Your search keyword '"Olmo Martín-Cámara"' showing total 8 results

1. m-Terphenylamines, Acting as Selective COX-1 Inhibitors, Block Microglia Inflammatory Response and Exert Neuroprotective Activity

Author

Damiano Rocchi, Juan F. González, Olmo Martín-Cámara, Maria Grazia Perrone, Morena Miciaccia, Antonio Scilimati, Celine Decouty-Pérez, Esther Parada, Javier Egea, and J. Carlos Menéndez

Subjects

terphenylamines, COX-1 inhibitors, neuroinflammation, oxidative stress, neuroprotection, Organic chemistry, QD241-441

Abstract

Inhibition of cyclooxygenase-2 (COX-2) has been extensively studied as an approach to reduce proinflammatory markers in acute brain diseases, but the anti-neuroinflammatory role of cyclooxygenase-1 (COX-1) inhibition has been rather neglected. We report that m-terphenylamine derivatives are selective COX-1 inhibitors, able to block microglia inflammatory response and elicit a neuroprotective effect. These compounds were synthesized via a three-component reaction of chalcones, β-ketoesters, and primary amines, followed by hydrolysis/decarboxylation of the ester group. Together with their synthetic intermediates and some urea derivatives, they were studied as inhibitors of COX-1 and COX-2. The m-terphenylamine derivatives, which were selective COX-1 inhibitors, were also analyzed for their ability to block microglia inflammatory and oxidative response. Compound 3b presented an interesting anti-inflammatory and neuroprotective profile by reducing nitrite release, ROS overproduction, and cell death in organotypic hippocampal cultures subjected to LPS. We thus show that COX-1 inhibition is a promising approach to provide enhanced neuroprotection against acute inflammatory processes, which are crucial in the development of a plethora of acute neurodegenerative injuries.

Published

2023

2. Curcumin-Piperlongumine Hybrids with a Multitarget Profile Elicit Neuroprotection in In Vitro Models of Oxidative Stress and Hyperphosphorylation

Author

Ángel Cores, Noelia Carmona-Zafra, Olmo Martín-Cámara, Juan Domingo Sánchez, Pablo Duarte, Mercedes Villacampa, Paloma Bermejo-Bescós, Sagrario Martín-Aragón, Rafael León, and J. Carlos Menéndez

Subjects

oxidative stress, Tau aggregation, neuroinflammation, neuroprotection, Therapeutics. Pharmacology, RM1-950

Abstract

Curcumin shows a broad spectrum of activities of relevance in the treatment of Alzheimer’s disease (AD); however, it is poorly absorbed and is also chemically and metabolically unstable, leading to a very low oral bioavailability. A small library of hybrid compounds designed as curcumin analogues and incorporating the key structural fragment of piperlongumine, a natural neuroinflammation inhibitor, were synthesized by a two-step route that combines a three-component reaction between primary amines, β-ketoesters and α-haloesters and a base-promoted acylation with cinnamoyl chlorides. These compounds were predicted to have good oral absorption and CNS permeation, had good scavenging properties in the in vitro DPPH experiment and in a cellular assay based on the oxidation of dichlorofluorescin to a fluorescent species. The compounds showed low toxicity in two cellular models, were potent inductors of the Nrf2-ARE phase II antioxidant response, inhibited PHF6 peptide aggregation, closely related to Tau protein aggregation and were active against the LPS-induced inflammatory response. They also afforded neuroprotection against an oxidative insult induced by inhibition of the mitochondrial respiratory chain with the rotenone-oligomycin A combination and against Tau hyperphosphorylation induced by the phosphatase inhibitor okadaic acid. This multitarget pharmacological profile is highly promising in the development of treatments for AD and provides a good hit structure for future optimization efforts.

Published

2021

3. Enhanced Stability and Bioactivity of Natural Anticancer Topoisomerase I Inhibitors through Cyclodextrin Complexation

Author

Víctor González-Ruiz, Ángel Cores, Olmo Martín-Cámara, Karen Orellana, Víctor Cervera-Carrascón, Patrycja Michalska, Ana I. Olives, Rafael León, M. Antonia Martín, and J. Carlos Menéndez

Subjects

molecular recognition, cavitands, supramolecular complexes, anticancer agents, drug stabilization, Pharmacy and materia medica, RS1-441

