INVESTIGATING THE RESPONSE OF OLIGODENDROCYTE PROGENITOR CELLS TO THE CUPRIZONE MODEL OF DEMYELINATION

Moffatt, David

18 June 2009

Multiple sclerosis and other myelin diseases affect the quality of life many people. In the United States alone, multiple sclerosis afflicts as many as 400,000 individuals. Myelin, which is attacked by multiple sclerosis, plays a critical role in maintaining the healthy function of the adult nervous system. There are many model systems that study myelin and its formation and loss. Our lab investigates the cuprizone model of demyelination and remyelination. The cuprizone model is commonly believed only to affect adult oligodendrocytes, which it kills. The current study investigates whether other cells in the oligodendrocyte line, such as oligodendrocyte progenitor cells, might also be susceptible to the toxic effects of cuprizone. Oligodendrocyte progenitor cells may play an important role in repairing and replacing myelin after demyelinating insults. So any effect that the model has on these cells may be relevant to the use of the model for studying remyelination. In order to evaluate the potential effects of cuprizone, dividing cells in adult mice were labeled with the proliferation marker, Bromodeoxyuridine (BrdU). Immunohistochemical labeling of BrdU shows that the number of actively dividing cells seen in the subventricular and subgranular zones sharply and dramatically decreases after just 1 week on cuprizone. In the following weeks, the number of dividing cells increases, but even after 3 weeks of recovery without cuprizone, the number of BrdU+ cells does not return to control levels. These results may have significant ramifications in the interpretation of results obtained from the cuprizone model, and this finding must be considered in selecting a model for future demyelination studies.

oligodendrocyte progenitor cell

SVZ

cuprizone

demyelination

Anatomy

Medicine and Health Sciences

Nervous System

Human Neural Progenitor Cells are Productively Infected by R5-tropic HIV-1: Opiate Interactions on Infection and Function Involve Cdk5 Signaling

Balinang, Joyce Magat

01 January 2016

Human immunodeficiency virus type 1 (HIV-1) is known to cause a spectrum of neurological, behavioral and motor deficits collectively termed as HIV-1 associated neurocognitive impairments (HAND). Opiates augment HIV-related CNS complications through both direct and indirect mechanisms that disrupt glial and neuronal function. All CNS macroglia and neurons derive from neural progenitor cells (NPCs) during development, and NPCs in the adult brain contribute to repair processes. Since disruptions in NPC function are known to impact CNS populations and brain function in a number of disease/injury conditions, we determined whether HIV ± opiate exposure affected the maturation and fate of human NPCs (hNPCs). As hNPC infection by HIV has occasionally been reported, we also reexamined this question, and parsed between effects due directly to hNPC infection by HIV, or to hNPC dysfunction caused by the infective milieu. Multiple approaches confirmed the infection of hNPCs by R5 tropic (CCR5 utilizing) HIVBaL, and demonstrated that active infection could be sequentially transferred to naïve hNPCs. Exposure to supernatant from HIVBaL-infected cells (HIVsup) reduced hNPC proliferation and led to premature differentiation into astrocytes and neurons. Morphine co-exposure prolonged hNPC infection and exacerbated functional effects of HIVsup. Neither purified virions nor UV-inactivated HIVsup altered proliferation, indicating that this effect did not require infection. Gene array analysis and RT-qPCR with immunoblot validation suggested that Cdk5 signaling was involved in HIV-morphine interactions. siRNA-mediated knockdown of Cdk5 expression attenuated the effect of HIV-1 and morphine on hNPC proliferation and MAP2 differentiation, but also increased hNPC death. Furthermore, in an attempt to understand the role of mu-opioid receptor (MOR) splice variants on the interactive effect of HIV-1 and morphine on hNPCs, we found that both MOR-1 and MOR-1K are differentially regulated by HIV-1 in these cells. This suggests that these splice variants may have differential actions in the response of hNPCs to HIV-1 and morphine co-exposure. Given the overlap of Cdk5 and MOR signaling, it is likely that MOR-1K and/or MOR-1 converge with Cdk5 in the mechanism underlying HIV-1 and morphine interaction in hNPCs. Overall, dysregulation of hNPC functions by the infectious environment may create cell population imbalances that contribute to CNS deficits in both adult and pediatric patients. Additionally, infected hNPCs may pass virus to their progeny, and serve as an unappreciated viral reservoir. The recent epidemic of opiate/heroin abuse highlights the clinical importance of HIV and opiate interactions.

