Publications by authors named "Francisco Sarabia"

Cannabidiol (CBD) is garnering increasing interest due to its significant biological activity. This natural compound is one of the major cannabinoids in Cannabis sativa L. In this work, we describe the encapsulation of CBD in solid and hollow pH-sensitive poly(4-vinylpyridine) (solid@p4VP and hollow@p4VP) nanoparticles, and temperature-sensitive poly(N-isopropylacrylamide) (solid@pNIPAM and hollow@pNIPAM) nanoparticles for transport and release CBD in a controlled manner.

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The interface between electrocatalyst and electrolyte is highly dynamic. Even in absence of major structural changes, the intermediate coverage and interfacial solvent are bias and time dependent. This is not accounted for in current kinetic models.

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The relevance of the asymmetric Biginelli reaction (ABR) has been increased in this century, due to the pharmacological application of its products. This review focuses predominantly on articles published in the period from 2015 to 2024 on asymmetric synthetic advances in the formation of dihydropyrimidinones (DHPMs), dihydropyrimidinethiones (DHPMTs), and related compounds. The relevant bibliography on general processes in the Biginelli reaction and some methods of separation of isomers have also been referenced.

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  • Non-small-cell lung cancer (NSCLC) is the most common cancer and a leading cause of cancer deaths, prompting extensive research into new treatments aimed at improving patient survival.
  • The review highlights marine sponges as a promising source of bioactive compounds that may have antitumor effects through mechanisms like cell cycle modulation and apoptosis induction.
  • Although 33 relevant studies were reviewed, indicating the potential of these sponge-derived compounds for drug development, further research is necessary to bring these findings into clinical practice.
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A mathematical concept, n-tuples are originally applied to medicinal chemistry, especially with the creation of scaffold diversity inspired by the hybridisation of different commercial drugs with cytarabine, a synthetic arabinonucleoside derived from two marine natural products, spongouridine and spongothymidine. The new methodology explores the virtual chemical-factorial combination of different commercial drugs (immunosuppressant, antibiotic, antiemetic, anti-inflammatory, and anticancer) with the anticancer drug cytarabine. Real chemical combinations were designed and synthesised for 8-duples, obtaining a small representative library of interesting organic molecules to be biologically tested as proof of concept.

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Lung cancer is the most commonly diagnosed cancer and the one that causes the most deaths worldwide, so there is a need for therapies that improve survival rates. Products derived from marine organisms are a source of novel and potent antitumor compounds, but they present the great obstacle of their obtaining from the natural environment and the problems associated with the synthesis and biological effects of chemical analogues. In this work, a Bengamide analogue (Bengamide II) was chemically synthesized and in vitro and in vivo studies were performed to determine its antitumor activity and mechanisms of action.

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Hydroxytyrosol (HT) is a bioactive phenolic compound naturally present in olives and extra virgin olive oil (EVOO) which is described as an antioxidant, antitumoral and antiangiogenic molecule. Previous studies of semi-synthetic HT-derivatives presented the hydroxytyrosyl alkyl ether HT-C6 as one of the most potent derivatives studied in the context of antioxidant, anti-platelet and antiangiogenic assays, but its direct effect on inflammation was not reported. In this work, we use RT-qPCR measure of gene expression, protein analysis by Western-blot and immunofluorescence techniques, adhesion and migration functional assays and single-cell monitoring of reactive oxygen species (ROS) in order to explore in vitro the ability of HT-C6 to interfere in the inflammatory response of endothelial cells (ECs).

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An unprecedented transition metal free [2,3]-sigmatropic rearrangement involving stabilized sulfur ylides and allenoates has been thoroughly established. The scope and utility of this reaction have been extensively studied resulting in C-C bond formation under mild conditions with greater than 20 examples reported. A highlight of the work is the simple and fully operational process that does not involve the use of carbenes or the associated hazardous and sensitive reagents.

