Rat umbilical cord derived stromal cells maintain markers of pluripotency: Oct4, Nanog, Sox2, and alkaline phosphatase in mouse embryonic stem cells in the absence of LIF and 2‐MCE

Hong, James S.

January 1900

Master of Science / Department of Anatomy and Physiology / Mark L. Weiss / When mouse embryonic stem cells (ESCs) were grown on mitotically inactivated rat umbilical cord-derived stromal cells (RUCs) in the absence of leukemia inhibitory factor (LIF) and 2-mercaptoethanol (2-MCE), the ESCs showed alkaline phosphatase (AP) staining. ESCs cultured on RUCs maintain expression of the following pluripotency genes, Nanog, Sox2 and Oct4 and grow at a slower rate when compared with ESCs grown on mitotically inactivated mouse embryonic fibroblasts (MEFs). Differences in gene expression for the markers of pluripotency Oct4, Sox2 and Nanog, AP staining and ESC growth rate were also observed after LIF and 2-MCE were removed from the co-cultures. Reverse transcriptase polymerase chain reaction (RT-PCR) suggested differences in Sox2 and Nanog mRNA expression, with both genes being expressed at higher levels in the ESCs cultured on RUCs in the absence of LIF/2-MCE as compared to ESCs cultured on MEFs. Semi-quantitative RT-PCR indicated that Nanog expression was higher when ESCs were grown on RUCs in the absence of LIF and 2-MCE as compared to MEFs in the same treatment conditions. Bisulfite-mediated methylation analysis of the Nanog proximal promoter suggested that the maintenance of Nanog gene expression found in ESCs grown on RUCs after culture for 96 hours in the absence of LIF/2-MCE may be due to prevention of methylation of the CpG dinucleotides in the Nanog proximal promoter as compared to ESCs grown on MEFs. Thus, RUCs may release factors into the medium that maintain the pluripotent state of mouse ESCs in the absence of LIF and 2-MCE.

Mouse embryonic stem cell physiology

epigenetic regulation of pluripotency

cell culture

Biology, Cell (0379)

Biology, Molecular (0307)

Biology, Veterinary Science (0778)

Role of linker histone H1 in epigenetic regulation of pluripotency genes and Hox genes

Zhang, Yunzhe

27 May 2016

Linker histone H1 plays a key role in facilitating folding of higher order chromatin structure. Previous studies have shown that deletion of three somatic H1 subtypes together leads to embryonic lethality and that H1c/H1d/H1e triple knockout (TKO) embryonic stem cells (ESCs) display bulk chromatin decompaction. Following this initial work, we investigated the role of H1 and chromatin compaction in stem cell pluripotency and differentiation, as well as the regulation of Hox genes expression. We find that H1 TKO ESCs are more resistant to spontaneous differentiation, impaired in embryoid body differentiation, and largely blocked in neural differentiation. We present evidence that H1 contributes to efficient repression of the expression of pluripotency factors, Oct4 and Nanog, and participates in establishment and maintenance of DNA methylation and histone modification necessary for silencing pluripotency genes during stem cell differentiation and embryogenesis. In addition, we find reduced expression of a distinct set of Hox genes in embryos and ESCs, respectively. Furthermore, by characterizing H1c−/−; H1d−/−; and H1e−/− single-H1 null ESCs established in this study, we showed that individual H1 subtypes regulated specific Hox genes in ESCs. Finally, we demonstrate that the levels of H3K4me3 were significantly diminished at the affected Hox genes in H1 TKO- and single-H1 KO- ESCs, whereas H3K27me3 occupancy is modestly increased at specific Hox genes. Our results suggest that marked reduction of H1 levels and decondensation of bulk chromatin affect the expression of pluripotency genes and Hox genes in embryos and ESCs, which may be in part mediated through establishment and maintenance of epigenetic marks.

Histone h1

Hox genes

Stem cell differentiation

Pluripotency gene

Oct4

Nanog

Epigenetic marks

Implementace nových poznatků do biologického vzdělávání na modelovém příkladu kmenových buněk / Implementation of new findings to biology classes - the example of stem cells

Petrová, Ivana

January 2012

The aim of this study is to collect the recent data about the establishing the lines of pluripotent stem cell and the usage of these cells for biomedical purposes. On this example, we integrated the education in life science and social science. Pluripotent stem cells were used as a key topic. During our project, we completed the PowerPoint presentation which provides the elementary knowledge on the method for establishing of pluripotent cell lines and the usage of these cells for biomedicine. We created the Czech version of didactic game PlayDecide based on the European Union project. Based on the experiences from this didactic game, the students will learn basic information on pluripotent stem cells and their usage in biomedicine. Students will establish their own opinion on ethical aspects of this topic. Students could be able to defend their opinion and to acknowledge all problems which stem from the suggested solutions. We tested this didactic game in schools.

