Your search keyword '"Aday González-Bakker"' showing total 5 results

1. The Ugi4CR as effective tool to access promising anticancer isatin-based α-acetamide carboxamide oxindole hybrids

Author

Carolina S. Marques, Aday González-Bakker, and José M. Padrón

Subjects

cancer, gi50, isatin, oxindole, ugi4cr, Science, Organic chemistry, QD241-441

Abstract

Considering early-stage drug discovery programs, the Ugi four-component reaction is a valuable, flexible, and pivotal tool, facilitating the creation of two new amide bonds in a one-pot fashion to effectively yield the desired α-aminoacylamides. Here, we highlight the reputation of this reaction approach to access number and scaffold diversity of a library of isatin-based α-acetamide carboxamide oxindole hybrids, promising anticancer agents, in a mild and fast sustainable reaction process. The library was tested against six human solid tumor cell lines, among them, non-small cell lung carcinoma, cervical adenocarcinoma, breast cancer and colon adenocarcinoma. The most potent compounds 8d, 8h and 8k showed GI50 values in the range of 1–10 μM.

Published

2024

2. Exploring the Anticancer Potential of Phenolic nor-Triterpenes from Celastraceae Species

Author

Carolina P. Reyes, Alejandro Ardiles, Laura Anaissi-Afonso, Aday González-Bakker, José M. Padrón, Ignacio A. Jiménez, Félix Machín, and Isabel L. Bazzocchi

Subjects

Maytenus sp., Celastrus vulcanicola, celastroloids, anticancer profile, human tumour cell lines, live cell imaging, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

To explore new compounds with antitumour activity, fifteen phenolic nor-tripterpenes isolated from Celastraceae species, Maytenus jelskii, Maytenus cuzcoina, and Celastrus vulcanicola, have been studied. Their chemical structures were elucidated through spectroscopic and spectrometric techniques, resulting in the identification of three novel chemical compounds. Evaluation on human tumour cell lines (A549 and SW1573, non-small cell lung; HBL-100 and T-47D, breast; HeLa, cervix, and WiDr, colon) revealed that three compounds, named 6-oxo-pristimerol, demethyl-zeylasteral, and zeylasteral, exhibited significant activity (GI50 ranging from 0.45 to 8.6 µM) on at least five of the cell lines tested. Continuous live cell imaging identified apoptosis as the mode of action of selective cell killing in HeLa cells. Furthermore, their effect on a drug-sensitive Saccharomyces cerevisiae strain has been investigated to deepen on their mechanism of action. In dose-response growth curves, zeylasteral and 7α-hydroxy-blepharodol were markedly active. Additionally, halo assays were conducted to assess the involvement of oxidative stress and/or mitochondrial function in the anticancer profile, ruling out these modes of action for the active compounds. Finally, we also delve into the structure-activity relationship, providing insights into how the molecular structure of these compounds influences their biological activity. This comprehensive analysis enhances our understanding of the therapeutic potential of this triterpene type and underscores its relevance for further research in this field.

Published

2024

3. N-Substituted 3-Aminooxindoles and N-Propargyl Derivatives: Potential Biological Activities against Alzheimer’s Disease

Author

Tereza Hofmanova, Carolina Marques, Alfonso T. García-Sosa, Óscar López, Luisa Leitzbach, Elisabete P. Carreiro, Aday González-Bakker, Adrián Puerta, Holger Stark, José M. Padrón, José G. Fernández-Bolaños, and Anthony J. Burke

Subjects

Oxindole, Alzheimer’s disease, Cholinesterase, Mono-amine oxidase, Molecular docking, STD-NMR, Chemistry, QD1-999

