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  • p53 as the Focus of Gene Therapy: Past, Present and Future
    Publication . Valente, Joana; Queiroz, João; Sousa, Fani
    Several gene deviations can be responsible for triggering oncogenic processes. However, mutations in tumour suppressor genes are usually more associated to malignant diseases, with p53 being one of the most affected and studied element. p53 is implicated in a number of known cellular functions, including DNA damage repair, cell cycle arrest in G1/S and G2/M and apoptosis, being an interesting target for cancer treatment.
  • Sensitive Detection of Peptide–Minicircle DNA Interactions by Surface Plasmon Resonance
    Publication . Gaspar, Vítor Manuel Abreu; Cruz, Carla Patrícia Alves Freire Madeira; Queiroz, João; Pichon, Chantal; Correia, Ilídio; Sousa, Fani
    Minicircle DNA (mcDNA) is recently becoming an exciting source of genetic material for therapeutic purposes due to its exceptional biocompatibility and efficiency over typical DNA. However, its widespread use is yet restrained because of the absence of an efficient technology that allows its purification. Here, the precise conditions of mcDNA interaction with novel arginine-arginine dipeptide ligands were explored to promote binding and recovery of these biopharmaceuticals. Such interactions were investigated by taking advantage of a highly sensitive method based on surface plasmon resonance (SPR) to screen, in real-time, for ligand-coupled biomolecules, while preserving mcDNA integrity. Through this analytic approach, we detected dynamic binding responses that are dependent on buffer type, mcDNA electrokinetic potential, and temperature conditions. Remarkably, the results obtained revealed that the ligands possess high affinity to mcDNA molecules under low salt buffers, and low affinity in the presence of salt, suggesting that electrostatic interactions mainly govern ligand–analyte coupling. These findings provide important insights for an active manipulation of parameters that promote mcDNA recovery and purification. Above all, this study showed the crucial importance of SPR for future screening of other ligands that, like the one described herein, can be used to design mcDNA recovery platforms which will have significant impact in biopharmaceutical-based therapeutics.
  • Plasmid purification by using a new naphthalene tripodal support
    Publication . Santos, Tiago; Proença, Z.; Queiroz, João; Tomaz, C. T.; Cruz, Carla
    The aim of this work was to employ a new naphthalene tripodal support for the isolation of supercoiled (sc) isoform of plasmid (pDNA) from a native sample. This support is for the first time synthesized and used in pDNA purification. The naphthalene tripodal ligand was synthesized and characterized to assess its purity and subsequently immobilized onto an epoxy-activated Sepharose CL-6B, using mild conditions and resulting in a ligand density of 0.32 mmol naphthalene tripodal/g derivatized Sepharose CL-6B. The complete characterization of naphthalene tripodal Sepharose CL-6B support was performed by High Resolution Magic Angle Spinning (HR-MAS) NMR spectroscopy, scanning electron microscopy (SEM) and elemental analysis. The affinity was measured by SPR biosensor between naphthalene tripodal ligand immobilized on the surface and sc pVAX1-LacZ and the KD was 8.65 10 8 ± 1.0 10 8 M in 10 mM Tris-HCl pH 8.0, at T = 25 C, indicating a high affinity. For comparison reasons, the affinity ligand 3,8-diamino-6-phenylphe nanthridine (DAPP) was also immobilized on the chip surface and the KD for sc pVAX1-LacZ is lower than with naphthalene tripodal. Saturation transfer difference-nuclear magnetic resonance spectroscopy (STD-NMR) experiments showed that the interactions between the naphthalene tripodal–Sepharose CL-6B and DAPP-Sepharose supports and the 50-mononucleotides are mainly hydrophobic and p-p stacking. The isolation of sc pDNA isoform was achieved with low salt concentrations, using 95 mM NaCl in binding step and 550 mM NaCl in elution step at T = 4 C and pH 8, thus reducing the economic and environmental impact.
  • Molecular diagnosis of Arcobacter and Campylobacter in diarrhoeal samples among Portuguese patients
    Publication . Ferreira, Susana; Júlio, Cláudia; Queiroz, João; Domingues, F.C.; Oleastro, Mónica
    The present study was conducted to investigate the prevalence and diversity of Arcobacter and Campylobacter spp. in 298 stool samples of patients with diarrhoea, collected from 22 Portuguese hospitals, between September and November 2012. Detection of Arcobacter and Campylobacter spp. was performed using molecular-based detection techniques, such as real-time fluorescence resonance energy transfer PCR, species-specific PCR, and sequencing of amplified PCR products. Overall, 1.3% of the samples were positive for Arcobacter butzleri and 0.3% for Arcobacter cryaerophilus. Campylobacter spp. were found in 31.9% of diarrhoeic faeces. Campylobacter jejuni and Campylobacter concisus were the most prevalent species (13.7% and 8.0%, respectively). The prevalence of Arcobacter and Campylobacter spp. was significantly different between children and adults (39.7% versus 22.8%, P = 0.003). We underline the high prevalence of these pathogens in diarrhoeal samples among Portuguese patients, with particular relevance in the paediatric age group.