The brevity of G1 is an intrinsic determinant of naïve pluripotency / La brièveté de la phase G1 est une caractéristique fondamentale de l’état naïf de pluripotence

Coronado, Diana

19 December 2011

Les cellules souches embryonnaires (cellules ES) sont capables de se multiplier de façon autonome en l’absence de facteurs de croissance et de cytokines, un état appelé “état fondamental de pluripotence”. Le cycle cellulaire des cellules ES se caractérise : (i) par une expression élevée et uniforme de la cycline E et des complexes Cycline E-CDK2 au cours de la progression dans le cycle cellulaire et (ii) par une phase G1 très courte (1 heure) dont la traversée ne dépend ni des MAPK ni des points de contrôles régulés par la protéine du rétinoblastome (RB) et p53. Ces observations soulèvent la question de l’existence d’un lien de cause à effet entre ce phénomène de réplication autonome et la pluripotence. Mon projet de thèse se construit autour de trois axes qui montrent que : 1/ la phase G1 des cellules ES de souris est une phase de sensibilité accrue aux inducteurs de différenciation. 2/ la balance entre autorenouvellement et différenciation est perturbée, (i) quand l’expression de la cycline E est altérée, ou (ii) quand l’association de la cycline E avec la kinase CDK2 et le centrosome est bloquée. 3/ La signalisation par le LIF contrôle la formation et l’activation des complexes Cycline E/CDK2. Dans les cellules ES naïves Rex1+, l’allongement de la durée de la phase G1 induit par la privation de LIF précède, ou est concomitante, à la diminution de l’expression de marqueurs de pluripotence et à l’activation des marqueurs les plus précoces de la différenciation. Finalement, nous proposons un modèle dans lequel la signalisation par le LIF régule la transition G1/S et permet le maintien de l’autorenouvellement des cellules ES murines / Pluripotency can be captured and propagated in vitro from the epiblast of the pre-implantation blastocysts in the form of embryonic stem cells (ESCs). ESCs are capable of unlimited proliferation in an undifferentiated state while maintain the potential to differentiate into cells of all three germ layers in the embryo, including the germline. Two key features the ES cell mitotic cycle are (i) a vastly elevated and uniform expression of Cyclin E and Cyclin E/CDK2 complexes throughout the cell cycle and (ii) a short G1 phase characterized by the lack of RB- and p53-dependent checkpoints, and reduced dependency on MAPK signalling. During my PhD project, we explored whether and how the regulation of the cell cycle actively sustains self-renewal of mouse ESCs (mESCs). We demonstrated that: 1/ the G1 phase of mESCs is a phase of increased susceptibility to differentiation inducers. Thus shortening of G1 might shield undifferentiated cells from differentiation inducers and help ESCs to self-renew in the pluripotent state. 2/ Cyclin E opposes differentiation and supports self-renewal of mESCs by two independent mechanisms, one of which being independent of CDK2 activation. 3/ LIF signalling regulates Cyclin E/CDK2 kinase activity therefore accelerating the G1 to S phase transition. Finally, we propose a model in which LIF signalling stimulates the G1 to S phase transition to shield mESCs from undesired differentiation signals and help them to self-renew in the pluripotent state

Cellules souches embryonnaires

Phase G1

Pluripotence

Cycline E

Embryonic stem cells

G1 phase

Pluripotency

Cyclin E

571.6

Modelo de camundongo imunodeficiente (NSG) para enxertia de células-tronco hematopoéticas / Immunodeficient mouse (NSG) model for hematopoietic stem cell grafting.

