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Doctoral Thesis
DOI
https://doi.org/10.11606/T.41.2016.tde-17052016-164444
Document
Author
Full name
Carolina de Oliveira Rodini
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2016
Supervisor
Committee
Okamoto, Oswaldo Keith (President)
Annichini, Maria Sol Brassesco
Nakahata, Adriana Miti
Secco, Mariane
Silva, Eloiza Helena Tajara da
Title in Portuguese
Contribuição das células-tronco mesenquimais para as propriedades tumorigênicas de células de glioblastoma humano
Keywords in Portuguese
Células-tronco mesenquimais
Glioblastoma
Microambiente tumoral
TGFB1
Abstract in Portuguese
Células-tronco mesenquimais (CTM) apresentam tropismo a tumores, sendo importantes componentes do estroma tumoral. No cérebro, o nicho perivascular é uma importante fonte de CTM, as quais podem contribuir direta e/ou indiretamente para o desenvolvimento de tumores, embora os mecanismos envolvidos sejam pouco conhecidos. No presente trabalho, investigou-se a influência de CTM sobre a proliferação, capacidade invasiva e tumorigenicidade de células de Glioblastoma (GBM) humano. Sabe-se que CTM produzem TGFB1, uma citocina multifuncional envolvida em imunomodulação, proliferação, migração e transição epitelial-mesenquimal de células tumorais. Experimentos in vitro, realizados com meios condicionados de CTM de cordão umbilical humano com silenciamento permanente do gene TGFB1, demonstraram que o TGFB1 secretado por CTM é capaz de aumentar significativamente a proliferação e viabilidade de células de GBM humano da linhagem U87FP635. Esses resultados revelam uma importante ação parácrina dessa citocina regulatória, quando produzida por outros tipos celulares contidos no microambiente tumoral. Entretanto, sob condições experimentais que melhor mimetizam o microambiente tumoral, detectou-se que CTM também afetam o comportamento de células tumorais por um mecanismo alternativo, dependente de contato celular, mas independente dos níveis de TGFB1 secretados pelas CTM. Sob condições de cocultivo celular, envolvendo contato físico entre CTM e células de GBM U87FP635, detectou-se um aumento significativo na quantidade de células tumorais viáveis. Quando cultivadas na forma de esferoides tumorais, o contato com CTM aumentou a capacidade invasiva das células U87FP635. Finalmente, em modelo in vivo ectópico de GBM, células U87FP635 geraram tumores mais desenvolvidos quando coinjetadas com CTM. Esses efeitos pró-tumorigênicos foram observados tanto em contato com CTM controles, quanto com CTM contendo o gene TGFB1 permanentemente silenciado. Assim, esses achados indicam que CTM podem exercer efeitos pró-tumorigênicos por dois mecanismos alternativos e independentes: ação parácrina de TGFB1 secretado por CTM e ação mediada por contato célula-célula. Nas condições experimentais testadas, o mecanismo dependente de contato célula-célula demonstrou ser predominante. O estudo proteômico do secretoma dessas células identificou 126 proteínas diferencialmente expressas além de 10 proteínas exclusivamente detectadas em meios condicionados de cocultivos de CTM com células de GBM U87FP635. Cerca de 80% dessas proteínas exclusivamente secretadas pelo contato célula-célula são componentes de exossomos e estão envolvidas em proliferação celular e desenvolvimento tecidual. Esses resultados apontam uma interação dinâmica de comunicação entre CTM e células tumorais, e revelam algumas proteínas interessantes potencialmente envolvidas em uma ação pró-tumorigênica de CTM mediada por contato celular
Title in English
Contribution of mesenchymal stem cells to the tumorigenic properties of human glioblastoma cells
Keywords in English
Glioblastoma
Mesenchymal stem cells
TGFB1
Tumor microenvironment
Abstract in English
Mesenchymal stem cells (MSC) display tropism to tumors, being recruited to its microenvironment where they comprise the tumor stroma. In brain, perivascular niche is a substantial source of MSC. Although mechanisms involved are poorly understood, MSC may directly and/or indirectly contribute to tumor development. Herein, the influence of MSC on the proliferation, invasiveness and tumorigenicity of human glioblastoma cells (GBM) was investigated. Moreover, since MSC releases TGFB1, a multifunctional cytokine with roles in immunomodulation, proliferation, migration and epithelial-mesenchymal transition of tumor cells, we analyzed if MSC-secreted TGFB1 affects GBM behavior. In vitro studies performed in the presence of conditioned media from human umbilical cord MSC with a stable TGFB1 gene expression knockdown showed that MSC-secreted TGFB1 is able to significantly increase the proliferation and viability of a GBM cell line (U87FP635). These results revealed an important paracrine effect of this regulatory cytokine when secreted by other cell types in tumor microenvironment. However, under experimental conditions that better mimic the tumor microenvironment, it was found that MSC also affect tumor cell behavior by an alternative mechanism dependent on cell-cell contact, but independent of TGFB1 levels secreted by MSC. The cell-cell contact between MSC and GBM U87FP635 significantly enhaced tumor viable cells. Additionally, the spheroid tumor cell culture with MSC cell contact increased the invasiveness of U87FP635 cells. Finally, in vivo ectopic implantation model showed more developed tumors when GBM U87FP635 cells were coinjected with MSC. These pro-tumorigenic effects were found both in cell-cell contact with control MSC, as with MSC containing TGFB1 gene expression knockdown. Thus, these findings indicate that MSC can exert pro-tumorigenic effects by two alternative and independent mechanisms: paracrine action of TGFB1 secreted by MSC and action mediated by cell-cell contact. In the present experimental conditions, the cell-cell contact-dependent mechanism was predominant. The secretome proteomic study of those cells identified 126 differentially expressed proteins as well as 10 proteins exclusively detected in conditioned media from GBM U87FP635 cell cocultures with MSC. About 80% of proteins uniquely secreted by cell-cell contact are exosomes components and are involved in cell proliferation and tissue development. These results indicate a dynamic interaction of communication between MSC and tumor cells and reveal some interesting proteins potentially involved in a MSC pro-tumorigenic action mediated by cell contact
 
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Publishing Date
2016-07-01
 
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