HIV-1

neural progenitor cells

opiates

development

neuropathogenesis

Medical Molecular Biology

Medical Pathology

Neurosciences

Progeniteurs endotheliaux : étude des mécanismes de recrutement en situation physiopathologique. / Endothelial progenitor : study of recruitment mechanisms in physiopathological condition.

Hubert, Lucas

20 December 2012

Les maladies thrombotiques sont la cause majeure de décès dans les pays industrialisés. Les cellules souches dérivées de la moelle osseuse ont été impliqués dans la réparation vasculaire et contribuent à restaurer l'intégrité de l'endothélium. Les cellules progéniteurs CD34 positives ont été rapportées pour jouer un rôle important suite à une blessure de la paroi vasculaire en se liant aux plaquettes ou à la fibrine, modulant la formation du thrombus et participant à la ré-endothélialisation de la paroi vasculaire lésée. Parmi les cellules progéniteurs CD34 positives, les cellules endothéliales formant colonie (ECFC) ont été caractérisés comme présentant des propriétés endothéliale. La première partie de ce travail met en évidence un nouveau partenariat entre les neutrophiles et les ECFC. Par l'utilisation de la microscopie intravitale chez les souris, nous montrons que les neutrophiles recrutent les ECFC au site de lésion vasculaire induite par rayon laser. Ce recrutement est dépendant du PSGL-1 mais indépendant de l'expression de la P-sélectine. L'interaction avec les neutrophiles accroît le potentiel pro-angiogénique des ECFC in vitro. L'identification de ce nouveau partenariat entre les neutrophiles et les ECFC dans la formation de thrombus possède des implications potentiellement critiques dans le contrôle de l'angiogenèse.
La seconde partie de ce travail décrit une nouvelle méthode pour imager en temps réel le devenir des ECFCs in vivo. Nos résultats montrent que les ECFC s'accumule au site de lésion vasculaire.
En conclusion, ce travail démontre que les ECFC peuvent participer favoriser et réguler l'angiogenèse en interagissant avec les neutrophiles. / Thrombotic diseases are major cause of death in industrialized countries. Bone marrow derived progenitor cells have been implicated in vascular repair and contribute to restore the integrity of endothelium, thus constituting important partners for vascular wall restoration. CD34 positive progenitors cells were reported to play an important role following an injury of the vessel wall by binding to platelets or fibrin, modulating thrombus formation and participating in the re-endothelization of the injured vessel wall. Among CD34 positive progenitors cells, Endothelial Colony forming Cells (ECFCs) have been characterized as a unique subset displaying endothelial properties. The first part of this work described a new partnership between neutrophils and ECFCs. Using high- speed digital fluorescent intravital microscopy in living mice we show that neutrophils recruit ECFCs at the site of a laser-induced vessel injury via PSGL-1 axis independently of P-selectin. This interaction enhances the pro-angiogenic potential of ECFCs in vitro. The identification a new central partnership between neutrophils and ECFC in thrombus formation has critical potential implications to control angiogenesis.
The second part of this work, described a new method to image in real-time the homing and survival ECFCs in vivo. Our results show that ECFCs transducted with a gene coding for luciferase accumulates at site of vascular traumatism.
In conclusion, this work indicates that ECFCs may participate in the promotion and regulation of angiogenesis by interacting with neutrophils at a site of vascular traumatism.

Progeniteur endotheliaux

Angiogenèse

Thrombus

Intravital

Bioluminescence

Endothelial progenitor

Angiogenesis

Thrombosis

Intravital

Bioluminescence

Estudio de la activación del sensor de la respuesta a proteínas mal plegadas ire1a en el desarrollo de las células dendríticas a partir de sus progenitores hematopoyéticos