  • Arginine homopeptides for plasmid DNA purification using monolithic supports
    Publication . Cardoso, Sara; Sousa, Ângela; Queiroz, João; Azzoni, Adriano; Sousa, Fani
    Purification of plasmid DNA targeting therapeutic applications still presents many challenges, namely on supports and specific ligand development. Monolithic supports have emerged as interesting approaches for purifying pDNA due to its excellent mass transfer properties and higher binding capacity values. Moreover, arginine ligands were already described to establish specific and preferential interactions with pDNA. Additionally, some studies revealed the ability of arginine based cationic peptides to condense plasmid DNA, which increased lengthening can result in strongest interactions with higher binding capacities for chromatographic purposes of large molecules such as pDNA. In this work, arginine homopeptides were immobilized in monolithic supports and their performance was evaluated and compared with a single arginine monolithic column regarding supercoiled (sc) plasmid DNA purification. Specific interactions of arginine based peptides with several nucleic acids present in a clarified Escherichia coli lysate sample showed potential for the sc pDNA purification. Effectively, the immobilization of the arginine homopeptides became more functional compared with the single arginine amino acid, showing higher binding capacities, which was also reflected in the intensity of the interactions. The combination of structural versatilities of monoliths with the specificity of arginine peptides raised as a promising strategy for sc pDNA purification.
  • Naphthalene amine support for G-quadruplex isolation
    Publication . Ferreira, João; Santos, Tiago; Pereira, Patrícia; Corvo, Marta C.; Queiroz, João; Sousa, Fani; Cruz, Carla
    G-quadruplex (G4) is involved in many biological processes, such as telomere function, gene expression and DNA replication. The selective isolation of G4 using affinity ligands that bind tightly and selectively is a valuable strategy for discovering new G4 binders for the separation of G4 from duplexes or the discrimination of G4 structures. In this work, one affinity chromatographic support was prepared using a naphthalene amine as a G4 binder. The ligand was immobilized on epoxy-activated Sepharose CL-6B using a long spacer arm and was characterized by HR-MAS spectroscopy. The supercoiled (sc) isoform of pVAX1-LacZ and pVAX1-G4 was isolated from a native sample. Also, the recovery and isolation of the plasmid isoforms from Escherichia coli lysate samples were achieved using an ionic gradient with different concentrations of NaCl in 10 mM Tris-HCl (pH 7.4). The retention times of different DNA/single strand sequences that can form G4, such as, c-MYC, c-kit1, c-kit2, tetrameric, telomeric (23AG), thrombin aptamer (TBA) and 58Sγ3 in this support were evaluated. Our experimental results suggest that the support exhibits selectivity for parallel c-MYC and c-kit1 G4s. In vitro transcription was performed using purified sc pVAX1-G4 and pPH600 to induce G4 formation and circular dichroism (CD) analysis confirmed that both transcripts adopt a parallel G4 topology.
  • Resveratrol against Arcobacter butzleri and Arcobacter cryaerophilus: Activity and effect on cellular functions
    Publication . Ferreira, Susana; Silva, Filomena; Queiroz, João; Oleastro, Mónica; Domingues, F.C.
    The frequent isolation of Arcobacter butzleri and Arcobacter cryaerophilus from food samples makes it imperative to search for potential compounds able to inhibit the development of these bacteria. Taking this into consideration, this study focuses on the antimicrobial activity of resveratrol and its mechanism of action against A. butzleri and A. cryaerophilus. The activity of resveratrol was assessed by a microdilution method and time-kill curves. Resveratrol effect on cellular functions was assessed by flow cytometry evaluating intracellular DNA content and metabolic activity. Ethidium bromide (EtBr) accumulation in the presence of resveratrol was also evaluated, as well as the susceptibility to resveratrol in the presence of phenylalanine-arginine β-naphthylamide (PAβN). Scanning electron microscopy (SEM) was used to further evaluate cell damage caused by resveratrol. Resveratrol presented MIC values of 100 and 50μg/mL to A. butzleri and A. cryaerophilus, respectively. Based on the time-kill curves, resveratrol exhibited bactericidal activity, leading to a ≥3log10CFU/mL reduction of initial inoculums, for A. butzleri exponential phase cells incubated for 6h with 1× MIC or with 2× MIC after 24h for stationary phase cells. For A. cryaerophilus cells in exponential growth phase, 99.9% killing was achieved after 24h incubation with 2× MIC, whereas, for stationary phase cells, bactericidal activity was only detected after incubation with 4× MIC. Incubation with resveratrol led to a decrease in both intracellular DNA content and metabolic activity. An increase in the accumulation of EtBr was observed in the presence of resveratrol, and the efflux pump inhibitor PAβN reduced the MIC of resveratrol. SEM analysis revealed disintegration of A. butzleri cells treated with resveratrol, whereas no morphological alteration was observed for A. cryaerophilus cells. Resveratrol has a good anti-Arcobacter activity, and the results obtained suggest that this compound could act through several different mechanisms in the inhibition of this microorganism. The results encourage the use of this compound for the development of potential strategies to control Arcobacter in food products.
