DEFAR - Departamento de Farmácia

URI permanente desta comunidadehttp://www.hml.repositorio.ufop.br/handle/123456789/530

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2019 - 201912020 - 20225

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Autor: search.filters.author.Machado, Marina Guimarães Carvalho

Resultados da Pesquisa

Agora exibindo 1 - 6 de 6
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    In vitro interaction of polyethylene glycol‐block‐poly (D,L‐lactide) nanocapsule devices with host cardiomyoblasts and trypanosoma cruzi‐infective forms.
    (2022) Siqueira, Raoni Pais; Milagre, Matheus Marques; Oliveira, Maria Alice de; Branquinho, Renata Tupinambá; Torchelsen, Fernanda Karoline Vieira da Silva; Lana, Marta de; Machado, Marina Guimarães Carvalho; Andrade, Margareth Spangler; Bahia, Maria Terezinha; Mosqueira, Vanessa Carla Furtado
    Chagas disease, caused by the protozoan Trypanosoma cruzi, is an important public health problem in Latin America. Nanoencapsulation of anti-T. cruzi drugs has signifcantly improved their efcacy and reduced cardiotoxicity. Thus, we investigated the in vitro interaction of polyethylene glycol-block-poly(D,L-lactide) nanocapsules (PEG-PLA) with trypomas- tigotes and with intracellular amastigotes of the Y strain in cardiomyoblasts, which are the infective forms of T. cruzi, using fuorescence and confocal microscopy. Fluorescently labeled nanocapsules (NCs) were internalized by non-infected H9c2 cells toward the perinuclear region. The NCs did not induce signifcant cytotoxicity in the H9c2 cells, even at the highest concentrations and interacted equally with infected and non-infected cells. In infected cardiomyocytes, NCs were distrib- uted in the cytoplasm and located near intracellular amastigote forms. PEG-PLA NCs and trypomastigote form interactions also occurred. Altogether, this study contributes to the development of engineered polymeric nanocarriers as a platform to encapsulate drugs and to improve their uptake by diferent intra- and extracellular forms of T. cruzi, paving the way to fnd new therapeutic strategies to fght the causative agent of Chagas disease.
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    Photodynamic therapy with the dual-mode association of IR780 to PEG-PLA nanocapsules and the effects on human breast cancer cells.
    (2022) Machado, Marina Guimarães Carvalho; Oliveira, Maria Alice de; Lanna, Elisa Gomes; Siqueira, Raoni Pais; Lana, Gwenaelle Elza Nathalie Pound; Branquinho, Renata Tupinambá; Mosqueira, Vanessa Carla Furtado
    IR780 is a near-infrared fluorescent dye, which can be applied as a photosensitizer in photodynamic (PDT) and photothermal (PTT) therapies and as a biodistribution tracer in imaging techniques. We investigated the growth and migration inhibition and mechanism of death of breast tumor cells, MCF-7 and MDA-MB-231, exposed to polymeric nanocapsules (NC) comprising IR780 covalently linked to the biodegradable polymer PLA (IR-PLA) and IR780 physically encapsulated (IR780-NC) in vitro. Both types of NC had mean diameters around 120 nm and zeta potentials around − 40 mV. IR-PLA-NC was less cytotoxic than IR780 NC to a non-tumorigenic mammary epithelial cell line, MCF-10A, which is an important aspect of selectivity. Free-IR780 was more cytotoxic than IR- PLA-NC for MCF-7 and MDA-MB-231 cells after illumination with a 808 nm laser. IR-PLA NC was effective to inhibit colony formation (50%) and migration (30–40%) for both cancer cell lines. MDA-MB-231 cells were less sensitive to all IR780 formulations compared to MCF-7 cells. Cell uptake was higher with IR-PLA-NC than with IR780-NC and free-IR780 in both cancer cell lines (p < 0.05). NC uptake was higher in MCF-7 than in MDA-MB- 231 cells. IR-PLA-NC induced a higher percentage of apoptosis upon illumination in MDA-MB-231 than in MCF-7 cells. The necrosis mechanism of death predominated in treatments with free-IR780 and with encapsulated IR780 NC, suggestive of damages at the plasma membrane. IR780 conjugated with PLA increased the apoptotic pathway and demonstrated potential as a multifunctional theranostic agent for breast cancer treatment with increased cellular uptake, photodynamic activity and more reliable tracking in cell-image studies.
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    Release, transfer and partition of fluorescent dyes from polymeric nanocarriers to serum proteins monitored by asymmetric flow field-flow fractionation.
