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Master's Dissertation
DOI
https://doi.org/10.11606/D.17.2019.tde-10042019-100256
Document
Author
Full name
Fernanda Lima Vilas Boas
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
Ribeirão Preto, 2019
Supervisor
Committee
Haddad, Simone Kashima (President)
Almeida, Luciana Yamamoto de
Costa, Everton de Brito Oliveira
Orellana, Maristela Delgado
Title in Portuguese
Modelo de camundongo imunodeficiente (NSG) para enxertia de células-tronco hematopoéticas
Keywords in Portuguese
Camundongo imunodeficiente
Células tronco hematopoéticas
Pluripotência
Transplante
Abstract in Portuguese
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.
Title in English
Immunodeficient mouse (NSG) model for hematopoietic stem cell grafting.
Keywords in English
Hematopoietic stem cells
Immunodeficient mouse
Pluripotency
Transplant
Abstract in English
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.
 
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Publishing Date
2019-06-11
 
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