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Browsing by Author "Diogo, Duarte Miguel de Melo"

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  • 3D tumor spheroids: an overview on the tools and techniques used for their analysis
    Publication . Costa, Elisabete C.; Moreira, André; Diogo, Duarte Miguel de Melo; Gaspar, V. M.; Carvalho, Marco António Paulo de; Correia, I.J.
    In comparison with 2D cell culture models, 3D spheroids are able to accurately mimic some features of solid tumors, such as their spatial architecture, physiological responses, secretion of soluble mediators, gene expression patterns and drug resistance mechanisms. These unique characteristics highlight the potential of 3D cellular aggregates to be used as in vitro models for screening new anticancer therapeutics, both at a small and large scale. Nevertheless, few reports have focused on describing the tools and techniques currently available to extract significant biological data from these models. Such information will be fundamental to drug and therapeutic discovery process using 3D cell culture models. The present review provides an overview of the techniques that can be employed to characterize and evaluate the efficacy of anticancer therapeutics in 3D tumor spheroids.
    2016-11-11Journal article Restricted access Show more
  • Bioreducible poly(2-ethyl-2-oxazoline)–PLA–PEI-SS triblock copolymer micelles for co-delivery of DNA minicircles and Doxorubicin
    Publication . Gaspar, Vítor Manuel Abreu; Baril, Patrick; Costa, Elisabete C.; Diogo, Duarte Miguel de Melo; Foucher, Frédéric; Queiroz, João; Sousa, Fani; Pichon, Chantal; Correia, I.J.
    The co-delivery of minicircle DNA (mcDNA) and small anti-cancer drugs via stimuli-sensitive nanocarriers is a promising approach for combinatorial cancer therapy. However, the simultaneous loading of drugs and DNA in nanosized delivery systems is remarkably challenging. In this study we describe the synthesis of triblock copolymer micelles based on poly(2-ethyl-2-oxazoline)–poly(L-lactide) grafted with bioreducible polyethylenimine (PEOz–PLA-g–PEI-SS) for co-delivery of supercoiled (sc) mcDNA vectors and Doxorubicin (Dox). These amphiphilic carriers take advantage of non-fouling oxazolines to confer biological stability, of PLA to provide a hydrophobic core for drug encapsulation and of bioreducible PEI-SS to provide mcDNA complexation and an on-demand stimuli-responsive release. The obtained results show that mcDNA-loaded micelleplexes penetrate into in vitro tumor spheroid models with specific kinetics and exhibit a higher gene expression when compared to non-bioreducible nanocarriers. Moreover, in vivo bioluminescence imaging showed that gene expression is detected up to 8 days following mcDNA-micelles intratumoral administration. Furthermore, drug–gene co-delivery in PEOz–PLA-g–PEI-SS carriers was verified by successful encapsulation of both Dox and mcDNA with high efficacy. Moreover, dual-loaded micelleplexes presented significant uptake and a cytotoxic effect in 2D cultures of cancer cells. The co-delivery of mcDNA-Dox to B16F10-Luciferase tumor bearing mice resulted in a reduction in tumor volume and cancer cells viability. Overall, such findings indicate that bioreducible triblock micelles are efficient for focal delivery in vivo and have potential for future application in combinatorial DNA-drug therapy.
    2015-07-13Journal article Restricted access Show more
  • Characterization of OmcA Mutants from Shewanella oneidensis MR‐1 to Investigate the Molecular Mechanisms Underpinning Electron Transfer Across the Microbe‐Electrode Interface
    Publication . Neto, Sónia de Fátima Estevão; Diogo, Duarte Miguel de Melo; Correia, I.J.; Paquete, Catarina; Louro, Ricardo
    Electricity production in microbial fuel cells (MFCs) is an emerging green alternative to the use of fossil fuels. Shewanella oneidensis MR‐1 (SOMR‐1) is a Gram‐negative bacterium, adapted to MFCs due to its ability to link its bioenergetic metabolism through the periplasm to reduce extracellular electron acceptors. OmcA is a highly abundant outer‐membrane cytochrome of SOMR‐1 cells and is involved in the extracellular electron transfer to solid acceptors and electron shuttles. To investigate electron transfer performed by OmcA towards final acceptors, site directed mutagenesis was used to disturb the axial coordination of hemes. Interactions between OmcA and redox partners such as iron and graphene oxides, and electron shuttles were characterized using nuclear magnetic resonance and stopped‐flow experiments. Results showed that solid electron acceptors do not come into close proximity to the hemes, in agreement with experimentally observed slow electron transfer. In contrast, mutation of the distal axial ligand of heme VII changes the driving force of OmcA towards electron shuttles and reduces the affinity of the FMN:OmcA complex. Overall, these results reveal a functional specificity of particular hemes of OmcA and provide guidance for the rational design of mutated SOMR‐1 strains optimized for operating in different microbial electrochemical devices.