  • Non-coding RNAs: Emerging from the discovery to therapeutic applications
    Publication . Baptista, Bruno; Riscado, Micaela; Queiroz, João; Pichon, Chantal; Sousa, F.
    The knowledge about non-coding RNAs (ncRNAs) is rapidly increasing with new data continuously emerging, regarding their diverse types, applications, and roles. Particular attention has been given to ncRNA with regulatory functions, which may have a critical role both in biological and pathological conditions. As a result of the diversity of ncRNAs and their ubiquitous involvement in several biologic processes, ncRNA started to be considered in the biomedical field, with immense potential to be exploited either as biomarkers or as therapeutic agents in certain pathologies. Indeed, ncRNA-based therapeutics have been proposed in many disorders and some even reached clinical trials. However, to prepare an RNA product suitable for pharmacological applications, certain criteria must be fulfilled, and it has to be guaranteed RNA purity, stability, and bioactivity. So, in this review, the different types of ncRNAs are identified and characterized, by describing their biogenesis, functions, and applications. A perspective on the main challenges and innovative approaches for the future and broad therapeutic application of RNA is also presented.
  • New insights for therapeutic recombinant human miRNAs heterologous production: Rhodovolum sulfidophilum vs Escherichia coli
    Publication . Pereira, Patrícia; Pedro, Augusto; Queiroz, João; Figueiras, Ana R.; Sousa, Fani
    RNA interference-based technologies have emerged as an attractive and effective therapeutic option with potential application in diverse human diseases. These tools rely on the development of efficient strategies to obtain homogeneous non-coding RNA samples with adequate integrity and purity, thus avoiding non-targeted gene-silencing and related side-effects that impair their application onto pre-clinical practice. These RNAs have been preferentially obtained by in vitro transcription using DNA templates or via chemical synthesis. As an alternative to overcome the limitations presented by these methods, in vivo recombinant production of RNA biomolecules has become the focus in RNA synthesis research. Therefore, using pre-miR-29b as a model, here it is evaluated the time-course profile of Escherichia coli and Rhodovolum sulfidophilum microfactories to produce this microRNA. As the presence of major host contaminants arising from the biosynthesis process may have important implications in the subsequent downstream processing, it is also evaluated the production of genomic DNA and host total proteins. Considering the rapidly growing interest on these innovative biopharmaceuticals, novel, more cost-effective, simple and easily scaled-up technologies are highly desirable. As microRNA recombinant expression fulfills those requirements, it may take the leading edge in the methodologies currently available to obtain microRNAs for clinical or structural studies.
  • A bi-layer electrospun nanofiber membrane for plasmid DNA recovery from fermentation broths
    Publication . Correia, Tiago R.; Antunes, Bernardo Paiva; Castilho, Pedro Henrique Barata; Nunes, José; Amorim, Maria T. Pessoa de; Escobar, Isabel; Queiroz, João; Correia, I.J.; Morão, António
    The demanding ever-increasing quantities of highly purified biomolecules by bio-industries, has triggered the development of new, more efficient, purification techniques. The application of membrane-based technologies has become very attractive in this field, for their high throughput capability, simplicity of operation and scale-up. Herein we report the production of a bi-layer membrane by electrospinning (ES), in which a support of poly ε-caprolactone nanofibers was coated with a polyethylene oxide/sodium alginate layer, and subsequently cross-linked with calcium chloride. The membranes were characterized by SEM, ATR-FTIR, contact angle measurements, and were applied in the recovery process of a plasmid. The results show that membranes retained the suspended solids while allowing the permeation of plasmid DNA, with high recovery yields and improved RNA retention. Moreover, they also showed a very low fouling tendency. To the best of our knowledge it is the first time that ES membranes are applied in this type of bioprocess.