Abstract

The oxindole core is an important structural motif in many natural and synthetic substances with various biological activities including anticancer, antineurodegenerative, and antimicrobial properties. This report focuses on the synthesis and biological activity of a series of novel N-substituted 3-aminooxindoles and their assessment in cholinesterase (ChE) and monoamine oxidase (MAO) inhibition. With regard to MAO inhibition, a series of N-propargyl containing derivatives was synthesized and screened. Despite being weak inhibitors of MAO-A and MAO-B, the compounds were selective for butyrylcholinesterase (BuChE) over acetylcholinesterase (AChE). Most of them were strong inhibitors of BuChE with IC50's of less than 1 µM, and one compound showed an IC50 = 27 nM. The mechanism of action of the inhibition was pin-pointed through molecular modeling, and was validated using saturation-transfer-difference (STD) NMR. Some of the compounds were screened for anti-oxidant properties, but showed no activity. The same compounds were screened in the neurodegenerative disease model cell-line SH-SY5Y and although some were found to be non-cytotoxic, others were moderately cytotoxic. Continuous live cell imaging experiments showed that the compounds do not induce relevant cell damage and thus, the compounds might be interesting drug candidates for Alzheimer’s disease. Furthermore, the most active compounds showed excellent drug-likeness and pharmacological properties predicted using Swiss-ADME, and the pharmacokinetic simulations indicated that all these compounds cross the blood-brain-barrier.

Published

2023

4. Bioactive Potential: A Pharmacognostic Definition through the Screening of Four Hypericum Species from the Canary Islands

Author

Rodney Lacret, Adrián Puerta, Sebastian Granica, Aday González-Bakker, Danela Hevia, Yiling Teng, Candelaria C. Sánchez-Mateo, Pedro Luis Pérez de Paz, and José M. Padrón

Subjects

bioactive potential, anticancer potential, total activity, screening, Hypericum canariense, Hypericum glandulosum, Organic chemistry, QD241-441

Abstract

In this work, we propose a general methodology to assess the bioactive potential (BP) of extracts in the quest of vegetable-based drugs. To exemplify the method, we studied the anticancer potential (AP) of four endemic species of genus Hypericum (Hypericum canariense L, Hypericum glandulosum Aiton, Hypericum grandifolium Choisy and Hypericum reflexum L.f) from the Canary Islands. Microextracts were obtained from the aerial parts of these species and were tested against six human tumor cell lines, A549 (non-small-cell lung), HBL-100 (breast), HeLa (cervix), SW1573 (non-small-cell lung), T-47D (breast) and WiDr (colon). The methanol–water microextracts were evaluated further for cell migration, autophagy and cell death. The most promising bioactive polar microextracts were analyzed by UHPLC–DAD–MS. The extraction yield, the bioactivity evaluation and the chemical profiling by LC–MS suggested that H. grandifolium was the species with the highest AP. Label-free live-cell imaging studies on HeLa cells exposed to the methanol–water microextract of H. grandifolium enabled observing cell death and several apoptotic hallmarks. Overall, this study allows us to select Hypericum grandifolium Choisy as a source of new chemical entities with a potential interest for cancer treatment.

Published

2022

5. Early Pharmacological Profiling of Antiproliferative Compounds by Live Cell Imaging

Author

Adrián Puerta, Aday González-Bakker, Guido Santos, and José M. Padrón

Subjects

phenotypic drug discovery, cancer, natural products, live cell imaging, machine learning, antimitotic drugs, Organic chemistry, QD241-441

Abstract

Natural products represent an excellent source of unprecedented anticancer compounds. However, the identification of the mechanism of action remains a major challenge. Several techniques and methodologies have been considered, but with limited success. In this work, we explored the combination of live cell imaging and machine learning techniques as a promising tool to depict in a fast and affordable test the mode of action of natural compounds with antiproliferative activity. To develop the model, we selected the non-small cell lung cancer cell line SW1573, which was exposed to the known antimitotic drugs paclitaxel, colchicine and vinblastine. The novelty of our methodology focuses on two main features with the highest relevance, (a) meaningful phenotypic metrics, and (b) fast Fourier transform (FFT) of the time series of the phenotypic parameters into their corresponding amplitudes and phases. The resulting algorithm was able to cluster the microtubule disruptors, and meanwhile showed a negative correlation between paclitaxel and the other treatments. The FFT approach was able to group the samples as efficiently as checking by eye. This methodology could easily scale to group a large amount of data without visual supervision.

Published

2022