Boas, Fernanda Lima Vilas

28 February 2019

O transplante de células-tronco hematopoéticas (CTHs) é o tipo de terapia celular mais usada atualmente. As células-tronco da medula óssea humana, do sangue periférico mobilizado e do sangue do cordão umbilical (SCU) são as únicas fontes de células utilizadas clinicamente para a recuperação hematopoética, mas elas têm uma disponibilidade limitada e apenas um terço dos pacientes apresentam um doador compatível. Uma fonte alternativa para suprir esta demanda seriam as células hematopoéticas derivadas a partir de células-tronco pluripotentes. Célulastronco embrionárias (CTE) são um tipo de células pulripotentes caracterizadas por sua capacidade ilimitada de autorrenovação e diferenciação em todas as células especializadas do indivíduo adulto. A alta capacidade de diferenciação dessas células em linhagens específicas por métodos de indução in vitro faz delas grandes promessas para o desenvolvimento de novas tecnologias aplicáveis à medicina regenerativa e terapia celular. Entretanto, ainda é necessário determinar se células-tronco hematopoéticas (CTH) geradas a partir de células pluripotentes são funcionais in vivo. Assim, o objetivo desse estudo consistiu no desenvolvimento de um modelo animal para o transplante de células hematopoéticas humanas provenientes de células pluripotentes e utilizamos CTH de sangue de cordão umbilical como controle. Para tanto, realizamos a padronização da dose de irradiação subletal nos camundongos NOD / SCID IL2R ? null (NSG) e utilizamos duas concentrações de células, 1x106 e 0,75x106 de células hematopoéticas diferenciadas a partir de CTE e células do cordão umbilical. Os animais que receberam as células do SCU apresentaram uma taxa mais elevada de enxertia em comparação aos que receberam ás células diferenciadas a partir de CTE humanas. Foi confirmado que após quinze dias do transplante, a hematopoese é restabelecida e que células CD45+ humanas estavam presentes, porém em baixas quantidades. Sobretudo, os resultados aqui apresentados enfatizaram o descrito na literatura, porém não ultrapassando a 1,5% de enxertia na medula óssea. Estes dados indicaram que os camundongos NSG proporcionaram um microambiente hematopoético favorável para as CTE humanas porém, essas células precisam ser investigadas no que tange aos fatores que aumentem de sua duração in vivo, otimizando a enxertia. / Hematopoietic stem cell transplantation (HSC) is the most widely used type of cell therapy nowadays. Human bone marrow, mobilized peripheral blood, and stem cells in the umbilical cord (UC) are the only sources of cells used clinically for hematopoietic recovery, but they have limited availability and only a third of patients have a matching donor. An alternative source to supply this demand would be hematopoietic cells derived from pluripotent stem cells. Embryonic stem cells (ESC) are a type of pulp-like cells characterized by their unlimited capacity for self-renewal and differentiation in all specialized cells of the adult individual. The high differentiation capacity of these cells in specific strains by in vitro induction methods makes great promises for the development of new technologies applicable to regenerative medicine and cell therapy. However, it remains to be determined whether hematopoietic stem cells (HTC) generated from pluripotent cells are functional in vivo. Thus, the objective of this study was to develop an animal model for the transplantation of human hematopoietic cells from pluripotent cells and to use HTC in the umbilical cord blood as a control. To do so, we performed standardization of the sublethal irradiation dose on the NOD / SCID IL2R ? null (NSG) mice and used two concentrations of cells, 1x106 and 0.75x106 hematopoietic cells differentiated from ESC and umbilical cord cells. The animals that received UC cells had a higher rate of grafting compared to those that received the differentiated cells from the human ESC. It was confirmed that after fifteen days of transplantation, hematopoiesis restored and that human CD45+ cells were present, but in low amounts. Above all, the results presented here emphasize the described in the literature, but not exceeding 1.5% of grafting in bone marrow. These data indicated that the NSG mice provided a hematopoietic microenvironment favorable to the human ESC, however, these cells need to be investigated with regard to factors that increase their duration in vivo, optimizing grafting.