Geisse Anguita, Antonia

01 1900

Seminario de Título entregado a la Universidad de Chile en cumplimiento parcial de los requisitos para optar al Título de Ingeniera en Biotecnología Molecular. / Las células dendríticas (DC) son las responsables de iniciar la respuesta inmune adaptativa. Las DC se diferencian a partir de un precursor residente de la médula ósea llamado “progenitor común de macrófagos y células dendríticas” (MDP) el cual puede diferenciarse en un precursor común de monocitos (cMoP), o en un precursor que da origen a las DCs (CDP). Para comprometerse al linaje de DCs, las CDP se diferencian en pre-DCs, las cuales dejan la médula ósea y al llegar al tejido se generan las cDC1 y cDC2. Los mecanismos celulares que regulan la diferenciación de las DCs no han sido claramente elucidados. En este contexto, la respuesta a proteínas mal plegadas (UPR), que es el mecanismo celular responsable de mantener la homeostasis del retículo endoplásmico (RE) ha emergido como un interesante candidato en la regulación de la diferenciación de DCs. La UPR está coordinada por tres sensores residentes del RE Interesantemente, ratones deficientes de XBP1, el factor de transcripción maestro río abajo del sensor IRE1a, muestran una disminución importante de cDC y pDC in vitro e in vivo. Esto sugiere que el sensor IRE1a es relevante para el desarrollo de las DCs. Sin embargo, se desconoce con precisión en que estadio del desarrollo de las DCs este eje estaría operativo. En este trabajo, identificamos los precursores de las DCs y estudiamos la activación del eje IRE1a/XBP1 de la UPR. Nuestros datos indican que las MDP presentan mayor activación del eje IRE1a/XBP1 comparado con los otros estadios de desarrollo de las DC, lo que sugiere que en esta etapa del desarrollo podrían estar ocurriendo cambios metabólicos mayores comparados con otros estadios, lo que implicaría un aumento en la síntesis proteica, implicando una UPR más activa. / The dendritic cells (DCs) are responsible for the initiation of the adaptive immune response. DCs arise from a common progenitor present in the bone marrow called ‘macrophage-dendritic cell progenitor’ (MDP), which differentiates into a cMoP (common monocyte precursor) or into CDP, the ‘common dendritic cell precursor’, that is committed towards the dendritic linage. After this differentiation process, the CDP will give rise to pre-DC, which exits the bone marrow and constitute the immediate precursors of terminally developed cDC1 and cDC2 in tissues. The cellular mechanism that controls the DC differentiation are not fully understood. In this context, the unfolded protein response (UPR) is a mechanism responsible to maintain the endoplasmic reticulum (RE) homeostasis that has risen as a candidate for the regulation of the DC development. This adaptive response is coordinated by three ER membrane–resident sensors. Remarkably, it has been reported that XBP1 deficient mice, a key transcription factor downstream IRE1a, display a marked diminution of cDCs and pDCs in vitro and in vivo. This implies that IRE1a plays a key role in DC homeostasis and development. Nevertheless, the contribution of the UPR to DC development is still poorly understood. In this work, we identified DC precursors using multiparametric flow cytometry and studied the UPR activation. Our data indicates that the cells at the stage of the MDP have the most prominent XBP1s signal compared to cells in different differentiation stages. These data suggest that in this stage of the DC development may be occurring major metabolic changes comparing to the other stages which could mean an increase of protein synthesis, involving an active UPR. / Mayo 2020

Células dendríticas

Proteínas mal plegadas

GTPases Rho e o potencial regenerativo da retina de mamíferos / Rho GTPases and the regenerative potential of the mammalian retina

