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Master's Dissertation
DOI
https://doi.org/10.11606/D.5.2018.tde-05122018-131346
Document
Author
Full name
Isabele Fattori Moretti
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2018
Supervisor
Committee
Marie, Suely Kazue Nagahashi (President)
Costa, Erico Tosoni
Giannella, Maria Lucia Cardillo Correa
Paiva, Wellingson Silva
Title in Portuguese
Receptor do tipo Toll 4 dentre os TLRs de membrana plasmática possui um papel na malignidade de astrocitomas
Keywords in Portuguese
Astrocitoma
Fator nuclear - kappa B
Glioblastoma
Inflamação
Lipopolissacarídeos
Proliferação celular
Receptores Toll-like
Abstract in Portuguese
Os receptores do tipo Toll (TLRs) são as primeiras proteínas do sistema imune a identificarem distúrbios, reconhecem patógenos como bactérias, fungos e vírus. Como o processo inflamatório possui um importante papel em diversas doenças, os TLRs foram considerados potenciais alvos em estratégias terapêuticas, incluindo o tratamento de câncer. No entanto, o papel dos TLRs permanece ambíguo. Esse estudo teve como objetivos analisar os níveis de expressão dos TLRs presentes em membrana plasmática, TLRs (TLR1, TLR2, TLR4, TLR5, TLR6) em astrocitomas de diferentes graus de malignidade (grau II-IV), tumor mais prevalente do Sistema Nervoso Central (SNC). Nós demonstramos que a expressão dos TLRs foi mais alta em amostras de astrocitomas comparadas com tecido cerebral não-neoplásico, por qRT-PCR. A expressão gênica e proteica foi observada em células de linhagem de glioblastoma (GBM) U87MG e A172, mostrando sua presença em células tumorais. Foi observada expressão associada entre os heterodímeros TLR1- TLR2. Em GBMs, o subtipo mesenquimal mostrou maior nível de expressão dos TLRs comparados aos subtipos clássico e proneural. Com o objetivo de identificar o papel dos TLRs nas células tumorais, foi selecionado dentre os TLRs o que apresentou maior nível de expressão, o TLR4, e realizamos ensaios funcionais estimulando a U87MG com LPS, um agonista natural para TLR4. A taxa de proliferação da célula tratada com LPS foi similar a não tratada. No entanto, foi observado a ativação do NF-kB após 12hrs do estímulo com LPS. Quando a sinalização do receptor foi inibida por um composto químico (VGX-1027), o nível de proliferação da U87MG decaiu. Adicionalmente, análise in silico revelou uma forte associação dos TLRs hiperexpressos com aumento da expressão de genes relacionados à sinalização do ciclo celular, inflamassoma e ripoptossoma. O que sugere serem os TLRs alvos para complementação do tratamento do câncer
Title in English
Toll-like receptor 4 among the plasmatic membrane Toll like receptors plays a role in astrocytoma malignancy
Keywords in English
Astrocytoma
Cell proliferation, Inflammation
Glioblastoma
Lipopolysaccharides
Nuclear factor - kappa B
Toll like receptors
Abstract in English
Toll-like receptors (TLRs) are the first to identify disturbances in the immune system, recognizing pathogens such as bacteria, fungi, and viruses. Since the inflammation process plays an important role in several diseases, TLRs have been considered potential therapeutic targets, including treatment for cancer. However, TLRs' role in cancer remains ambiguous. This study aims to analyze the expression levels of plasmatic cell membrane TLRs (TLR1, TLR2, TLR4, TLR5, and TLR6) in different grades (II-IV) of human astrocytoma, the most prevalent tumor of CNS. We demonstrated that TLR expressions were higher in astrocytoma samples compared to non-neoplastic brain tissue, by qRT-PCR. The genes and proteins expressions were observed in U87MG and A172 GBM cell lines, proving their presence in the tumor cells. Associated expressions between the known heterodimers TLR1-TLR2 were found in diffusely infiltrative astrocytoma. In GBM, the mesenchymal subtype showed higher levels of TLR expressions in relation to classical and proneural subtypes. Aiming to indentify the role of TLRs in tumor cells, we chose the highest TLR expressed in GBM cells, the TLR4, and performed functional assays stimulating U87MG-GBM cell line with LPS, a natural agonist for TLR4. The proliferation rate was similar in treated and non-treated cell with LPS. However, NF-kB activation was detected after 12hrs of LPS stimulation. When TLR4 signaling pathway was inhibited by a chemical compound (VGX-1027) a decrease in the proliferation rate was observed. Additionally, in silico analysis revealed a strong association of TLRs upregulation with increased expression level of genes related to cell cycle, inflammasome and ripoptosome pathways, further highlighting TLRs as interesting targets for cancer complementary treatment
 
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Publishing Date
2018-12-07
 
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