Camundongo imunodeficiente

Células tronco hematopoéticas

Hematopoietic stem cells

Immunodeficient mouse

Pluripotência

Pluripotency

Transplant

Transplante

Avaliação do Papel da Via Canônica e Não Canônica de NFB na Manutenção da Pluripotência e na Diferenciação, por Meio da Técnica de Imunoprecipitação de Cromatina / Evaluation of Canonical and Non-Canonical NFB Pathways in the Maintenance of Pluripotency and Differentiation by Chromatin Immunoprecipitation Technique

Bezerra, Hudson Lenormando de Oliveira

30 September 2014

As células pluripotentes (CPs), em teoria, são capazes de dar origem a todos os mais de 200 tipos de células do organismo. Na natureza, há três tipos de células pluripotentes: células-tronco embrionárias, células germinais embrionárias e células de carcinoma embrionário. As características das CPs têm permitido um importante avanço para a pesquisa básica e apontam uma grande aplicabilidade na medicina regenerativa. No núcleo das CPs existem fatores atuantes responsáveis pela manutenção da identidade pluripotente; dentre eles destacam-se OCT4, NANOG, SOX2, KLF4 e MYC. Muito já se sabe sobre os mecanismos que estes fatores atuam para promover a manutenção da pluripotência celular. Baseados nestes estudos foi possível gerar células de pluripotência induzida (iPSCs). Porém, os mecanismos moleculares que direcionam a indução da pluripotência ainda não estão muito bem esclarecidos. Alguns estudos revelaram que componentes chaves da via NFB estão envolvidos na regulação da pluripotência, bem como na diferenciação e destino celular das células-tronco. Neste estudo, analisamos a participação de componentes da via canônica (RelA e NFB1) e não-canônica (RelB e NFB2) de NFB nos processos de diferenciação e destino celular ou manutenção da pluripotência. Para isto usamos técnicas de PCR quantitativa em Tempo Real (qPCR) e Imunoprecipitação de Cromatina (ChIP) investigando os papéis das vias canônica e não-canônica de NFB na manutenção da pluripotência e diferenciação de CPs, em um modelo de indução de diferenciação celular mediado por ácido trans-retinóico (atRA) em células de carcinoma embrionário NTera-2. Foram avaliadas as ligações dos fatores de transcrição RelA e RelB nas regiões promotoras dos genes OCT4, SOX2, MYC, KLF4 e GFAP e a regulação transcricional associada. Nossos resultados identificaram que as células não tratadas com atRA apresentaram níveis baixos na expressão dos componentes da via canônica de NFB, RelA e NFB1, e GFAP e quando induzidas à diferenciação por atRA durante 4 dias esses níveis se elevaram. Uma situação oposta foi vista nos componentes da via não-canônica de NFB, RelB e NFB2, e na expressão dos fatores de pluripotência OCT4, NANOG, SOX2 e KLF4, que apresentaram níveis de expressão elevados nas células não tratadas com atRA e sofreram redução com a indução da diferenciação celular. O ensaio de ChIP revelou que RelA liga-se nas regiões de regulação dos genes OCT4, SOX2, KLF4, MYC e GFAP apenas quando a célula está em processo de diferenciação, enquanto RelB se apresentou ligado às mesmas regiões tanto nas células indiferenciadas quanto naquelas induzidas à diferenciação por 4 dias. Com estes dados sugerimos que a via canônica de NFB pode estar relacionada com o processo de diferenciação e destino celular através da regulação negativa executada por RelA e NFB1 nos genes responsáveis pela identidade pluripotente das células aqui estudadas enquanto a via não-canônica de NFB, representada pela ativação de RelB e NFKB2, pode participar na manutenção da pluripotência através da regulação positiva destes mesmos fatores. / Human pluripotent stem cells (hPSCs) are able to give rise to all the 200 cell types of the adult organism. In nature, there are three types of hPSCs: embryonic stem cells, germ line stem cells and embryonal carcinoma cells. hPSCs characteristics have allowed a major advance in basic research, and are thought to have great applicability in regenerative medicine. In the nucleus of hPSCs there are transcription factors responsible for the maintenance of their pluripotent identity. OCT4, NANOG, SOX2, KLF4 and MYC are considered the core pluripotency factors in hPSCs. A great deal of knowledge about the mechanisms that promote and maintain pluripotency has been generated. Based on these studies it was possible to generate induced pluripotent stem cells (iPSCs). However, the molecular mechanisms that drive the induction of pluripotency are not fully understood. Some studies have recently indicated that key components of the NFkB may be involved in regulating pluripotency as well as cell differentiation and cell fate. In this study we analyzed the involvement of components of the canonical (RelA and NFB1) and the non-canonical NFB pathways (RelB and NFB2) in the maintenance of pluripotency, differentiation and cell fate processes. The techniques of quantitative real-time PCR (qPCR) and chromatin immunoprecipitation (ChIP) were used to interrogate the roles of the canonical and non-canonical NFB pathways in maintenance of pluripotency and differentiation in a model of cell differentiation induced by all trans-retinoic acid (atRA) on embryonal carcinoma cells NTera-2. The transcription factors RelA and RelB occupancy in the promoter regions of OCT4, SOX2, KLF4, MYC and GFAP, and the transcriptional regulation associated were evaluated. Our results showed that undifferentiated cells exhibited low expression levels of canonical NFB pathway components, RelA and NFB1, while cells induced to differentiate for 4 days exhibited downregulated expression of these factors. In the other hand, the non-canonical NFB pathway components, RelB and NFB2, and the pluripotency factors OCT4, NANOG, SOX2 and KLF4 were expressed in higher levels in undifferentiated cells, and were downregulated upon the differentiation process. ChIP assay revealed that RelA binds to the regulatory regions of OCT4, SOX2, KLF4, MYC, and GFAP only when cells are induced to differentiate, while RelB was found bound to the same regions in both undifferentiated and differentiated cells. This data suggests that the canonical NFB pathway may be associated to differentiation and cell fate processes by downregulation of genes responsible for the pluripotent identity, and that the non-canonical NFB pathway may act in the maintenance of pluripotency through the upregulation of the same factors.