Debbio, Carolina Beltrame Del

09 February 2010

O Corpo Ciliar (CC) é uma fonte de células tronco da retina de animais adultos, mas sua ativação permanece desconhecida. GTPases Rho são proteínas que reorganizam do citoesqueleto de actina, regulam vias de sinalização e transcrição gênica, sobrevivência celular e proliferação. Neste trabalho, investigamos a expressão das GTPases Rho nas células do CC e seu efeito na regulação do ciclo celular. As GTPases RhoA, RhoB e Rac1 foram expressas nas células do CC e sua ativação pelo ácido lisofosfatidico (LPA) aumentou a expressão dos genes progenitores retinianos Pax6 e Chx10. A inibição das proteínas por Toxina A de Clostridium difficile aumentou a proliferação no CC e potencializou o efeito proliferativo dos fatores de crescimento. A inibição especifica destas proteínas diminuiu a expressão dos transcritos de p21cip, p27kip, p16INK4a e p19INK4d e aumentou de Ki67, CiclinaA e D1. O estudo da via de Wnt indicou que Rac1 regulou os genes de componentes da degradação de -catenina e Lef1. Concluímos que a inativação das GTPases Rho induziu a proliferação das células progenitoras retinianas localizadas no CC e regulou a via de Wnt. Sua ativação induziu o perfil de célula progenitora, sugerindo uma nova ferramenta para o mecanismo de reparo retiniano. / Ciliary Body (CB) is a potential source of stem cells in the adult retina, but its activation is still unknown. Rho GTPases play a role in actin-based cytoskeleton reorganization, regulate signaling pathways and gene transcription, cell survival and cell proliferation. In this study we investigated the expression of Rho GTPases in CB cells and their role on cell cycle regulation. The GTPases RhoA, RhoB and Rac1 were present in CB cells and the activation by lysophosphatidic acid (LPA) increased the expression of the progenitor genes Pax6 and Chx10. The inhibition by Clostridium difficile Toxin A increased the proliferation of CB cells and potentiated the proliferative effect of growth factors. The specific inhibition decreased the expression of p21cip, p27kip, p16INK4a and p19INK4d as well as increased Ki67, cyclinA and D1 transcripts. The Wnt pathway study indicated that Rac1 regulated -catenin degradation genes components and Lef1. Taken together, the inactivation of Rho GTPases stimulated the proliferation of progenitor cells located in CB as well as regulate the Wnt signaling pathway. The proteins activation was correlated to progenitor profile induction. These different mechanisms may provide a potential new approach on retinal repair.

Ciliary Body

Corpo Ciliar

GTPases Rho

Progenitores retinianos

Proliferação

Proliferation

Retinal progenitor cells

Rho GTPases

Caracterização e efeitos do ACTH nas células progenitoras do córtex adrenal durante sua regeneração em animais UbiquitinaC-Cre/ERT2 Pomc Flox/Flox. / Characterization and effect of ACTH in progenitor cells of the adrenal cortex during regeneration in UbiquitinC-Cre/ERT2 POMC Flox / Flox animals.

Costa, Ismael Cabral

27 September 2016

Existem evidências na literatura que demonstram a existência de células indiferenciadas na capsula adrenal, e que o ACTH poderia estimular estas células. Porém não se sabe quais os genes e vias que desencadeiam esta resposta. Através de animais Cre-Lox induzível por Tamoxifeno, silenciamos o gene Pomc em camundongos adultos e avaliamos o efeito do ACTH nessas células. Foram utilizadas placas de PCR array para análise de genes relacionados com células progenitoras em amostras obtidas pela técnica de rolamento, e validação por PCRq com amostras microdissecadas da zona capsular/subcapsular da adrenal. Após caracterização dos animais com o gene Pomc silenciado e tratamentos com ACTH observamos o aumento da expressão de genes relacionados com as vias Wnt, Igf1 e Notch. Esses dados corroboram evidencias descritas na literatura que mostram a importância dessas vias no desenvolvimento e manutenção do córtex adrenal, e sugerem o envolvimento do ACTH nesses processos que envolvem as células progenitoras do córtex adrenal. / There is evidence in the literature demonstrating the existence of stem cells in the adrenal capsule, and that ACTH could stimulate these cells. However, it remains unknown which genes and pathways that trigger this response. By using a tamoxifen-inducible Cre-Lox mice strain, we knocked-out Pomc gene in adult mice and evaluated the effect of ACTH in these cells. PCR array technique was used to determine the expression level of key genes related to progenitor cells in samples obtained by the technique of \"rolling bearing\". Also, we validated the data by qPCR using samples from microdissected capsular areas of the adrenal gland. After characterization of animal model, the results show that treatment with ACTH increase the expression of genes related to Wnt, Igf1 and Notch pathways. These data corroborate with the literature, reinforcing the importance of these pathways in the development and maintenance of the adrenal cortex, and also suggesting the involvement of ACTH in these processes involving the progenitor cells of the adrenal cortex.