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  • The research focuses on the eco-friendly synthesis of silver nanoparticles (AgNPs) using natural plant materials like daisy petals, leek, and garlic skin, which also reflect their phenolic content.
  • These AgNPs are characterized for their uniform size and shape through techniques like UV-Vis spectroscopy and transmission electron microscopy (TEM), demonstrating effective potential in cosmetic formulations.
  • The study further explores the incorporation of AgNPs with red algae extracts in cosmetics for UV protection, revealing that their combined antioxidant properties could potentially combat photoaging rather than acting solely as UV screens.
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The one-pot reaction of a chiral aldehyde, -methoxyaniline or -fluoroaniline, and triethylborane produces the corresponding alkylated chiral amine with high yields and diastereoisomeric ratios. Stereocontrol is induced by the presence of a heteroatom in the α-position to the aldehyde. In the case of alkylation of imines derived from chiral aliphatic amines, good yields and moderate to high diastereoselectivity are obtained: yields are significantly better when the preformed imine is used in the reaction with triethyl borane, and diastereoselectivity of the reactions largely depends on the structure of the chiral aliphatic amine.

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The inhibition of sustained angiogenesis is an attractive approach for the treatment of cancer, blindness and other angiogenesis-dependent diseases. Encouraged by our previous finding that toluquinol, a methyl hydroquinone isolated from a marine fungus, exhibited an interesting antiangiogenic activity, we further explored structural modifications of this natural compound in order to develop improved drug candidates. Our results indicate that although the methyl group plays a relevant role in the cytotoxic activity of toluquinol, some derivatives in which this methyl was replaced by another substituent, could keep the antiangiogenic activity, whereas exhibiting a lower cytotoxicity in vitro.

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Antibody-drug conjugates (ADCs) are an important class of therapeutics for the treatment of cancer. Structurally, an ADC comprises an antibody, which serves as the delivery system, a payload drug that is a potent cytotoxin that kills cancer cells, and a chemical linker that connects the payload with the antibody. Unlike conventional chemotherapy methods, an ADC couples the selective targeting and pharmacokinetic characteristics related to the antibody with the potent cytotoxicity of the payload.

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  • Superparamagnetic iron nanoparticles (SPIONs) are enhanced with a silica (SiO) shell and carboxyl groups, creating a new hybrid system called SPION@SiO-COOH that's useful in nanomedicine.* -
  • Novel compounds, N-alkylamino- and N-alkylamido-terminated derivatives of tetrahydroisoquinolines (THIQs) and tetrahydrobenzazepines (THBs), are synthesized and integrated into this hybrid system to explore their potential dopaminergic activity.* -
  • Characterization techniques confirm the successful incorporation of THIQs and THBs, and the hybrid systems show promising efficacy towards D receptors, suggesting possible applications for treating central
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The bengamides comprise an interesting family of natural products isolated from sponges belonging to the prolific family. Their outstanding antitumor properties, coupled with their unique mechanism of action and unprecedented molecular structures, have prompted an intense research activity directed towards their total syntheses, analogue design, and biological evaluations for their development as new anticancer agents. Together with these biological studies in cancer research, in recent years, the bengamides have been identified as potential antibiotics by their impressive biological activities against various drug-resistant bacteria such as and .

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  • A concise synthesis of tunicamycin V (1), a non-selective phosphotransferase inhibitor, is completed using a Büchner-Curtius-Schlotterbeck type reaction in 15 steps from D-galactal, achieving a 21% overall yield.
  • The synthetic method is straightforward and adaptable, allowing for the incorporation of various intereseting building blocks.
  • A new analogue, 28, shows significantly enhanced inhibitory activity (12.5 times greater than tunicamycin V) against the enzyme DPAGT1 and exhibits selective cytostatic effects on breast cancer cell lines, including triple-negative types.
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Modification of gold substrates with a stable, uniform and ultrathin layer of biocompatible materials is of tremendous interest for the development of bio-devices. We present the fabrication of hybrid systems consisting of triangular prism gold nanoparticles (Au@NTPs) covalently covered with tripod-shaped oligo(p-phenylenes) featuring trifluoromethyl groups. Their synthesis is accomplished using a biphenyl boronic ester as the key compound.

