação controle, não foram evidenciadas células positivas para NF200. Por outro lado, ocorreu positividade em 10,75% ± 1,35 (p<0,0001) das células sob IBMX e, em 15,18% ± 1,12, sob a combinação cAMP e IBMX (p<0,0001). Foram registradas correntes de Na+ e K+ dependentes de voltagem, mas não potenciais de ação. A diferenciação foi inibida com PKAi (5,73% ± 0,42, p<0,0001), nifedipina (5,79% ± 0,98, p<0,0001), Ni2+ (7,06% ± 1,68, p<0,0001) e Cd2+ (0 ± 0, p<0,0001). Discussão. Isolou-se uma população de células-tronco estromais da medula-óssea de seres humanos que se mostrou multipotencial e auto-renovável. O aumento da concentração de AMPc no meio elevou a concentração de neurônios para 15%. A diferenciação parece depender da via PKA mas também envolve a concentração intracelular de Ca2+. Conclusão. O correto entendimento de como as células-tronco mesenquimais diferenciam-se pode contribuir para aumentar a eficácia do método e, talvez um dia, tornar possível o uso dessa ferramenta no campo clínico. / Introduction. Cell transplantation has been considered a promising therapeutic approach for many neurological diseases. The possibility of isolation of stem cells from adult tissues, i.e. bone marrow, has attracted the attention of the scientific community in the recent years. This strategy is interesting on avoiding the ethical issues regarding the use of fetal tissue for neural implants. Moreover, the efficiency of the transdifferentiation of mesenchymal stem cells (MSCs) into neurons, and the mechanisms involved in this process remain largely unknown. The obtention of mature neurons was described only in coculture systems, what raised the question if the differentiation is a potential of the cells itself, or if it is possible only due to fusion with mature neurons. Objectives. In the present investigation, we aimed to verify the potential of MSCs to differentiate into neurons, and also to clarify the possible mechanisms involved on it. Material and methods. MSCs were isolated from 20 healthy human subjects and characterized by FACS-analysis. Multipotentiality was addressed by differentiating them into chondrocytes and osteocytes. The self-renewal capacity was confirmed with BrdU-incorporation assay. Afterwards, cells were differentiated for 1 week in a medium containing cAMP, IBMX, or a combination of both, and the results were compared with cells treated in basal-medium condition. Different Ca2+-blockers and PKA-inhibitor peptide were used on an attempt to impair differentiation, which was quantified with NF-200 immunostaining (a marker of mature neurons). Patch-clamp recording was used to confirm neuronal phenotype. Pictures were taken in confocal microscope. For statistical analysis ANOVA with a post-hoc test was used. Results. The isolated cells expressed CD90, 105, 44, and 13, but were negative for CD34 and 45, meaning that they were non-hematopoiethic; 98.74 ± 0.43 % of them incorporated BrdU in 6hs. After isolation, they differentiated into chondrocytes and osteocytes. In a control situation, no NF200 positive cell was seen. On the other hand, 10.75% ± 1.35 (p<.0001) of positivity was seen under IBMX and 15.18% ± 1.12 in the combination of cAMP with IBMX (p<.0001). Na+ and K+-voltage gated currents were recorded. Differentiation was impaired with PKAi (5.73% ± 0.42, p<.0001), nifedipin (5.79% ± 0.98, p<.0001), Ni2+ (7.06% ± 1.68, p<.0001), and Cd2+ (0 ± 0, p<.0001). Discussion. We were able to isolate a population of stromal stem cells from the bone marrow of human subjects, since they were multipotential and self-renewable. Increasing the concentration of cAMP raised the percentage of neurons up to 15%. The differentiation seems to be dependent on the PKA pathway, but also involved the intracellular concentration of Ca2+. Conclusions. The complete understanding of how MSC differentiate can contribute to increase the efficiency of the method and thus make possible to use this powerful tool in the clinical practice.

Adult stem cells

Células-tronco adultas

Doenças neurodegenerativas

Mesenchymal stem cell transplantation

Microscopia de fluorescência

Neurodegenerative diseases

Técnicas de Patch Clamp.

Análise in vitro da expressão de proteínas da matriz extracelular (MEC) e de metaloproteinases da matriz (MMPs) em células-tronco adultas de polpa dentária humana / Analysis of ECM proteins and MMPs expression in human dental pulp stem cells