ACTH

ACTH

Animal adrenal gland

Células progenitoras

Glândula adrenal animal

Peptídeos

Peptides

Pomc

Pomc

Progenitor cells

Potencial osteogênico in vitro e in vivo de células-tronco mesenquimais de polpa dental e tecido adiposo / In vitro and in vivo osteogenic potential of mesenchymal stem cells from adipose tissue and dental pulp

Ishiy, Felipe Augusto André

27 June 2012

Células-tronco humanas derivadas da polpa dental (hDPSCs) e células-tronco humanas derivadas de tecido adiposo (AhSCs) são células multipotentes capazes de diferenciação osteogênica in vitro e in vivo, e promissoras fontes de células para a engenharia de tecido ósseo, dada a sua facilidade de expansão, isolamento e diferenciação. É de grande interesse compreender qual é o melhor tipo celular para diferenciação osteogênica, assim, o objetivo deste estudo foi comparar o potencial de diferenciação osteogênica in vitro e in vivo entre hDPSCs e hASCs. Foram isoladas e estabelecidas seis populações de células-tronco de hDPSCs (entre 7-12 anos) e seis da hASC (de indivíduos com idade entre 30-49 anos). Após a indução in vitro, a diferenciação osteogênica foi comprovado através das colorações de fosfatase alcalina (9 dias) e vermelho de alizarina (14 e 21 dias). A quantificação da mineralização da matriz após 21 dias de diferenciação osteogênica revelou 2,24 mais ossificação das hDPSCs em relação às hASCs. Para realizar o experimento in vivo, foram triados seis biomateriais para verificar qual melhor biomaterial para o nosso modelo, defeito crítico em calvária de Ratos Wistar não imunossuprimidos, com três amostras de hDPSCs. Após 45 dias, CellCeram(TM) exibiu a melhor neoformação óssea in vivo, e foi selecionado para comparar os potenciais osteogênicos in vivo entre hDPSCs e hASCs. Células (10e6) foram associadas a discos de 4,5 mm CellCeram(TM), grupo controle foi realizado através do transplante do biomaterial livre de células. Neoformação óssea foi mensurada 45 dias após a cirurgia através da coloração histológica de hematoxilina / eosina. A formação óssea total foi quantificada através da análise de imagens de todas as ilhas de ossificação. A associação entre hDPSCs e CellCeram(TM) promoveu 7,24 vezes mais neoformação óssea quando comparado com a associação entre esse mesmo material e hASCs (p <0,0001). A utilização de células-tronco adultas para regeneração óssea é uma ótima abordagem para uso terapêutico, e calcular ou predizer o potencial osteogênico das células utilizadas é extremamente importante e necessário para futura aplicação em novas estratégias de bioengenharia de tecido ósseo / Human dental pulp stem cells (hDPSCs) and human adipose-derived stem cells (AhSCs) are multipotent cells capable of undergoing osteogenesis in vitro and in vivo, and promising cell-source populations for bone tissue engineering given their easiness of isolation, expansion and differentiation. It is of great interest to understand which is the best cell type for osteogenic differentiation, thus the aim of this study is to compare the in vitro and the in vivo osteogenic differentiation potentials between DPSCs and ASCs. We isolated six stem cell populations from DPSCs (aged 7-12 years) and six from ASCs (from subjects aged 30-49 years) and cell culture was established. After in vitro induction the populations were able to undergo osteogenic differentiation, as evidenced by alkaline phosphatase (9 days) and alizarin red S (14 and 21 days) stainings. Quantification of matrix mineralization after 21 days of osteogenic differentiation revealed an enhancement of 2.24-fold increase between hDPSCs and hASCs differentiation. To perform the in vivo experiment, we promoted a screening of six scaffolds to find out which would be best scaffold to our model, a calvarial critical-sized defect in Wistar non-immunosuppressed rats, with three different culture samples of hDPSCs. After 45 days, CellCeram(TM) displayed the best in vivo bone neoformation, and was used to compare the in vivo osteogenic potentials between hDPSCs and hASCs. Cells (10e6) were associated to 4.5 mm CellCeram(TM) discs, and control groups were performed transplanting the biomaterial free of cells. Bone healing was measured through histological hematoxylin/eosin staining 45 days after surgery. Newly formed bone was also evaluated by total bone island surface quantification through image analysis. The association between hDPSCs and CellCeram(TM) induced a mean of 7.24 times more bone formation when compared to the association between this same material and hASCs (p<0.0001). The use of adult stem cells for bone regeneration is a robust therapeutic option, and calculate or predicts the osteogenic potential of the cell used are extremely important and necessary to future application, and translation to new strategies in bone tissue engineering