Carcinoma embrionário

Células pluripotentes

Diferenciação

Differentiation

Embryonal carcinoma

NFB

NFB

Pluripotência

Pluripotency

Pluripotent stem cells

Avaliação morfofisiológica, histológica e histoquímica das vias morfogênicas na micropropagação de Neoregelia sp / Morphophysiological, histological and histochemical morphogenic pathways in Neoregelia sp micropropagation

Meneghetti, Eveline Calderan

24 April 2015

A família Bromeliaceae apresenta importância ecológica e econômica, desta forma, o desenvolvimento de protocolos para a micropropagação de espécies dessa família, faz-se necessário, a fim de suprir sua demanda comercial e mesmo ecológica. A escolha do meio de cultura e do explante utilizado durante a micropropagação são fundamentais para um protocolo eficaz. Nesse contexto, o objetivo deste estudo foi avaliar as diferenças quantitativas e qualitativas no desenvolvimento de explantes de Neoregelia sp em meios de cultura e monitorar as vias morfogênicas dos propágulos obtidos em explantes foliares. Para tanto, brotos de microcepas e explantes foliares procedentes de um micro jardim clonal, foram transferidos para os meios de cultura de multiplicação MS, ½ MS e WPM, todos suplementados com 0,050 mg.L-1 ANA e 0,50 mg.L-1 de BAP, onde foram mantidos por 120 dias e submetidos a diversas análises morfofisiológicas. Paralelamente, explantes foliares foram mantidos em meio de cultura MS de multiplicação para o monitoramento das vias morfogênicas durante os processos regenerativos. Para os experimentos com brotos de microcepas verificou-se que o meio de cultura MS proporcionou a melhor taxa de multiplicação, maior crescimento dos brotos, obtendo os valores mais elevados de peso de matéria fresca e seca, além disso, apresentaram maior acúmulo de nitrogênio total e proteico. No entanto, os meios de cultura ½ MS e WPM promoveram uma taxa de multiplicação semelhante a do MS, mas com brotos menores e menos vigorosos, porém, mais homogêneos, com isso, na dependência do objetivo do cultivo in vitro, não deve ser desconsiderada a possibilidade de utilização dos meios de cultura ½ MS e WPM. Os explantes foliares não se desenvolveram bem no meio de cultura WPM, não havendo diferença entre os meios MS e ½ MS, visto que ambos apresentaram resultados satisfatórios. As análises histológicas e histoquímicas identificaram células parenquimáticas, que atuam como células-tronco, manifestando capacidade morfogênica para toti ou pluripotência, dando origem respectivamente a embriões somáticos e gemas adventícias, em resposta aos estímulos in vitro. / The Bromeliaceae family has an ecological and economic importance, therefore, the protocols development for micropropagation of species of this family becomes necessary in order to meet its business and even its ecological demand. The choice of culture medium and the explant used during micropropagation are essential for an effective protocol. Thus, the aim of this study was to evaluate the quantitative and qualitative differences in the explants development of Neoregelia sp in the culture media and monitor the morphogenetic pathways of obtained propagules from leaf explants. Consequently, shoots and leaf explants coming from microcloning garden were transferred to the MS, ½ MS and WPM multiplication culture media, all supplemented with 0.050 mg.L-1 NAA and 0.50 mg.L-1 BAP, where they were held for 120 days and submitted to morphological and physiological analysis. Therefore, leaf explants were kept on MS-medium multiplication for monitoring morphogenetic pathways during the regenerative processes. Furthermore, MS medium showed the best multiplication rate for the sprouts of the microstumps, increased growth of shoots, obtaining the highest values of fresh and dry matter weight, and also showed higher accumulation of total nitrogen and protein. However, the ½ MS and WPM culture media promoted a similar multiplication rate to the MS medium, with the development of the smaller and less vigorous shoots, but with greater homogeneity. This way, depending on the purpose of in vitro culture, their use in the micropropagation for this species should not be disregarded. The leaf explants are not well developed in WPM medium, and don\'t had significant difference between the MS and ½ MS culture medium, as both showed satisfactory results. The histological and histochemical analysis identified the presence of the parenchymatic cells, which act as stem cells, expressing morphogenic ability for toti or pluripotency, leading respectively to somatic embryogenesis or adventitious organogenesis in response to in vitro stimuli.