Miyagi, Sueli Patricia Harumi

16 April 2008

Células-tronco adultas podem ser isoladas de vários tecidos, dentre eles a polpa dentária humana, tecido originado na papila dentária do dente em desenvolvimento. Estas linhagens multipotentes podem ser estudadas sob vários aspectos, como na elucidação da histogênese de tumores. O objetivo deste estudo foi inferir a histogênese do mixoma odontogênico, neoplasia odontogênica benigna, analisando a expressão de proteínas da matriz extracelular (MEC) e de metaloproteinases da matriz (MMPs) em células-tronco adultas de polpa dentária humana. Três linhagens diferentes de células-tronco originadas de polpas dentárias humanas IDPSCs (DL-1, DL-2 e DL4) foram utilizadas. As proteínas analisadas foram as mesmas expressas na neoplasia: vimentina, colágeno tipo I, fibronectina, tenascina, ácido hialurônico e MMPs (MMP-1, MMP-2 e MMP-9). Imunofluorescência e ensaios enzimáticos foram utilizados para analisar a presença de proteínas nas células cultivadas e no meio de cultura condicionado por estas células, respectivamente. Todas as linhagens celulares expressaram a vimentina e nenhuma expressou o ácido hialurônico. A linhagem celular DL-1 expressou todas as outras proteínas da matriz extracelular estudadas, enquanto que na linhagem DL-2 apenas não foi observada a expressão do colágeno tipo I. Fibronectina e tenascina não foram observados na linhagem DL-4. Todas as linhagens expressaram todas as MMPs, sendo que a produção de MMP-2 nas três linhagens foi significantemente maior que a de todas outras MMPs. Baseado nas condições deste estudo, é possível concluir que a expressão de proteínas da MEC e de MMPs em células-tronco de polpa dentária humana apresentaram perfil similar àquela apresentada no mixoma odontogênico, exceto pela ausência de marcação do ácido hialurônico em todas as linhagens. A ausência de secreção de ácido hialurônico pelas IDPSCs poderia indicar que o mixoma odontogênico deriva de uma célula mais diferenciada que as células-tronco. / Adult stem cells can be isolated from different tissues including the human dental pulp, a structure originated from the dental papillae. These cell lineages are of importance in a series of studies, as the analysis of tumors histogenesis. The aim of this study was to infer the histogenesis of odontogenic myxoma, a benign odontogenic neoplasia by analyzing the ECM and MMPs molecules expressed in human dental pulp stem cells. Three different lineages of immature dental pulp stem cells (IDPSCs) (DL-1, DL-2 and DL-4) were used. The proteins searched were those expressed by the tumoral cells: vimentin, type I collagen, fibronectin, tenascin and hialuronic acid (HA) and the matrix metalloproteinases (MMP-1, MMP-2 and MMP-9). Immunofluorecence and enzymatic assays were used for analyzing the presence of the proteins in the cells and in the culture media conditioned by the cells, respectively. All the lineages expressed vimentin; however none expressed HA. DL-1 lineage expressed all the other ECM proteins, and the expression of type I collagen was not observed in the DL-2 lineage. Fibronectin and tenascin were not observed in the DL-4 lineage. All the lineages expressed all the MMPs. The release of MMP-2 from all cell lineages was significantly higher than those of all other MMPs. Based on the conditions of this study its possible to conclude that the overall expression of MEC proteins and MMPs in the lineages of human dental pulp stem cells were similar to those found in the odontogenic myxoma, except for the absence of hyaluronic acid. The absence of HA secretion by the IDPSCs could indicate that the odontogenic myxoma tumoural cells derive from a cell more differentiated than the stem cells.

Adult stem cells

Células-tronco adultas

Dental pulp

Extracellular matrix

Matrix metalloproteinases

Matriz extracelular

Metaloproteinases da matriz

Mixoma odontogênico

Odontogenic myxoma

Polpa dentária

Avaliação da função erétil após a reconstituição do nervo cavernoso com o uso de células tronco de medula-óssea: estudo experimental em ratos / Cavernous nerve reconstitution with the use of bone marrow stem cells and erectile function evaluation: an animal experimental study