Abstract

The use of cyclodextrins as drug nano-carrier systems for drug delivery is gaining importance in the pharmaceutical industry due to the interesting pharmacokinetic properties of the resulting inclusion complexes. In the present work, complexes of the anti-cancer alkaloids camptothecin and luotonin A have been prepared with β-cyclodextrin and hydroxypropyl-β-cyclodextrin. These cyclodextrin complexes were characterized by nuclear magnetic resonance spectroscopy (NMR). The variations in the 1H-NMR and 13C-NMR chemical shifts allowed to establish the inclusion modes of the compounds into the cyclodextrin cavities, which were supported by docking and molecular dynamics studies. The efficiency of the complexation was quantified by UV-Vis spectrophotometry and spectrofluorimetry, which showed that the protonation equilibria of camptothecin and luotonin A were drastically hampered upon formation of the inclusion complexes. The stabilization of camptothecin towards hydrolysis inside the cyclodextrin cavity was verified by the quantitation of the active lactone form by reverse phase liquid chromatography fluorimetric detection, both in basic conditions and in the presence of serum albumin. The antitumor activity of luotonin A and camptothecin complexes were studied in several cancer cell lines (breast, lung, hepatic carcinoma, ovarian carcinoma and human neuroblastoma) and an enhanced activity was found compared to the free alkaloids, particularly in the case of hydroxypropyl-β-cyclodextrin derivatives. This result shows that the cyclodextrin inclusion strategy has much potential towards reaching the goal of employing luotonin A or its analogues as stable analogues of camptothecin.

Published

2021

4. Bifunctional carbazole derivatives for simultaneous therapy and fluorescence imaging in prion disease murine cell models

Author

Matteo Staderini, Silvia Vanni, Arianna Colini Baldeschi, Gabriele Giachin, Marco Zattoni, Luigi Celauro, Chiara Ferracin, Edoardo Bistaffa, Fabio Moda, Daniel I. Pérez, Ana Martínez, M. Antonia Martín, Olmo Martín-Cámara, Ángel Cores, Giulia Bianchini, Robert Kammerer, J. Carlos Menéndez, Giuseppe Legname, Maria Laura Bolognesi, Associazione Italiana Encefalopatie da Prioni, Ministero della Salute, Ministerio de Ciencia e Innovación (España), Staderini, Matteo, Vanni, Silvia, Colini Baldeschi, Arianna, Giachin, Gabriele, Zattoni, Marco, Celauro, Luigi, Ferracin, Chiara, Bistaffa, Edoardo, Moda, F., Pérez, Daniel I., Martínez, Ana, Martín, M. Antonia, Martín-Cámara, Olmo, Cores, Ángel, Kammerer, Robert, Menéndez, J. Carlos, Legname, G., and Bolognesi, Maria Laura

Subjects

Pharmacology, Sheep, Prions, Optical Imaging, Organic Chemistry, Carbazoles, Química orgánica, General Medicine, GN8, Prion protein, Theranostics, Prion Diseases, Mice, Drug Discovery, Química farmaceútica, Humans, Animals, Scrapie

Abstract

14 p.-11 fig., Prion diseases are characterized by the self-assembly of pathogenic misfolded scrapie isoforms (PrPSc) of the cellular prion protein (PrPC). In an effort to achieve a theranostic profile, symmetrical bifunctional carbazole derivatives were designed as fluorescent rigid analogues of GN8, a pharmacological chaperone that stabilizes the native PrPC conformation and prevents its pathogenic conversion. A focused library was synthesized via a four-step route, and a representative member was confirmed to have native fluorescence, including a band in the near-infrared region. After a cytotoxicity study, compounds were tested on the RML-infected ScGT1 neuronal cell line, by monitoring the levels of protease-resistant PrPSc. Small dialkylamino groups at the ends of the molecule were found to be optimal in terms of therapeutic index, and the bis-(dimethylaminoacetamido)carbazole derivative 2b was selected for further characterization. It showed activity in two cell lines infected with the mouse-adapted RML strain (ScGT1 and ScN2a). Unlike GN8, 2b did not affect PrPC levels, which represents a potential advantage in terms of toxicity. Amyloid Seeding Assay (ASA) experiments showed the capacity of 2b to delay the aggregation of recombinant mouse PrP. Its ability to interfere with the amplification of the scrapie RML strain by Protein Misfolding Cyclic Amplification (PMCA) was shown to be higher than that of GN8, although 2b did not inhibit the amplification of human vCJD prion. Fluorescent staining of PrPSc aggregates by 2b was confirmed in living cells. 2b emerges as an initial hit compound for further medicinal chemistry optimization towards strain-independent anti-prion compounds., This work was partially supported by Associazione Italiana Encefalopatie da Prioni (AIEnP) and the Italian Ministry of Health (RRC) to FM. Financial support from Ministerio de Ciencia e Innovación, Spain, through grants RTI2018-097662-B-I00 and PID2021-124983OB-I00 (to JCM) and PID2019-105600RB-I00 (to AM), is also gratefully acknowledged.

