Doctoral Thesis
DOI
https://doi.org/10.11606/T.59.2019.tde-11012019-144632
Document
Author
Full name
Priscilla Freddi
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
Ribeirão Preto, 2018
Supervisor
Costa Filho, Antônio José da (Catálogo USP)
Vicente, Eduardo Festozo - (Co-supervisor) (Catálogo USP)
Vicente, Eduardo Festozo - (Co-supervisor) (Catálogo USP)
Committee
Costa Filho, Antônio José da (President)
Araujo, Ana Paula Ulian de
Cilli, Eduardo Maffud
Ruggiero Neto, Joao
Vicente, Eduardo Festozo
Araujo, Ana Paula Ulian de
Cilli, Eduardo Maffud
Ruggiero Neto, Joao
Vicente, Eduardo Festozo
Title in Portuguese
Interações moleculares no mecanismo de ação de peptídeos de fusão e complexos metálicos de interesse farmacológico
Keywords in Portuguese
Cobre
Complexos metálicos
Espectroscopia
Membrana-modelo
Peptídeo de fusão da dengue
Complexos metálicos
Espectroscopia
Membrana-modelo
Peptídeo de fusão da dengue
Abstract in Portuguese
O entendimento em nível molecular da interação tanto de vírus causadores de doenças (ou parte deles, como proteínas e peptídeos) quanto de moléculas candidatas a fármacos, é de suma importância para a terapia e tratamento de doenças. Neste trabalho, utilizamos técnicas biofísicas e bioquímicas para o estudo da interação entre miméticos de membrana e dois grupos de pequenas moléculas. A primeira relacionada a uma doença, o peptídeo de fusão da Dengue, sequência putativa da glicoproteína E do vírus da Dengue, e que se conserva entre outros flavivírus, como o vírus da Zika. Já o segundo grupo é formado por compostos de coordenação de cobre, Fenantrolina e os dipeptídeos Ala-Gly e Ala-Phe: Cu(L-dipeptídeo)(Fenantrolina), e que são potenciais candidatos a fármacos antitumorais. Nossos resultados mostram que as moléculas de ambos os grupos são capazes de interagir e modificar as propriedades do sistema mimético de membrana. Indicando que, por um lado, se pode pensar em estratégias de bloqueio da interação para evitar infecção pelo vírus e, por outro lado, se pode usar nossos resultados para melhor planejar formas de potencializar a interação em mecanismos de entrega de fármaco e/ou de difusão pela barreira física representada pelo sistema de membranas da célula tumoral
Title in English
Molecular interactions in the action mechanism of fusion peptides and metal complexes of pharmacological interest
Keywords in English
Copper
Dengue fusion peptide
Metal complexes
Model-membrane
Spectroscopy
Dengue fusion peptide
Metal complexes
Model-membrane
Spectroscopy
Abstract in English
The understanding at the molecular level of the interaction of both disease-causing viruses (or part thereof, such as proteins and peptides) and drug-candidate molecules is of paramount importance for the therapy and treatment of such diseases. In this work, we use biophysical techniques to study the interaction between membrane mimetics and two groups of small molecules. The first one is related to a disease, the Dengue fusion peptide, putative sequence of Dengue virus glycoprotein E, which is conserved among other flaviviruses, such as the Zika virus. The second group consists of coordination compounds of copper, Phenantroline and the dipeptides Ala-Gly and Ala-Phe: Cu (L-dipeptide) (phenanthroline), which are potential candidates for antitumor drugs. Our results show that the molecules form both groups are capable of interacting and modifying the physic-chemical properties of the mimetic membrane system. This indicates that, on one hand, one can think in strategies of blocking the interaction to avoid virus infection and, on the other hand, one can use our results to improve membrane interaction in drug delivery mechanisms and/or for facilitating diffusion through the physical barrier represented by the membranes in tumor cells
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Publishing Date
2019-03-26
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