    2017-07-25Journal article Restricted access Show more
  • ClearT immersion optical clearing method for intact 3D spheroids imaging through confocal laser scanning microscopy
    Publication . Costa, Elisabete C.; Moreira, André; Diogo, Duarte Miguel de Melo; Correia, Ilídio Joaquim Sobreira
    Spheroids are 3D in vitro platforms that fill the gap between the 2D cell cultures and animal models on the therapeutics development pipeline. Yet, the methods and equipment used in the in vitro assays are optimized for the analysis of cells cultured as monolayers. For instance, confocal laser scanning microscopy (CLSM) does not allow the observation of thick intact spheroids due to light penetration issues. To overcome this limitation, spheroids treatment with clearing agents started to be explored. Herein, we demonstrate for the first time the application of ClearT clearing method for the imaging of propidium iodide (PI) stained spheroids by CLSM. The results demonstrate that the ClearT is a reversible clearing method that does not influence the structure of the spheroid and significantly improved the PI signal penetration depth in about 43%. Additionally, ClearT also enhanced the cells imaging within the spheroid by increasing the cross-penetration depth in 46.6% at 100 µm of depth. Overall, the results show that ClearT method may allow the improvement of the CLSM accuracy on the evaluation of the cellular death within spheroids prompted by therapeutics.
    2018Journal article Restricted access Show more
  • Combinatorial delivery of Crizotinib–Palbociclib–Sildenafil using TPGS-PLA micelles for improved cancer treatment
    Publication . Diogo, Duarte Miguel de Melo; Gaspar, Vítor Manuel Abreu; Costa, Elisabete C.; Moreira, André; Oppolzer, David; Gallardo, Eugenia; Correia, Ilídio Joaquim Sobreira
    The co-delivery of multiple chemotherapeutics by micellar delivery systems is a valuable approach to improve cancer treatment since various disease hallmarks can be targeted simultaneously. However, the delivery of multiple drugs requires a nanocarrier structure that can encapsulate various bioactive molecules. In this study, we evaluate the simultaneous encapsulation of a novel triple drug combination in D-α-tocopheryl polyethylene glycol 1000 succinate-poly(lactic acid) (TPGS-PLA) amphiphilic micelles for cancer therapy. The drug mixture involves two anti-tumoral drugs, Crizotinib and Palbociclib combined with Sildenafil, a compound that is capable of increasing drug accumulation in the intracellular compartment. Such combination aims to achieve an enhanced cytotoxic effect in cancer cells. Our results demonstrated that TPGS-PLA copolymers self-assembled into stable nanosized micelles (158.3 nm) capable of co-encapsulating the three drugs with high loading efficiency. Triple drug loaded TPGS-PLA micelles were internalized in A549 non-small lung cancer cells and exhibited an improved cytotoxic effect in comparison with single (Crizotinib) or dual (Crizotinib–Palbociclib) drug loaded micelles, indicating the therapeutic potential of the triple co-delivery strategy. These findings demonstrate that TPGS-PLA micelles are suitable carriers for multiple drug delivery and also that this particular drug combination may have potential to improve cancer treatment.
    2014-10-13Journal article Restricted access Show more
  • Comparative study of the therapeutic effect of Doxorubicin and Resveratrol combination on 2D and 3D (spheroids) cell culture models
    Publication . Barros, Andreia; Costa, Elisabete C.; Nunes, Ana Raquel Santos; Diogo, Duarte Miguel de Melo; Correia, Ilídio Joaquim Sobreira
    The assessment of drug-combinations for pancreatic cancer treatment is usually performed in 2D cell cultures. In this study, the therapeutic effect and the synergistic potential of a particular drug-combination towards 2D and 3D cell cultures of pancreatic cancer were compared for the first time. Thus, the effect of Doxorubicin:Resveratrol (DOX:RES) combinations (at molar ratios ranging from 5:1 to 1:5) in the viability of PANC-1 cells cultured as 2D monolayers and as 3D spheroids was analyzed. The results showed that the cells’ viability was more affected when DOX:RES combinations containing higher contents of RES (1:2–1:5 molar ratios) were used. This can be explained by the ability of RES to reduce the P-glycoprotein (P-gp)-mediated efflux of DOX. Further, it was also revealed that the synergic effect of this drug combination was different in 2D and in 3D cell cultures. In fact, despite of the 1:4 and 1:5 DOX:RES ratios being both synergistic for both types of PANC-1 cell cultures, their Combination Indexes (CI) in the monolayers were lower than those attained in spheroids. Overall, the obtained results revealed that the DOX:RES combination is promising for pancreatic cancer treatment and corroborate the emergent need to evaluate drug combinations in 3D cell cultures.