Bromeliaceae

Adventitious organogenesis

Bromeliaceae

Embriogênese

Nitrogen

Nitrogênio

Organogênese Adventícia

Pluripotência

Pluripotency

Somatic embryogenesis

Somática

Totipotência

Totipotency

Estudo dos lipídeos relacionados aos mecanismos reguladores da pluripotência em Células-tronco Pluripotentes Induzidas (iPS) Humanas / Lipids profile changes associated to pluripotency regulatory mechanisms during mesenchymal cells reprogramming to Human Induced Pluripotent Stem cells (iPS)

Pires, Pedro Ratto Lisboa

02 June 2016

A geração de células-tronco pluripotentes induzidas (iPS) a partir de células somáticas demonstrou que células adultas de mamíferos podem ser reprogramadas a um estágio de pluripotência através da inserção de fatores de transcrição embrionários. Esta descoberta tem levantado questões fundamentais sobre os mecanismos, que através destes fatores de transcrição, influenciam epigeneticamente as células e seus potenciais de diferenciação após a reprogramação e um normal desenvolvimento. Componentes lipídicos e lipoprotéicos afetam vários aspectos no comportamento celular durante sua manutenção e diferenciação, podendo afetar diretamente fatores essenciais em processos de reprogramação celular, manutenção da pluripotência e perfil epigenético das células. Nesse sentido, esta tese propôs o estudo da composição lipídica com diferentes abordagens entre células iPS, células-tronco embrionárias (H1) e células fibroblastos (BJ). Foram produzidas três linhagens de células pluripotentes induzidas no modelo humano que foram caracterizadas quanto 1a sua pluripotência e utilizadas, juntamente às linhagens H1 e BJ como modelos para o estudo da composição lipídica proposto. Foram identificadas e estudadas um total de 44 espécies lipídicas das classes PC, PE, PI, SM e PS, e discutidas frente a reprogramação celular e manutenção da pluripotência. Foi identificado um padrão de composição fosfolipídica distinta entre células pluripotentes e não pluripotentes, e especulamos que a presença dessas espécies parecem ter um envolvimento fundamental para a manutenção da pluripotência. Este padrão, mostrou pela análise de componente principal, que durante o processo de reprogramação, alterações na composição lipídica ocorrem de forma com que a pluripotência surge durante a reprogramação, evidenciando alterações lipídicas particulares do estádio da pluripotência, sugerindo uma ligação entre estas alterações na composição lipídica com as alterações metabólicas da própria reprogramação celular. O estudo da quantificação de fosfolipídios entre linhagens celulares pluripotentes e não pluripotentes evidenciaram que existe uma diferença fosfolipídica entre estas linhagens, observamos que as linhagens iPS e H1, do ponto de vista das classes observadas e os fosfolipídios quantificados, são similares entre si e diferentes de células não pluripotentes. É evidente que estas moléculas lipídicas, individualmente, não são capazes de modular processos como a reprogramação celular, entretanto, é de extrema importância o entendimento das mesmas dentro da reprogramação celular e manutenção da pluripotência. Nossos dados sugerem que a composição lipídica de células pluripotentes tem importante papel para o desenvolvimento e evolução do processo de reprogramação celular e o entendimento da manutenção da pluripotência / The generation of induced pluripotent stem cells (iPS) from adult somatic cells has shown that mammalian cells can be reprogrammed to a pluripotent state by the insertion of embryonic transcription factors. This finding has raised questions about the fundamental mechanisms through which these transcription factors epigenetically influence cells, their potential of differentiation after reprogramming and normal development. Lipid and lipoprotein components affect numerous aspects of cell behavior during its maintenance and differentiation, which can directly affect main factors in cell reprogramming processes, maintenance of pluripotency and epigenetic profile of the cells. Thus, this thesis proposed to study, with different approaches, the lipid composition of iPS cells, embryonic stem cells (H1) and fibroblast cells (BJ). Three induced pluripotent cell lines were produced in the human model. They were characterized regarding their pluripotency and used along with H1 and BJ cell lines, as models for the proposed lipid composition study. A total of 44 species of lipid from the classes PC, PE, PI, PS and SM have been identified, studied and discussed regarding cellular reprogramming and maintenance of pluripotency. A different phospholipid composition pattern was observed between pluripotent and non-pluripotent cells, and it is speculated that the presence of these species appears to have a major involvement on the maintenance of pluripotency. This array showed, by the principal component analysis, that during the reprogramming process changes in the lipid composition occur, so that pluripotency takes place during reprogramming, highlighting lipid changes particular of the pluripotency state, suggesting a connection between these changes in lipid composition and the metabolic changes of cell reprogramming. The study of the quantitation of phospholipids from pluripotent and non-pluripotent cell lines indicated a phospholipid difference between these cell lines when considering the observed classes and quantified phospholipid. It was eminent that iPS lines and H1 are similar and differ from non-pluripotent cells. It is clear that these lipid molecules are not individually capable of modulating processes such as cell reprogramming, however, it is extremely important to understand them within cellular reprogramming and maintenance of pluripotency. Our data suggests that the lipid composition of pluripotent cells has important role in the development and evolution of cellular reprogramming process and the understanding the maintenance of pluripotency

