Platelet lysates-based hydrogels for the development of 3D models for bone cancer

Detalhes bibliográficos
Autor(a) principal: Monteiro, Cátia Filipa Rodrigues
Data de Publicação: 2018
Tipo de documento: Dissertação
Idioma: eng
Título da fonte: Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)
Texto Completo: http://hdl.handle.net/10773/25632
Resumo: Cancer is the second-leading cause of death worldwide and regarding the bone-related cancers, osteosarcoma (OS) is the most common primary malignant tumor which is characterized by its high potential to metastasize, predominantly affecting children and adolescents. Despite the innumerable efforts towards the development of new anti-cancer therapies, several efficacious drug candidates identified in preclinical tests fail during clinical trials. Three-dimensional (3D) cell culture systems have been proposed as reliable in vitro platforms for tumor modelling in an attempt to closely reproduce the tumor pathophysiology and properly identify effective therapies. Human methacryloyl platelet lysates (PLMA)-based hydrogels were recently proposed as cost-effective and biologically relevant 3D in vitro platforms for human cell growth and proliferation. Therefore, the aim of this work was, in a first approach, to validate the PLMA hydrogels as reliable 3D platforms to support in vivo-like cell spheroid invasion mechanisms and subsequently explore that potential to establish humanized 3D mono- and co-culture OS invasion models for drug screening and validation. Spheroids of three tumor cell lines (MG-63, SaOS-2 and A549) and human bone marrow-derived mesenchymal stem cells (hBM-MSC) were embedded into PLMA hydrogels (three different concentrations), Matrigel and poly(ethylene glycol) diacrylate. PLMA hydrogels demonstrated to support the phenotypic heterogeneity of solid tumors and the acquisition of an in vivo-like cell polarity. Furthermore, these hydrogels perfectly recapitulated the cell invasiveness ability, demonstrating that invasion speed can be easily controlled through PLMA hydrogel stiffness. The co-culture of MG-63 spheroids with human osteoblasts and hBM-MSCs demonstrated that the crosstalk between tumor invading cells and stromal cells was truly recapitulated into PLMA hydrogels. A doxorubicin treatment in mono- and co-culture OS models clearly reflected the protective role of stromal cells in OS chemoresistance, exhibiting a drug response closest to in vivo. Overall, the results validated the humanized PLMA-based hydrogels as reliable 3D in vitro platforms to support an in vivo-like tumor morphology and invasiveness. Moreover, the complexity of the established co-culture OS model provided a more pathophysiological in vitro environment for screening and validation of anti-metastatic agents in order to predict patients’ response and expedite the availability of effective therapies.
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spelling Platelet lysates-based hydrogels for the development of 3D models for bone cancerOsteosarcoma3D in vitro tumor modelsbiomaterialsPlatelet lysatesMulticellular tumor spheroidsDrug screeninCancer is the second-leading cause of death worldwide and regarding the bone-related cancers, osteosarcoma (OS) is the most common primary malignant tumor which is characterized by its high potential to metastasize, predominantly affecting children and adolescents. Despite the innumerable efforts towards the development of new anti-cancer therapies, several efficacious drug candidates identified in preclinical tests fail during clinical trials. Three-dimensional (3D) cell culture systems have been proposed as reliable in vitro platforms for tumor modelling in an attempt to closely reproduce the tumor pathophysiology and properly identify effective therapies. Human methacryloyl platelet lysates (PLMA)-based hydrogels were recently proposed as cost-effective and biologically relevant 3D in vitro platforms for human cell growth and proliferation. Therefore, the aim of this work was, in a first approach, to validate the PLMA hydrogels as reliable 3D platforms to support in vivo-like cell spheroid invasion mechanisms and subsequently explore that potential to establish humanized 3D mono- and co-culture OS invasion models for drug screening