    2018-09-11Journal article Restricted access Show more
  • D-α-tocopheryl polyethylene glycol 1000 succinate functionalized nanographene oxide for cancer therapy
    Publication . Diogo, Duarte Miguel de Melo; Silva, Cleide Isabel Pais; Costa, Elisabete C.; Louro, Ricardo; Correia, Ilídio Joaquim Sobreira
    Aim: To evaluate the therapeutic capacity of D-α-tocopheryl polyethylene glycol 1000 succinate (TPGS)-functionalized nanographene oxide (nGO) in breast cancer cells. Methods: TPGS-functionalized nGO-based materials were obtained through two different approaches: a simple sonication method and a one-pot hydrothermal treatment. Results: TPGS coating successfully improved the stability of the nGO-based materials. The nanomaterials that underwent the hydrothermal procedure generated a 1.4- to 1.6-fold higher temperature variation under near infrared laser irradiation than those prepared only by sonication. In vitro, the TPGS/nGO derivatives reduced breast cancer cells’ viability and had an insignificant effect on healthy cells. Furthermore, the combined application of TPGS/nGO derivatives and near infrared light generated an improved therapeutic effect. Conclusion: TPGS/nGO derivatives are promising materials for breast cancer phototherapy.
    2017-02-09Journal article Restricted access Show more
  • Establishment of 2D Cell Cultures Derived From 3D MCF‐7 Spheroids Displaying a Doxorubicin Resistant Profile
    Publication . Nunes, Ana Raquel Santos; Costa, Elisabete C.; Barros, Andreia; Diogo, Duarte Miguel de Melo; Correia, Ilídio Joaquim Sobreira
    In vitro 3D cancer spheroids generally exhibit a drug resistance profile similar to that found in solid tumors. Due to this property, these models are an appealing for anticancer compounds screening. Nevertheless, the techniques and methods aimed for drug discovery are mostly standardized for cells cultured in 2D. The development of 2D cell culture models displaying a drug resistant profile is required to mimic the in vivo tumors, while the equipment, techniques, and methodologies established for conventional 2D cell cultures can continue to be employed in compound screening. In this work, the response of 3D‐derived MCF‐7 cells subsequently cultured in 2D in medium supplemented with glutathione (GSH) (antioxidant agent found in high levels in breast cancer tissues and a promoter of cancer cells resistance) to Doxorubicin (DOX) is evaluated. These cells demonstrated a resistance toward DOX closer to that displayed by 3D spheroids, which is higher than that exhibited by standard 2D cell cultures. In fact, the 50% inhibitory concentration (IC50) of DOX in 3D‐derived MCF‐7 cell cultures supplemented with GSH is about eight‐times higher than that obtained for conventional 2D cell cultures (cultured without GSH), and is only about two‐times lower than that attained for 3D MCF‐7 spheroids (cultured without GSH). Further investigation revealed that this improved resistance of 3D‐derived MCF‐7 cells may result from their increased P‐glycoprotein (P‐gp) activity and reduced production of intracellular reactive oxygen species (ROS).
    2018-09Journal article Restricted access Show more
  • Functionalization of graphene family nanomaterials for application in cancer therapy
    Publication . Diogo, Duarte Miguel de Melo; Sousa, Ana Rita Lima; Alves, Cátia; Costa, Elisabete C.; Louro, Ricardo; Correia, Ilídio Joaquim Sobreira
    Graphene family nanomaterials’ (GFN) ability to interact with near-infrared light has propelled their application in cancer photothermal therapy. Furthermore, the graphitic lattice of GFN can adsorb different types of molecules, which has motivated their use in cancer drug delivery. However, the direct application of GFN in cancer therapy is severely hindered by their poor colloidal stability, sub-optimal safety, inefficient tumor uptake and non-selectivity towards cancer cells. To overcome these limitations, GFN have been functionalized with different types of materials. This review is focused on the different functionalizations used in the design of GFN aimed for application in cancer therapy, disclosing their role on surpassing the critical issues related to GFN-based therapies.
    2018-07-17Journal article Restricted access Show more
  • Hyaluronic acid functionalized green reduced graphene oxide for targeted cancer photothermal therapy
    Publication . Sousa, Ana Rita Lima; Diogo, Duarte Miguel de Melo; Alves, Cátia; Costa, Elisabete C.; Ferreira, Paula; Louro, Ricardo; Correia, Ilídio Joaquim Sobreira
    Reduced graphene oxide (rGO) nanomaterials display promising properties for application in cancer photothermal therapy (PTT). rGO is usually obtained by treating graphene oxide (GO) with hydrazine hydrate. However, this reducing agent contributes for the low cytocompatibility exhibited by rGO. Furthermore, rGO has a low water stability and does not show selectivity towards cancer cells. Herein, rGO attained using an environmentally-friendly method was functionalized with a novel hyaluronic acid (HA)-based amphiphilic polymer to be used in targeted cancer PTT. Initially, the green-reduction of GO with L-Ascorbic acid was optimized considering the near infrared absorption and the size distribution of the nanomaterials. Then, rGO was functionalized with the HA-based amphiphile. The functionalization of rGO improved its stability, cytocompatibility and internalization by CD44 overexpressing cells, which indicates the targeting capacity of this nanoformulation. Furthermore, the on-demand PTT mediated by HA-functionalized rGO induced cancer cells’ ablation, thereby confirming its potential for targeted cancer therapy.
    2018-07-24Journal article Restricted access Show more