Cellular reprogramming

Espectrometria de massas

iPS

iPS

Lipídios

Lipids

Mass spectrometry

Pluripotência

Pluripotency

Reprogramação celular

Uso de matriz extracelular (Matrigel®) para estabelecimento de cultivo de células-tronco embrionárias de suínos e caracterização da expressão de moléculas associadas à pluripotência / Use of extracellular matrix (Matrigel®) for establishment of porcine embryonic stem cells and expression characterization of plurpotency related molecules

Goissis, Marcelo Demarchi

13 June 2008

O estabelecimento de cultivo de células-tronco embrionárias (ESC) ainda não foi realizado com sucesso. Verificação de marcadores de pluripotência e diferenciação nos três folhetos germinativos são necessárias para validação de uma linhagem celular pluripotente. O objetivo deste estudo foi estabelecer e caracterizar o cultivo de ESC suínas usando Matrigel e comparar a expressão dos marcadores de pluripotência Oct-4, CD9 e α6-integrina em embriões. Blastocistos in vitro ou in vivo foram submetidos à imunocirurgia para cultura da massa celular interna, fixados para imunocitoquímica ou extração de RNA total para RT-PCR. Nenhuma colônia de ESC foi obtida usando co-cultivo em fibroblastos embrionários murinos (MEF) ou em Matrigel. Expressão de Oct-4, CD9 e α6-integrina foi detectada por PCR. Os produtos de PCR de CD9 e α6-integrina tiveram suas sequências nucleotídicas determinadas e comparadas com bases de dados públicas. O produto de CD9 foi idêntico à seqüência do CD9 suíno e o produto de α66integrina foi similar à humana e eqüina. Reação de Imunocitoquímica revelou a presença de Oct-4 no citoplasma de células da massa celular interna e do trofoblasto. CD9 e α6-integrina foram observados preferencialmente em células do trofoblasto. Não foi possível comparar a expressão dos marcadores de pluripotência entre ESC e embriões em suínos. Porém, este estudo descreve pela primeira vez a expressão de CD9 e α6-integrina em blastocistos suínos, os quais podem não estar relacionados com células pluripotentes embrionárias suínas. / Establishment of embryonic stem cell (ESC) culture in pigs has not been achieved. Verification of pluripotency markers and differentiation in the three embryonic layers are necessary for validation of a pluripotent cell line. The objective of this study was to establish and characterize porcine ESC culture using Matrigel and compare the expression of pluripotency markers Oct-4, CD9 and α6-integrin with embryos. In vitro or in vivo porcine blastocysts were submitted to immunosurgery for culture of inner cell mass, fixation for immunocytochemistry or total RNA extraction for RT-PCR. No ESC colonies were obtained using co-culture on mouse embryonic fibroblasts (MEF) or on Matrigel. Expression of Oct-4, CD9 and α6-integrin was detected by PCR. CD9 and α6-integrin PCR products had their nucleotide sequence assessed and compared with public nucleotide database. CD9 product was identical to CD9 porcine sequences and α6-integrin product was similar to human and equine α6-integrin. Immunocytochemistry revealed Oct-4 expression in cytoplasm of the inner cell mass and trophoblast cells. CD9 and α6-integrin were observed preferentially on trophoblast cells. It was not possible to compare expression of pluripotency markers between porcine ESC and embryos. However, this study describes for the first time expression of CD9 and α6-integrin in porcine blastocysts, which may not be related to pluripotent porcine embryonic cells.