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  • The hydrogen evolution reaction (HER) is important for understanding electrocatalysis, but its mechanisms in alkaline conditions are still not fully understood.
  • Researchers found that adding small amounts of Ni(OH) to copper surfaces changed the electrocatalytic behavior in a non-linear way, particularly 0.2 monolayers (ML) improved performance.
  • The study shows that the disordered arrangement of water at the copper surface when modified with Ni(OH) helps charge transfer during HER, suggesting that interfacial water behavior is a key factor in HER efficiency in alkaline environments.
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The interface between the Pt(111) surface and several MeF/HClO (Me = Li, Na, or Cs) aqueous electrolytes is investigated by means of cyclic voltammetry and laser-induced temperature jump experiments. Results point out that the effect of the electrolyte on the interfacial water structure is different depending on the nature of the metal alkali cation, with the values of the potential of maximum entropy (pme) following the order pme (Li) < pme (Na) < pme (Cs). In addition, the hydrogen peroxide reduction reaction is studied under these conditions.

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We study the nonequilibrium diffusive release of electroneutral molecular cargo encapsulated inside hollow hydrogel nanoparticles. We propose a theoretical model that includes osmotic, steric, and short-range polymer-cargo attractions to determine the effective cargo-hydrogel interaction, *, and the effective diffusion coefficient of the cargo inside the polymer network, *. Using dynamical density functional theory (DDFT), we investigate the scaling of the characteristic release time, τ, with the key parameters involved in the process, namely, *, *, and the swelling ratio.

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Here, temperature-sensitive hybrid poly(N-isopropylacrylamide) (pNIPAM) nanosystems with magnetic response are synthesised and investigated for controlled release of 5-fluorouracil (5FU) and oxaliplatin (OXA). Initially, magnetic nanoparticles (@FeO) are synthesised by co-precipitation approach and functionalised with acrylic acid (AA), 3-butenoic acid (3BA) or allylamine (AL) as comonomers. The thermo-responsive polymer is grown by free radical polymerisation using N-isopropylacrylamide (NIPAM) as monomer, N,N'-methylenbisacrylamide (BIS) as cross-linker, and 2,2'-azobis(2-methylpropionamidene) (V50) as initiator.

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The limited success and side effects of the current chemotherapeutic strategies against colorectal cancer (CRC), the third most common cancer worldwide, demand an assay with new drugs. The prominent antitumor activities displayed by the bengamides (Ben), a family of natural products isolated from marine sponges of the family, were explored and investigated as a new option to improve CRC treatment. To this end, two potent bengamide analogues, Ben I () and Ben V (), were selected for this study, for which they were synthesized according to a new synthetic strategy recently developed in our laboratories.

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  • Ultraviolet radiation (UVR) significantly affects aquatic ecosystems, impacting growth and physiological processes in organisms like unicellular green algae due to anthropogenic global changes.
  • A study on the effects of UVR revealed that while it inhibited algal growth and fluorescence, it did not cause cell death; Type-II metacaspases were found to be present and involved in stress response, not in cell death.
  • Enzyme activity showed that specific substrates were cleaved by metacaspases, indicating their role in survival strategies under UVR stress rather than contributing to cellular death.
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  • Nanoparticles are crucial in various fields like chemical production and energy conversion, but developing effective catalysts depends on understanding their structure and reactivity.
  • Recent advancements in Bragg coherent diffraction imaging offer a way to visualize three-dimensional lattice strain fields, which can help create surface reactivity maps for nanoparticles.
  • New research at the MAX IV facility demonstrated the imaging of 60 nm gold nanoparticles, showing that their capabilities are sufficient for studying smaller particles essential for catalysis, marking a significant advancement in coherent X-ray diffraction techniques.
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Encouraged by the promising antitumoral, antiangiogenic, and antilymphangiogenic properties of toluquinol, a set of analogues of this natural product of marine origin was synthesized to explore and evaluate the effects of structural modifications on their cytotoxic activity. We decided to investigate the effects of the substitution of the methyl group by other groups, the introduction of a second substituent, the relative position of the substituents, and the oxidation state. A set of analogues of 2-substituted, 2,3-disubstituted, and 2,6-disubstituted derived from hydroquinone were synthesized.

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