Engenharia de tecidos

Medicina regenerativa

Osteogenic potential of progenitor cells

Regenerative medicine

Tissue engineering

Temporal Patterning and Generation of Neural Diversity in Drosophila Type II Neuroblast Lineages

Bayraktar, Omer

03 October 2013

The central nervous system (CNS) has an astonishing diversity of neurons and glia. The diversity of cell types in the CNS has greatly increased throughout evolution and underlies our unique cognitive abilities. The diverse neurons and glia in the CNS are made from a relatively small pool of neural stem cells and progenitors. Understanding the developmental mechanisms that generate diverse cell types from neural progenitors will provide insight into the complexity of the mammalian CNS and guide stem cell based therapies for brain repair. Temporal patterning, during which individual neural progenitors change over time to make different neurons and a glia, is essential for the generation of neural diversity. However, the regulation of temporal patterning is poorly understood. Human outer subventricular zone (OSVZ) neural stem cells and Drosophila type II neural stem cells (called neuroblasts) both generate transit-amplifying intermediate neural progenitors (INPs). INPs undergo additional rounds of cell division to increase the number of neurons and glia generated in neural stem cell lineages. However, it is unknown whether INPs simply expand the numbers of a particular cell type or make diverse neural progeny. In this dissertation, I show that type II neuroblast lineages give rise to extraordinary neural diversity in the Drosophila adult brain and contribute diverse neurons to a major brain structure, the central complex. I find that INPs undergo temporal patterning to expand neural diversity in type II lineages. I show that INPs sequentially generate distinct neural subtypes; that INPs sequentially express Dichaete, Grainyhead, and Eyeless transcription factors; and that these transcription factors are required for the production of distinct neural subtypes. Moreover, I find that parental type II neuroblasts also sequentially express transcription factors and generate different neuronal/glial progeny over time, providing a second temporal identity axis. I conclude that neuroblast and INP temporal patterning axes act combinatorially to specify diverse neural cell types within adult central complex; OSVZ neural stem cells may use similar mechanisms to increase neural diversity in the human brain. This dissertation includes previously published co-authored material.

Combinatorial

Neural diversity

Neural stem/progenitor cell

Neuroblast

Temporal patterning

Transit-amplifying INP

Neural stem cells as therapeutic targets in germinal matrix haemorrhage

Dawes, William John

January 2017

Haemorrhage within the germinal matrix with extension into the ventricle is commonly seen in very low birth weight babies. Outcome following severe haemorrhage, in particular when associated with post haemorrhagic hydrocephalus and congestive venous infarction is poor, whilst outcome following moderate degrees of haemorrhage remains variable. The Neural Stem Progenitor Cells (NSPC) within the GM have been shown to be exquisitely sensitive to micro-environmental cues, as such, haemorrhage within the GM is postulated to impact on neurological outcome through aberration of normal NSPC behaviour. Here we have developed a stereotactic model of autologous blood injection which recapitulates key features of Papile grade II/III Germinal Matrix Haemorrhage / Intraventricular Haemorrhage (GMH/IVH). This model demonstrates that GMH/IVH causes an activation of the NSPC within the wall of the lateral ventricle and increases the number of transient amplifying cells within the transcallosal pathway. Further to this RNA extraction from the NSPC (selected using a CD133 MACS protocol) revealed that GMH/IVH causes a significant down regulation of the transmembrane receptor Notch, a finding that was validated using Hes5 in situ hybridisation (ISH). Using a battery of behavioural tests including assessment of developmental landmarks, neuromotor and reflex development we found that GMH/IVH causes subtle but significant impacts on early neonatal development. GMH/IVH in transgenic mice overexpressing the polycomb group gene Bmi1 in NSC (Nestin+ve) revealed increased self-renewal and resistance to oxidative stress (properties of Bmi1 overexpression) reduced the impact of GMH on the oligodendrocyte population, it also revealed a unique behavioural phenotype. We propose that GMH/IVH down regulates Notch in the NSPC causing a burst of precocious proliferation and depleting the NSPC pool, which impacts on neurological outcome due to altered cortical architecture. Further we suggest that modulation of NSPC properties may play role in determining outcome and should be further explored for its therapeutic potential.