    (2021) Oliveira, Maria Alice de; Lana, Gwenaelle Elza Nathalie Pound; Oliveira, Patricia Capelari de; Pontífice, Thaís Godinho; Silva, Sabrina Emanuelle Dias; Machado, Marina Guimarães Carvalho; Postacchini, Bruna Bueno; Mosqueira, Vanessa Carla Furtado
    Fluorescent probes are used in drug nanocarrier pre-clinical studies or as active compounds in theranostics and photodynamic therapy. In the biological medium, nanoparticles interact with proteins, which can result in the off-target release of their cargo. The present study used asymmetric flow field-flow fractionation with online multi-angle laser light scattering and fluorescence detection (AF4-MALLS-FLD) to study the release, transfer, and partition of fluorescent dyes from polymeric nanoparticles (NP). NP formulations containing the dyes Rose Bengal, Rhodamine B, DiI, 3-(α-azidoacetyl)coumarin and its polymer conjugate, Nile Red, and IR780 and its polymer conjugate were prepared. NP suspensions were incubated in a medium with serum proteins and then analyzed by AF4. AF4 allowed efficient separation of proteins (< 10 nm) from fluorescently labeled NP (range of 54 – 180 nm in diameters). The AF4 analyses showed that some dyes, such as Rose Bengal, IR780, and Coumarin were transferred to a high extent (68-77%) from NP to proteins. By contrast, for DiI and dye-polymer conjugates, transfer occured to a lower extent. The studies of dye release kinetics showed that the transfer of IR780 from NP to proteins occurs at a high extent (~50%) and rate, while Nile Red was slowly released from the NP over time with reduced association with proteins (~20%). This experiment assesses the stability of fluorescence labeling of nanocarriers and probes the transfer of fluorescent dyes from NP to proteins, which is otherwise not accessible with commonly used techniques of separation, such as dialysis and ultrafiltration/centrifugation employed in drug encapsulation and release studies of nanocarriers. Determining the interaction and transfer of dyes to proteins is of utmost importance in the pre-clinical evaluation of drug nanocarriers for improved correlation between in vitro and in vivo studies.
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    Lipid-based nanocarriers co-loaded with artemether and triglycerides of docosahexaenoic acid : effects on human breast cancer cells.
    (2020) Lanna, Elisa Gomes; Siqueira, Raoni Pais; Machado, Marina Guimarães Carvalho; Souza, Aline de; Trindade, Izabel Cristina; Branquinho, Renata Tupinambá; Mosqueira, Vanessa Carla Furtado
    Artemether (ART) was combined with triglyceride of docosahexaenoic acid (DHA) as the lipid-core in nano emulsions (NE), nanostructured lipid carriers (NLC), and PEG-PLA nanocapsules (NC) formulations, and their effects on human breast cancer cells were evaluated. ART has been extensively used for malaria and has also therapeutic potential against different tumor cells in a repositioning strategy. The concentration-dependent cytotoxicity in vitro was determined in tumor lineages, MDA-MB-231 and MCF-7, and non-tumor MCF-10A cells for free-ART/DHA combination and its formulations. The cells were monitored for viability, effects on cell migration and clonogenicity, cell death mechanism, and qualitative and quantitative cell uptake of nanocarriers. The lipid-nanocarriers showed mean sizes over the range of 110 and 280 nm with monodisperse populations and zeta potential values ranging from − 21 to − 67 mV. The ART encapsulation efficiencies varied from 57 to 83 %. ART/DHA co-loaded in three different lipid nanocarriers reduced the MDA-MB-231 and MCF-7 viability in a dose-dependent manner with enhanced selectivity toward tumor cell lines. They also reduced clonogenicity and the ability of cells to migrate showing antimetastatic potential in both cell lines and triggered apoptosis in MCF-7 cells. Confocal microscopy and flow cytometry analysis showed that NC, NLC, and NE were rapidly internalized by cells, with higher interaction displayed by NE with MCF-7 cells compared to NC and NLC that was correlated with the strongest NE-fluorescence in cells. Therefore, this study not only demonstrated the value of this new combination of ART/DHA as a new strategy for breast cancer therapy but also showed enhanced cytotoxicity and potential metastatic activity of lipid-based formulations against human breast cancer cells that indicate great potential for pre-clinical and clinical translation.
