Validation of single cell RNA-sequencing markers in differentiated C17.2 cells

Thunegard, Lisa

January 2024

The developing brain is sensitive to chemical exposures, however, currently there is a lack of good, regulatory accepted methods to study developmental neurotoxicity (DNT). The cell line C17.2 can be used as a model for DNT studies since it has the capacity to differentiate into neuronal and neuroglial populations. However, in a recent experiment, single cell RNA sequencing (scRNAseq) indicated that the cell line might contain a good proportion of fibroblasts. The aim of this project was to complement the scRNAseq with staining for protein markers for specific cell types in order to elucidate the cellular composition of differentiated and undifferentiated C17.2 cultures. The markers Hyaluronan-Mediated Motility Receptor (HMMR), vimentin and Platelet Derived Growth Factor Receptor A (PDGFRA) were identified as promising markers for radial glial cells (RGC) and subsequently fibroblast and validated by immunofluorescence. HMMR by itself was used as a marker for RGC and was, as expected, decreasing during the differentiation process. Co-localization of vimentin and PDGFRA was used as markers for fibroblast. However, the conditions for the PDGFRA-antibody could not be optimized due to time restraints. Thus no specific staining could be obtained and no conclusions could be drawn regarding the presence or absence of fibroblasts in the culture. The results emphasize the need for more optimisation or the selection of more specific markers, e.g. Collagen type I alpha 1 (Col1a1). Further, these findings highlight the complexity of the cellular composition and the need for other methods to characterize C17.2.

C17.2

characterization

immunofluorescence

fibroblast

markers

cellular composition

Natural Sciences

Naturvetenskap

Avaliação do perfil de expressão gênica de células CD34+ e células CD CD133+ isoladas de medula óssea e de sangue de cordão umbilical

Oliveira, Lucila Habib Bourguignon [UNESP]

19 August 2008

Made available in DSpace on 2014-06-11T19:22:21Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-08-19Bitstream added on 2014-06-13T19:07:44Z : No. of bitstreams: 1 oliveira_lhb_me_arafcf.pdf: 553720 bytes, checksum: b0f8f04b07802f8bf467e43259c87fba (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Universidade Estadual Paulista (UNESP) / A maior expressão de alvos transcricionais e componentes da via NFkB é uma característica distintiva das células-tronco hematopoéticas (CTH) CD34+ de sangue de cordão umbilical (SCU) comparadas às CTH CD34+ de medula óssea (MO) e pode estar relacionada com o estado mais primitivo das CTH dos neonatos. No entanto, as células CD34+ são um grupo heterogêneo de célulastronco (CT) e progenitoras em diferentes estágios de maturação e diferenças na composição celular entre MO e SCU poderiam contribuir para os resultados mencionados. Estudos recentes têm identificado o marcador de superfície CD133, como um marcador de CT mais primitivas, expresso em uma subpopulação de células CD34bright, com um sugestivo potencial de hemangioblasto. Com o objetivo de caracterizar a composição celular de MO e SCU e identificar mecanismos moleculares envolvidos com a maior primitividade das células CD133+, propusemos avaliar o perfis imunofenotípico (quanto à expressão de CD34 e CD133) por citometria de fluxo e de expressão gênica de células CD34+ e células CD133+ selecionadas imunomagneticamente, de ambas as fontes, pelas técnicas de microarray e PCR em tempo real. Nossos resultados revelaram que enquanto a maioria das células CD133+ são CD34+, independente da fonte, as células CD34+ de SCU possuem uma porcentagem significativamente maior de células CD133+ do que às células CD34+ de MO. A análise de clusterização revelou que as células CD133+ de MO se agrupam com as células de SCU (CD34+ e CD133+), enquanto as CD34+ de MO aparecem como um grupo distinto. A comparação dos perfis de expressão gênica entre as células CD133+ e as células CD34+, revelou a hiper-expressão... / A higher expression of transcription targets and components of the NF-kB pathway is a distinctive feature of umbilical cord blood (UCB) CD34+ hematopoietic stem cells (HSC) when compared to bone marrow (BM) CD34+ HSC and this could be related to the more primitive state of the newborn’s HSC. However, CD34+ cells represent a heterogeneous group of cells composed by stem and progenitors cells in different developmental stages, and differences in cellular composition between both sources could contribute for these finding. The surface marker CD133 has been identified as a very primitive marker, expressed in a subpopulation of CD34bright, with a proposal hemangioblast potential. Thus, in attempt to better characterize the cellular composition of UCB and BM and to identify molecular mechanisms related to the more primitive characteristics of CD133+ cells, we proposed to evaluate the immunophenotypic profile (expression of CD34 and CD133) by flow-cytometry and the gene expression profiles of immunomagnetically selected CD34+ and CD133+ cells, from both sources, by microarray and Real time PCR. Our results highlighted that, while almost all CD133+ cells are CD34+ independently of the evaluated source, the UCB CD34+ cells showed a significantly higher proportion of CD133 expression, compared to BM CD34+ cells. After obtaining the expression profiles from distinct HSC pooled samples generated by microarrays, cluster analysis showed that BM CD133+ cells preferentially grouped with UCB cells (CD34+ and CD133+) instead of BM CD34+ cells, which appeared as a very distinct profile The comparison between CD133+ and CD34+ samples revealed the over-expression of 47 transcriptional factors (TF) in CD133+ cells, many of them well-known and related... (Complete abstract click electronic access below)