Análise de células mesenquimais de saco vitelino, figado e medula óssea de fetos caninos / Analysis of mesenchymal cells from yolk sac, liver and bone marrow of the canine fetus

Wenceslau, Cristiane Valverde

05 February 2010

Em vista das limitações éticas em torno da obtenção de células-tronco de fetos humanos, o cão é uma alternativa para estes estudos. Além disso, a terapia celular proporciona novas expectativas para o tratamento na espécie. Realizamos o estudo comparativo das células isoladas de saco vitelino, fígado e medula óssea de fetos caninos. As células foram analisadas microscopicamente e ultra estruturalmente. O imunofenótipo das células foi avaliado através de marcadores. Caracterizamos a plasticidade, o cariótipo e o potencial teratogênico destas células. Após expansão as células progenitoras formaram colônias com morfologia fibroblastóide. As células progenitoras do saco vitelino e medula óssea são compostas por: células com alta proporção núcleo-citoplasma e células com citoplasma rico em organelas, enquanto que as células progenitoras do fígado eram semelhantes à célula epitelial e células ricas em organelas. As células-progenitoras dos três tecidos fetais foram positivas para os anticorpos nestina e vimentina, mas negativas para CD45 e CD13. Células progenitoras de medula óssea foram positivas para o marcador CD44. Células progenitoras do fígado e medula óssea expressaram a proteína citoqueratina-18, enquanto as do saco vitelino expressaram ve-caderina. Células positivas para Oct3/4 foram detectadas em todas as células progenitoras. As células-progenitoras do saco vitelino e medula óssea diferenciaram-se em tecidos ósseo, cartilaginoso e muscular; já as do fígado para tecido ósseo e muscular. Nenhum tipo celular diferenciou-se em adipócitos. As células progenitoras da medula óssea diferenciaram em células semelhantes a neurônios. Sugere-se a presença de progenitores semelhantes a células mesenquimais e epiteliais. Todas as células mantiveram o cariótipo estável e não formaram tumores. Células progenitoras de medula óssea apresentaram maior capacidade de proliferação e diversidade de diferenciação. Sugere-se que estas células são possíveis candidatas para a terapia celular. / The use the human fetuses for stem cells isolation have ethical limitations. In this context the dog is an excellent candidate to fetal stem cells. Furthermore, these cells can be used in cell therapy of canine diseases We aimed at isolation and comparative characterization of progenitor cells from yolk sac, liver and bone marrow of canine fetuses. Cells were characterized using stem cells antibodies. Differentiation assays as well as karyotype analysis were performed. Teratogenic properties this cells were evaluated. After establishment of primary culture, best proliferation potential was observed in bone marrow progenitor cells. Bone marrow and liver progenitor cells were more efficient in CFU-F assay, then yolk sac progenitor cells. Evidenced by TEM cells with a high nuclear-to-cytoplasmic ratio and cells with cytoplasm rich in organelles. Cells isolated from liver showed epithelial-like morphology and cytoplasm rich in organelles. The yolk sac, liver bone marrow cells reacted positively with nestin and vimentin, being negative to CD45 and CD13 antibodies. Additionally bone marrow progenitor cells were positive to CD44. Bone marrow and liver progenitor cells reacted positively with cytokeratin 18. Yolk sac progenitor cells were positive to ve-cadherin. A few Oct3/4 positive cells were found in yolk sac, liver and bone marrow. Yolk sac and bone marrow progenitor cells showed successful osteogenic, chondrogenic, myogenic differentiation. Differentiation liver progenitor cells were able to bone and muscle cells. The bone marrow progenitor cells were able to produce neuron-like cells. None of progenitor cells showed adipogenic differentiation. The study suggests the presence of mesenchymal-like and epithelial-like progenitor cells. All the karyotype remained and failed to induce the formation of tumors. Stem cells from bone marrow showed high diversity of differentiation than other cell types. It is suggested that these cells are possible candidates for cell therapy.

Bone marrow

Cães

Célula progenitoras

Dog

Fígado

Liver

Medula óssea

Progenitor cells

Saco vitelino

Yolk sac