Blastocisto

Blastocyst

Células-tronco embrionárias

Embryonic stem cells

Marcadores de pluripotência

Matrigel

Matrigel

Pluripotency markers

Porcine

Suínos

Role of Fibroblast Growth Factor 2 in Maintenance of Multipotency in Human Dermal Fibroblasts Treated with Xenopus Laevis Egg Extract Fractions

Kole, Denis

28 April 2014

Current usage of human embryonic stem cells (hES) and induced pluripotent stem cells (iPS) in clinical therapies and personalized medicine are limited as a result of ethical, technical and medical problems that arise from isolation and generation of these cells. Isolation of hES cells faces ethical problems associated with their derivation from human pre-implantation embryos. The most controversial aspect of hES cell isolation targets the generation of autologous hES cell lines which requires the transfer of a somatic-cell nucleus from the patient to an enucleated oocyte. While already established embryonic stem cell lines from IVF embryos can be used in a similar manner, lack of genetic identity can cause therapy rejection from the host, and prevent their use in personalized medicine. Induced pluripotent stem cells on the other hand, are generated from somatic cells that have been reprogrammed in vitro to behave like stem cells. While these cells can potentially be used for personalized medicine without the risk of rejection by the host system, derivation methods prevent their therapeutic use. The most efficient method used to generate iPS cells involves usage of viral particles which can result in viral DNA being integrated in the host cell’s genome and render these cells non-compliant for clinical therapies. Other methods not involving viral particles exist as well, but the reprogramming efficiency is too low and technical problems with generating large enough numbers of cells prevent these methods from being feasible approaches for clinical therapies. Direct reprogramming of a differentiated cell into a developmentally more plastic cell would offer alternatives to applications in regenerative medicine that currently depend on either embryonic stem cells (ES), adult stem cells or iPS cells. We hypothesize that Xenopus laevis egg cytoplasmic extract contains critical factors needed for reprogramming that may allow for non-viral, chemically defined derivation of human induced pluripotent/multipotent cells which can be maintained by addition of exogenous FGF2. In this thesis we investigated a new method for generation of multipotent cells through determining the ability of select fractions of Xenopus laevis egg extract to induce multipotency in already differentiated cells. We were able to identify select fractions from the extract that in combination with exogenously added FGF2 can reprogram and maintain the reprogrammed cells in an undifferentiated state. The findings of this work also determined that Xenopus laevis egg extract mRNA is required for achieving full reprogramming. The body of work presented in this thesis showed the ability of FGF2 isoforms to bind and activate select FGF receptor tyrosine kinases, act as extracellular mitogenic factors to support growth of hES cells in an undifferentiated state as well bind to nuclear DNA and affect expression of endogenous genes. Moreover, we showed that all FGF2 isoforms can induce expression of stem cell specific proteins in human dermal fibroblasts as well as extend lifespan of human dermal fibroblasts in vitro. In this work we identified HECW1, the gene coding for E3 ubiquitin ligase NEDL1, as a novel nuclear target for all FGF2 isoforms and showed that overexpression of recombinant FGF2 isoforms in human dermal fibroblasts can down regulate expression of HECW1 gene.

Induced pluripotent stem cells

Pluripotency

FGF2

Cellular reprogramming

Stem cells

Xenopus laevis egg extract