Published

2022

5. Multitarget Hybrid Fasudil Derivatives as a New Approach to the Potential Treatment of Amyotrophic Lateral Sclerosis

Author

Olmo Martín-Cámara, Marina Arribas, Geoffrey Wells, Marcos Morales-Tenorio, Ángeles Martín-Requero, Gracia Porras, Ana Martínez, Giorgio Giorgi, Pilar López-Alvarado, Isabel Lastres-Becker, J. Carlos Menéndez, Comunidad de Madrid, Ministerio de Economía y Competitividad (España), Instituto de Salud Carlos III, Fundela, Martín-Cámara, Olmo, Arribas, Marina, Wells, Geoffrey, Morales-Tenorio, Marcos, Martín-Requero, Ángeles, Martínez, Ana, López-Alvarado, Pilar, Lastres-Becker, Isabel, and Menéndez, J. Carlos

Subjects

Male, rho-Associated Kinases, Kelch-Like ECH-Associated Protein 1, Coumaric Acids, Cell Survival, NF-E2-Related Factor 2, Amyotrophic Lateral Sclerosis, Free Radical Scavengers, Middle Aged, HEK293 Cells, 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine, Cell Line, Tumor, Drug Discovery, Molecular Medicine, Humans, Female, Lymphocytes, Protein Kinase Inhibitors, Aged

Abstract

16 p.-9 fig.-9 tab.-1 graph. abst., Hybrid compounds containing structural fragments of the Rho kinase inhibitor fasudil and the NRF2 inducers caffeic and ferulic acids were designed with the aid of docking and molecular mechanics studies. Following the synthesis of the compounds using a peptide-coupling methodology, they were characterized for their ROCK2 inhibition, radical scavenging, effects on cell viability (MTT assay), and NRF2 induction (luciferase assay). One of the compounds (1d) was selected in view of its good multitarget profile and good tolerability. It was able to induce the NRF2 signature, promoting the expression of the antioxidant response enzymes HO-1 and NQO1, via a KEAP1-dependent mechanism. Analysis of mRNA and protein levels of the NRF2 pathway showed that 1d induced the NRF2 signature in control and SOD1-ALS lymphoblasts but not in sALS, where it was already increased in the basal state. These results show the therapeutic potential of this compound, especially for ALS patients with a SOD1 mutation., This work was supported by the Comunidad de Madrid (grant B2017/BMD-3813), MINECO (grant RTI2018-097662-B-I00 to J.C.M. and PID2019-105600RB-I00 to A.M. and I.L.-B), ISCiii CIBERNED (CB18/05/00040 to A.M. and Á.M.-R. and CB06/05/0089 to I.L.-B.), and Fundela (2019/00325/001) to I.L.-B.

Published

2022

6. Enhanced Stability and Bioactivity of Natural Anticancer Topoisomerase I Inhibitors through Cyclodextrin Complexation

Author

Karen Orellana, Patrycja Michalska, Olmo Martín-Cámara, Víctor González-Ruiz, M. Antonia Martín, Víctor Cervera-Carrascón, Rafael León, Ángel Cores, J. Carlos Menéndez, Ana I. Olives, Ministerio de Ciencia, Innovación y Universidades (España), Comunidad de Madrid, and European Commission

Subjects

Pharmaceutical Science, Protonation, drug stabilization, Article, cavitands, supramolecular complexes, anticancer agents, Tecnología farmaceútica, Molecular recognition, Pharmacy and materia medica, medicine, polycyclic compounds, Química farmaceútica, chemistry.chemical_classification, Cyclodextrin, technology, industry, and agriculture, Química orgánica, Nuclear magnetic resonance spectroscopy, Combinatorial chemistry, RS1-441, carbohydrates (lipids), chemistry, Docking (molecular), Drug delivery, molecular recognition, Camptothecin, Lactone, medicine.drug