and validation. Spheroids of three tumor cell lines (MG-63, SaOS-2 and A549) and human bone marrow-derived mesenchymal stem cells (hBM-MSC) were embedded into PLMA hydrogels (three different concentrations), Matrigel and poly(ethylene glycol) diacrylate. PLMA hydrogels demonstrated to support the phenotypic heterogeneity of solid tumors and the acquisition of an in vivo-like cell polarity. Furthermore, these hydrogels perfectly recapitulated the cell invasiveness ability, demonstrating that invasion speed can be easily controlled through PLMA hydrogel stiffness. The co-culture of MG-63 spheroids with human osteoblasts and hBM-MSCs demonstrated that the crosstalk between tumor invading cells and stromal cells was truly recapitulated into PLMA hydrogels. A doxorubicin treatment in mono- and co-culture OS models clearly reflected the protective role of stromal cells in OS chemoresistance, exhibiting a drug response closest to in vivo. Overall, the results validated the humanized PLMA-based hydrogels as reliable 3D in vitro platforms to support an in vivo-like tumor morphology and invasiveness. Moreover, the complexity of the established co-culture OS model provided a more pathophysiological in vitro environment for screening and validation of anti-metastatic agents in order to predict patients’ response and expedite the availability of effective therapies.O cancro é a segunda principal causa de morte a nível mundial e, relativamente ao cancro do osso, o osteossarcoma (OS) é o tumor maligno primário mais comum caracterizado pelo seu elevado potencial metastático, afetando predominantemente crianças e adolescentes. Apesar dos inúmeros esforços que visam o desenvolvimento de novas terapias anti-cancerígenas, vários candidatos a fármacos identificados como eficazes nos testes pré-clínicos falham durante os ensaios clínicos. Os sistemas de cultura de células tridimensionais (3D) têm sido propostos como plataformas in vitro fidedignas para o desenvolvimento de modelos tumorais na tentativa de reproduzir a patofisiologia tumoral e identificar terapias eficazes. Hidrogéis baseados em lisados de plaquetas humanos metacrilatados (PLMA) foram recentemente propostos como plataformas in vitro 3D economicamente viáveis e biologicamente relevantes para o crescimento e proliferação de células humanas. Assim, o objetivo deste trabalho foi, numa primeira abordagem, validar os hidrogéis de PLMA como plataformas 3D para suportar mecanismos de invasão de esferóides e, subsequentemente, explorar esse potencial para estabelecer modelos humanizados 3D de OS em mono- e co-cultura para teste e validação de fármacos. Esferóides de três linhas celulares tumorais (MG-63, SaOS-2 e A549) e células estaminais mesenquimais humanas derivadas da medula óssea (hBM-MSC) foram embebidos em hidrogéis de PLMA (três concentrações diferentes), Matrigel e poli(etileno glicol) diacrilatado. Os hidrogéis de PLMA demonstraram suportar a heterogeneidade fenotípica dos tumores sólidos e a aquisição de uma polaridade celular semelhante à in vivo. Além disso, estes hidrogéis recapitularam perfeitamente a capacidade de invasão celular, demonstrando que a velocidade de invasão pode ser facilmente controlada através da rigidez dos hidrogéis de PLMA. A co-cultura de esferóides de MG-63 com osteoblastos humanos e hBM-MSCs demonstrou que a comunicação entre as células tumorais invasivas e as células estromais foi fielmente recapitulada nos hidrogéis de PLMA. Um tratamento com doxorubicina nos modelos de OS em mono- e co-cultura claramente refletiu o papel protetivo das células estromais na quimioresistência em OS, exibindo uma resposta ao fármaco mais próxima da obtida in vivo. Globalmente, os resultados validaram os hidrogéis humanizados baseados em PLMA como plataformas in vitro 3D fidedignas para suportar uma morfologia e invasão tumoral semelhante à in vivo. Além disso, a complexidade do modelo de OS de co-cultura estabelecido forneceu um ambiente in vitro mais patofisiológico para o teste e validação de agentes anti-metastáticos de modo a prever a resposta do paciente e acelerar a disponibilidade de terapias efetivas.2020-12-14T00:00:00Z2018-12-12T00:00:00Z2018-12-12info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/25632TID:202239241engMonteiro, Cátia Filipa Rodriguesinfo:eu-repo/semantics/openAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2024-02-22T11:49:41Zoai:ria.ua.pt:10773/25632Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T02:58:49.324950Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse
dc.title.none.fl_str_mv Platelet lysates-based hydrogels for the development of 3D models for bone cancer
title Platelet lysates-based hydrogels for the development of 3D models for bone cancer
spellingShingle Platelet lysates-based hydrogels for the development of 3D models for bone cancer
Monteiro, Cátia Filipa Rodrigues
Osteosarcoma
3D in vitro tumor models
biomaterials
Platelet lysates
Multicellular tumor spheroids
Drug screenin
title_short Platelet lysates-based hydrogels for the development of 3D models for bone cancer
title_full Platelet lysates-based hydrogels for the development of 3D models for bone cancer
title_fullStr Platelet lysates-based hydrogels for the development of 3D models for bone cancer
title_full_unstemmed Platelet lysates-based hydrogels for the development of 3D models for bone cancer
title_sort Platelet lysates-based hydrogels for the development of 3D models for bone cancer
author Monteiro, Cátia Filipa Rodrigues
author_facet Monteiro, Cátia Filipa Rodrigues
author_role author
dc.contributor.author.fl_str_mv Monteiro, Cátia Filipa Rodrigues
dc.subject.por.fl_str_mv Osteosarcoma
3D in vitro tumor models
biomaterials
Platelet lysates
Multicellular tumor spheroids
Drug screenin
topic Osteosarcoma
3D in vitro tumor models
biomaterials
Platelet lysates
Multicellular tumor spheroids
Drug screenin
description Cancer is the second-leading cause of death worldwide and regarding the bone-related cancers, osteosarcoma (OS) is the most common primary malignant tumor which is characterized by its high potential to metastasize, predominantly affecting children and adolescents. Despite the innumerable efforts towards the development of new anti-cancer therapies, several efficacious drug candidates identified in preclinical tests fail during clinical trials. Three-dimensional (3D) cell culture systems have been proposed as reliable in vitro platforms for tumor modelling in an attempt to closely reproduce the tumor pathophysiology and properly identify effective therapies. Human methacryloyl platelet lysates (PLMA)-based hydrogels were recently proposed as cost-effective and biologically relevant 3D in vitro platforms for human cell growth and proliferation. Therefore, the aim of this work was, in a first approach, to validate the PLMA hydrogels as reliable 3D platforms to support in vivo-like cell spheroid invasion mechanisms and subsequently explore that potential to establish humanized 3D mono- and co-culture OS invasion models for drug screening and validation. Spheroids of three tumor cell lines (MG-63, SaOS-2 and A549) and human bone marrow-derived mesenchymal stem cells (hBM-MSC) were embedded into PLMA hydrogels (three different concentrations), Matrigel and poly(ethylene glycol) diacrylate. PLMA hydrogels demonstrated to support the phenotypic heterogeneity of solid tumors and the acquisition of an in vivo-like cell polarity. Furthermore, these hydrogels perfectly recapitulated the cell invasiveness ability, demonstrating that invasion speed can be easily controlled through PLMA hydrogel stiffness. The co-culture of MG-63 spheroids with human osteoblasts and hBM-MSCs demonstrated that the crosstalk between tumor invading cells and stromal cells was truly recapitulated into PLMA hydrogels. A doxorubicin treatment in mono- and co-culture OS models clearly reflected the protective role of stromal cells in OS chemoresistance, exhibiting a drug response closest to in vivo. Overall, the results validated the humanized PLMA-based hydrogels as reliable 3D in vitro platforms to support an in vivo-like tumor morphology and invasiveness. Moreover, the complexity of the established co-culture OS model provided a more pathophysiological in vitro environment for screening and validation of anti-metastatic agents in order to predict patients’ response and expedite the availability of effective therapies.
publishDate 2018
dc.date.none.fl_str_mv 2018-12-12T00:00:00Z
2018-12-12
2020-12-14T00:00:00Z
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