Kaufmann, Oskar Grau

07 November 2008

Introdução: Atualmente a prostatectomia radical retropúbica tem sido responsável por grande parte dos casos de disfunção erétil de causa neurogênica. O desenvolvimento de técnicas como a cirurgia com preservação do feixe vásculo-nervoso, eletro-estimulação intra-operatória o uso de enxertos autólogos para se reestabelecer a comunicação dos nervos cavernosos têm minimizado o grau de lesão neuronal. Entretanto, faz-se necessária a criação de novos métodos de restauração do nervo cavernoso. Neste estudo, investigaremos o uso e a aplicação de células tronco adultas de medula óssea de ratos e sua capacidade para regeneração do nervo cavernosos lesado e para restauração da função erétil em ratos. Objetivo: Avaliar a influência de células tronco adultas da medula óssea de ratos na regeneração do nervo cavernosos lesado, tomando-se como parâmetro o retorno da função erétil nos animais submetidos ao teste de ereção induzido pela apomorfina. Material e Método: Quarenta e oito ratos Wistar-EPM machos, com idades entre 9 e 10 semanas, pesando aproximadamente 250 gramas foram usados e randomicamente subdivididos em quatro grupos de estudo contendo 12 animais cada. Os grupos experimentais foram divididos em: Grupo I: exposição cirúrgica bilateral nervo cavernoso sem lesão do mesmo.Grupo II: lesão cirúrgica bilateral do nervo cavernoso de aproximadamente 3 mm, sem reconstrução. Grupo III: lesão cirúrgica bilateral dos nervos cavernosos de aproximadamente 3 mm, e reconstrução bilateral com sondas guias de silicone contendo solução salina em seu interior. Grupo IV: lesão cirúrgica bilateral dos nervos cavernosos de aproximadamente 3 mm, e reconstrução bilateral com sondas guias de silicone semeadas com células-tronco adultas em seu interior. Quatro semanas após a cirurgia, os animais foram injetados com apomorfina para indução da ereção. Resultados: No grupo I observou-se resposta erétil completa em todos os animais (100% - 12 em 12). Por outro lado nenhum dos animais do grupo II apresentou ereções após a admnistração de apomorfina. Cinco dos doze animais do grupo III (41,7%) apresentaram ereções enquanto que nove dos 12 animais do grupo IV (75%) evidenciaram ereções após o estímulo. Quando foram comparadas as frequências de restauro de ereção nos quatro grupos, demonstrou-se que grupo IV teve um comportamento semelhante ao grupo I (p = 0,217), ao passo que os animais do grupo III apresentaram frequência de ereções inferiores aos do grupo I (p = 0,005). Por outro lado, a comparação dos resultados entre os grupo III e IV versus o grupo II, demostrou que a frequência de ereções foi estatisticamente superior nos dois primeiros grupos (p = 0,037 e p < 0,001, respectivamente). Finalmente, o grupo IV apresentou tendência a maior número de ereções quando comparado ao grupo III (75% versus 41,7%) mas essa diferença não foi estatisticamente significante (p = 0,098). Conclusão: O presente estudo demonstra que células tronco adultas da medula óssea, semeadas em sondas guias de silicone, favorecem a regeneração dos nervos cavernosos e promovem o reestabelecimento da função erétil em um modelo animal. / Objective: To assess the influence of adult stem cells from bone marrow of rats in the regeneration of cavernous nerve, taking as a parameter the return of erectile function in animals subjected to the test of erection induced by apomorphine. Methods: Forty-eight WISTAR-EPM male rats, aged between 9 and 10 weeks, weighing approximately 250 grams were used and randomly divided into four groups of study containing 12 animals each. The experimental groups were divided into: Group I: surgical exposure of bilateral cavernous nerves without injury. Grupo II: surgical bilateral lesion of cavernous nerve with approximately 3 mm, without reconstruction. Group III: surgical bilateral lesion of cavernous nerves of approximately 3 mm, and bilateral reconstruction with silicone tube containing saline solution inside. Group IV: surgical bilateral lesion of cavernous nerves of approximately 3 mm, and bilateral reconstruction with silicone tube containing adult stem-cells inside. Four weeks after surgery, the animals were injected with apomorphine for induction of erection. Results: In Group I there was complete erectile response in all animals (100% - 12 in 12). On the other hand none of the animals in Group II presented erection after the use of apomorphine. Five of the twelve animals of group III (41.7%) had erections while nine of the 12 animals of Group IV (75%) showed them after the stimulus. When we compared the frequency of restoration of erection in the four groups, it was shown that group IV had similar performance to the group I (p = 0,217), while the animals in Group III had a frequency of erections inferiors to the Group I (P = 0,005). Moreover, comparison of results between the group III and IV versus the group II, showed that the frequency of erections was statistically higher in the first two groups (p = 0,037 p < 0,001, respectively). Finally, the group IV presented trend the largest number of erections when compared to Group III (75% versus 41.7%) but this difference was not statistically significant (p = 0,098). Conclusion : This study shows that adult stem cells from bone marrow, sown in probes silicone guides, promote the regeneration of cavernous nerves and restore erectile function in an animal model.

Adult stem cells

Células-tronco adultas

Disfunção erétil

Epidemiologia experimental

Epidemiology experimental

Erectile dysfunction

Nervos periféricos

Peripheral nerves

Ratos Wistar

Rats Wistar

Adult stem cells in the trachea and tracheal submucosal glands

Lynch, Thomas John

01 August 2016

Breathing is essential for human life, yet tens of millions of people in the U.S. alone suffer from lung diseases. With each breath, lungs are exposed to the external environment. Inhaled air first passes through the trachea, bronchi, and finally the bronchioles before it reaches the alveoli where gases are exchanged. A barrier of epithelial cells protects the airways. In addition, epithelial glands also secrete protein-rich fluids onto the airway surfaces to help maintain sterility. Injury, disease, or other factors can damage these cells, and regiospecific stem cells (SCs) can divide to replace them. However, many important details about lung SCs are still unknown. For example, what processes control SC division? How do region-specific SCs differ from one another? And how does disease or injury impact SC biology? We found that some processes that regulate lung development also control adult SC division following injury. We show that SCs from airway glands give rise to surface epithelial cell types and glandular cell types. In contrast, surface SCs only generated surface cell types. Finally, we identify a type of cell in the glands that can regenerate surface cell types after severe injury. These studies provide new insights into the neighborhoods in which SCs reside in the large airways and processes that control their contribution to airway repair following injury. Overall, this research provides important new insights into adult SC biology and conditions affecting lung health.

Adult stem cells

Developmental biology

Facultative stem cell

Multipotential differentiation

Stem cell microenvironment interactions

Stem cell niche

Cell Anatomy

Cell Biology