Abstract

The use of cyclodextrins as drug nano-carrier systems for drug delivery is gaining impor-tance in the pharmaceutical industry due to the interesting pharmacokinetic properties of the resulting inclusion complexes. In the present work, complexes of the anti-cancer alkaloids camptothecin and luotonin A have been prepared with β-cyclodextrin and hydroxypropyl-β-cyclodextrin. These cy-clodextrin complexes were characterized by nuclear magnetic resonance spectroscopy (NMR). The variations in the H-NMR and C-NMR chemical shifts allowed to establish the inclusion modes of the compounds into the cyclodextrin cavities, which were supported by docking and molecular dynamics studies. The efficiency of the complexation was quantified by UV-Vis spectrophotom-etry and spectrofluorimetry, which showed that the protonation equilibria of camptothecin and luotonin A were drastically hampered upon formation of the inclusion complexes. The stabilization of camptothecin towards hydrolysis inside the cyclodextrin cavity was verified by the quantitation of the active lactone form by reverse phase liquid chromatography fluorimetric detection, both in basic conditions and in the presence of serum albumin. The antitumor activity of luotonin A and camptothecin complexes were studied in several cancer cell lines (breast, lung, hepatic carcinoma, ovarian carcinoma and human neuroblastoma) and an enhanced activity was found compared to the free alkaloids, particularly in the case of hydroxypropyl-β-cyclodextrin derivatives. This result shows that the cyclodextrin inclusion strategy has much potential towards reaching the goal of employing luotonin A or its analogues as stable analogues of camptothecin., This research was funded by grant RTI2018-097662-B-I00 from Ministerio de Ciencia, Innovación y Universidades, grant B2017/BMD-3813 from Comunidad Autónoma de Madrid (to JCM), grant PI17/01700 from IS Carlos III, co-financed by the European Regional Development funds (FEDER), and grant B2017/BMD-3827 from Comunidad Autónoma de Madrid (to RL). The APC was not funded.

Published

2021

7. TUFORMULAS: A NEW AND INNOVATIVE APP FOR MOBILE PHONES AS A SUPPORT FOR THE TEACHING AND LEARNING OF ORGANIC COMPOUND AND DRUG NOMENCLATURE

Author

María Carmen Bravo-Llatas, Juan Domingo Sánchez Cebrián, Marta Hortelano Morales, Marcello Capacchione, Andrés Rafael Alcántara León, Carmen del Campo Pérez, Olmo Martín Cámara, María Fernández Fernández, Loreto Salazar Martínez de Pisón, Pilar Cledera Crespo, Pilar López-Alvarado Gutiérrez, Giorgio Giorgi, Carmen Freire, and Mónica Söllhuber Kretzer

Subjects

Drug nomenclature, World Wide Web, Computer science

Published

2020

8. Emerging targets in drug discovery against neurodegenerative diseases: Control of synapsis disfunction by the RhoA/ROCK pathway

Author

J. Carlos Menéndez, Ángel Cores, Pilar López-Alvarado, and Olmo Martín-Cámara

Subjects

Pharmacology, rho-Associated Kinases, RHOA, Dendritic spine, Molecular Structure, Neurite, biology, Chemistry, Organic Chemistry, Neurodegenerative Diseases, RAC1, macromolecular substances, General Medicine, CDC42, Synaptic vesicle, Cell biology, Chromosome Pairing, Drug Discovery, biology.protein, Animals, Humans, ROCK1, Enzyme Inhibitors, rhoA GTP-Binding Protein, Rho-associated protein kinase

Abstract

Synaptic spine morphology is controlled by the activity of Rac1, Cdc42 and RhoA, which need to be finely balanced, and in particular RhoA/ROCK prevents the formation of new protrusions by stabilizing actin formation. These processes are crucial to the maturation process, slowing the de novo generation of new spines. The RhoA/ROCK also influences plasticity processes, and selective modulation by ROCK1 of MLC-dependent actin dynamics leads to neurite retraction, but not to spine retraction. ROCK1 is also responsible for the reduction of the readily releasable pool of synaptic vesicles. These and other evidences suggest that ROCK1 is the main isoform acting on the presynaptic neuron. On the other hand, ROCK2 seems to have broad effects on LIMK/cofilin-dependent plasticity processes such as cofilin-dependent PSD changes. The RhoA/ROCK pathway is an important factor in several different brain-related pathologies via both downstream and upstream pathways. In the aggregate, these evidences show that the RhoA/ROCK pathway has a central role in the etiopathogenesis of a large group of CNS diseases, which underscores the importance of the pharmacological modulation of RhoA/ROCK as an important pathway to drug discovery in the neurodegenerative disease area. This article aims at providing the first review of the role of compounds acting on the RhoA/ROCK pathway in the control of synaptic disfunction.

Published

2021