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    Labeling PLA-PEG nanocarriers with IR780 : physical entrapment versus covalent attachment to polylactide.
    (2020) Machado, Marina Guimarães Carvalho; Lana, Gwenaelle Elza Nathalie Pound; Oliveira, Maria Alice de; Lanna, Elisa Gomes; Fialho, Márcia Célia Pacheco; Brito, Ana Carolina Ferreira de; Barboza, Ana Paula Moreira; Soares, Rodrigo Dian de Oliveira Aguiar; Mosqueira, Vanessa Carla Furtado
    Near-infrared fluorescent dyes, such as IR780, are promising theranostics, acting as photosensitizers for photodynamic therapy and in vivo tracers in image-guided diagnosis. This work compared the uptake by macrophage-like cells of IR780 either physically associated or covalently attached to poly(D,L-lactide) (PLA) formulated as polymeric nanocapsules (NC) from a blend of PLA homopolymer and PLA-PEG block copolymer. The physicochemical characterization of both NC was conducted using asymmetric flow field-flow fractionation (AF4) analysis with static and dynamic light scattering and atomic force micros copy. The interaction of IR780 with serum proteins was evidenced by AF4 with fluorescence detection and flow cytometry in cell uptake studies. The average diameters of NC were around 120 nm and zeta potentials close to -40 mV for all NC. NC uptake by cells in different media and experimental conditions shows significantly lower fluorescence intensities for IR780 covalently linked to PLA and correspondingly low quantitative uptake. Different mechanisms of internalization were evidenced depending on the IR780 type of association to NC. Serum proteins mediate IR780 interaction with cells in a dose-dependent manner. Our results show that non-covalently linked IR780 was released from NC and accumulated in macrophage cells. Oppositely, IR780 conjugated to PLA provides stable association with NC, and its fluorescence is representative of cell uptake of the nanocarrier itself. This work strongly reinforces the importance of covalent attachment of a fluorescence dye such as IR780 to the nanocarrier to study their interaction with cells in vitro and to obtain reliable tracking in image-guided therapy.
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    IR780-polymer conjugates for stable near-infrared labeling of biodegradable polyester-based nanocarriers.
    (2019) Oliveira, Maria Alice de; Machado, Marina Guimarães Carvalho; Silva, Sabrina Emanuelle Dias; Nascimento, Thais Leite; Lima, Eliana Martins; Lana, Gwenaelle Elza Nathalie Pound; Mosqueira, Vanessa Carla Furtado
    Near-infrared dyes are useful to monitor nanocarriers in vitro and in vivo and can serve as photosensitizers in cancer photodynamic therapy. However, strategies need to be developed to guarantee that the dye photophysical properties and loading within the drug delivery system remain stable for reliable tracking within biological systems. This work reports the facile chemical conjugation of the carbocyanine heptamethine near-infrared dye IR780 to polylactide for stable fluorescent labeling of biodegradable polyester nanocarriers. “Clickable” polylactide was synthesized via organocatalyzed ring opening polymerization of D,L-lactide with a cyclooctyne initiator. IR780 was derivatized and conjugated to polylactide via a one-pot copper-free azide-alkyne cycloaddition reaction. The synthetic strategy developed was effective to promote conjugation of the near-infrared fluorescent dye to polylactide, as confirmed by high performance liquid chromatography. Nanoparticles containing the dye–polymer conjugate were prepared by nanoprecipitation and characterized. Asymmetric flow field-flow fractionation with light scattering and fluorescence detection revealed that the near-infrared fluorescence of the nanoparticles remained stable and was not transferred to serum proteins. In contrast, significant transfer of the dye to serum proteins was evidenced when the dye was merely encapsulated in similar nanoparticles through physical entrapment. Confocal microscopy and fluorescence tomography imaging showed that the polymer-dye conjugate confers fluorescence properties to the NP suitable for further in vitro and in vivo pre-clinical studies.