Sangue do cordão umbilical

Medula ossea

Células-tronco hematopoéticas

Perfil de expressão gênica

Hematopoietic stem cells

Umbilical cord blood

Bone marrow

Cellular composition

Gene expression profile

Avaliação do perfil de expressão gênica de células CD34+ e células CD CD133+ isoladas de medula óssea e de sangue de cordão umbilical /

Oliveira, Lucila Habib Bourguignon.

January 2008

Orientador: Dimas Tadeu Covas / Banca: Dimas Tadeu Covas / Banca: Rodrigo Alexandre Panepucci / Banca: Haroldo Wilson Moreira / Resumo: A maior expressão de alvos transcricionais e componentes da via NFkB é uma característica distintiva das células-tronco hematopoéticas (CTH) CD34+ de sangue de cordão umbilical (SCU) comparadas às CTH CD34+ de medula óssea (MO) e pode estar relacionada com o estado mais primitivo das CTH dos neonatos. No entanto, as células CD34+ são um grupo heterogêneo de célulastronco (CT) e progenitoras em diferentes estágios de maturação e diferenças na composição celular entre MO e SCU poderiam contribuir para os resultados mencionados. Estudos recentes têm identificado o marcador de superfície CD133, como um marcador de CT mais primitivas, expresso em uma subpopulação de células CD34bright, com um sugestivo potencial de hemangioblasto. Com o objetivo de caracterizar a composição celular de MO e SCU e identificar mecanismos moleculares envolvidos com a maior primitividade das células CD133+, propusemos avaliar o perfis imunofenotípico (quanto à expressão de CD34 e CD133) por citometria de fluxo e de expressão gênica de células CD34+ e células CD133+ selecionadas imunomagneticamente, de ambas as fontes, pelas técnicas de microarray e PCR em tempo real. Nossos resultados revelaram que enquanto a maioria das células CD133+ são CD34+, independente da fonte, as células CD34+ de SCU possuem uma porcentagem significativamente maior de células CD133+ do que às células CD34+ de MO. A análise de clusterização revelou que as células CD133+ de MO se agrupam com as células de SCU (CD34+ e CD133+), enquanto as CD34+ de MO aparecem como um grupo distinto. A comparação dos perfis de expressão gênica entre as células CD133+ e as células CD34+, revelou a hiper-expressão... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: A higher expression of transcription targets and components of the NF-kB pathway is a distinctive feature of umbilical cord blood (UCB) CD34+ hematopoietic stem cells (HSC) when compared to bone marrow (BM) CD34+ HSC and this could be related to the more primitive state of the newborn's HSC. However, CD34+ cells represent a heterogeneous group of cells composed by stem and progenitors cells in different developmental stages, and differences in cellular composition between both sources could contribute for these finding. The surface marker CD133 has been identified as a very primitive marker, expressed in a subpopulation of CD34bright, with a proposal hemangioblast potential. Thus, in attempt to better characterize the cellular composition of UCB and BM and to identify molecular mechanisms related to the more primitive characteristics of CD133+ cells, we proposed to evaluate the immunophenotypic profile (expression of CD34 and CD133) by flow-cytometry and the gene expression profiles of immunomagnetically selected CD34+ and CD133+ cells, from both sources, by microarray and Real time PCR. Our results highlighted that, while almost all CD133+ cells are CD34+ independently of the evaluated source, the UCB CD34+ cells showed a significantly higher proportion of CD133 expression, compared to BM CD34+ cells. After obtaining the expression profiles from distinct HSC pooled samples generated by microarrays, cluster analysis showed that BM CD133+ cells preferentially grouped with UCB cells (CD34+ and CD133+) instead of BM CD34+ cells, which appeared as a very distinct profile The comparison between CD133+ and CD34+ samples revealed the over-expression of 47 transcriptional factors (TF) in CD133+ cells, many of them well-known and related... (Complete abstract click electronic access below) / Mestre

Sangue do cordão umbilical.

Medula óssea.

Hematopoietic stem cells. eng

Umbilical cord blood. eng

Bone marrow. eng

Cellular composition. eng

Gene expression profile. eng