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434 results on '"Alcaro, S"'

1. Neurodegeneration: can metabolites from Eremurus persicus help?

Author

Cavalloro, V, Marchesi, N, Linciano, P, Rossi, D, Campagnoli, L, Fossati, A, Ahmed, K, Malacrida, A, Miloso, M, Mazzeo, G, Abbate, S, Longhi, G, Ambrosio, F, Costa, G, Alcaro, S, Pascale, A, Martino, E, Collina, S, Cavalloro V., Marchesi N., Linciano P., Rossi D., Campagnoli L. I. M., Fossati A., Ahmed K. M., Malacrida A., Miloso M., Mazzeo G., Abbate S., Longhi G., Ambrosio F. A., Costa G., Alcaro S., Pascale A., Martino E., Collina S., Cavalloro, V, Marchesi, N, Linciano, P, Rossi, D, Campagnoli, L, Fossati, A, Ahmed, K, Malacrida, A, Miloso, M, Mazzeo, G, Abbate, S, Longhi, G, Ambrosio, F, Costa, G, Alcaro, S, Pascale, A, Martino, E, Collina, S, Cavalloro V., Marchesi N., Linciano P., Rossi D., Campagnoli L. I. M., Fossati A., Ahmed K. M., Malacrida A., Miloso M., Mazzeo G., Abbate S., Longhi G., Ambrosio F. A., Costa G., Alcaro S., Pascale A., Martino E., and Collina S.

Abstract

The number of patients affected by neurodegenerative diseases is increasing worldwide, and no effective treatments have been developed yet. Although precision medicine could represent a powerful tool, it remains a challenge due to the high variability among patients. To identify molecules acting with innovative mechanisms of action, we performed a computational investigation using SAFAN technology, focusing specifically on HuD. This target belongs to the human embryonic lethal abnormal visual-like (ELAV) proteins and plays a key role in neuronal plasticity and differentiation. The results highlighted that the molecule able to bind the selected target was (R)-aloesaponol-III-8-methyl ether [(R)-ASME], a metabolite extracted from Eremurus persicus. Notably, this molecule is a TNF-alpha inhibitor, a cytokine involved in neuroinflammation. To obtain a suitable amount of (R)-ASME to confirm its activity on HuD, we optimized the extraction procedure. Together with ASME, another related metabolite, germichrysone, was isolated. Both ASME and germichrysone underwent biological investigation, but only ASME confirmed its ability to bind HuD. Given the multifactorial nature of neurodegenerative diseases, we decided to investigate ASME as a proteasome activator, being molecules endowed with this kind of activity potentially able to counteract aggregations of dysregulated proteins. ASME was able to activate the considered target both in enzymatic and cellular assays. Therefore, ASME may be considered a promising hit in the fight against neurodegenerative diseases.

Published
2024

2. Human asparagine synthetase (apo-ASNS)

Author

Coricello, A., primary, Zhu, W., additional, Lupia, A., additional, Gratteri, C., additional, Vos, M., additional, Chaptal, V., additional, Alcaro, S., additional, Takagi, Y., additional, and Richards, N., additional

Published
2024
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3. Identification of pyrrolo[3',4':3,4]cyclohepta[1,2-d][1,2]oxazoles as promising new candidates for the treatment of lymphomas

Author

Barreca M., Spano' V., Rocca R., Bivacqua R., Gualtieri G., Raimondi M. V., Gaudio E., Bortolozzi R., Manfreda L., Bai R., Montalbano A., Alcaro S., Hamel E., Bertoni F., Viola G., Barraja P., Barreca M., Spano' V., Rocca R., Bivacqua R., Gualtieri G., Raimondi M.V., Gaudio E., Bortolozzi R., Manfreda L., Bai R., Montalbano A., Alcaro S., Hamel E., Bertoni F., Viola G., and Barraja P.

Subjects
Pharmacology, 2-d][1, Antitumor agents, Lymphoma, 4’:3, Organic Chemistry, General Medicine, Isoxazoles, pyrrolo[3′, 2]oxazoles, Hematological malignancies, pyrrolo[3′,4’:3,4]cyclohepta[1,2-d][1,2]oxazoles, 4]cyclohepta[1, Drug Discovery
Abstract

Unsatisfactory outcomes for relapsed/refractory lymphoma patients prompt continuing efforts to develop new therapeutic strategies. Our previous studies on pyrrole-based anti-lymphoma agents led us to synthesize a new series of twenty-six pyrrolo[3′,4':3,4]cyclohepta[1,2-d] [1,2]oxazole derivatives and study their antiproliferative effects against a panel of four non-Hodgkin lymphoma cell lines. Several candidates showed significant anti-proliferative effects, with IC50's reaching the sub-micromolar range in at least one cell line, with compound 3z demonstrating sub-micromolar growth inhibitory effects towards the entire panel. The VL51 cell line was the most sensitive, with an IC50 value of 0.10 μM for 3z. Our earlier studies had shown that tubulin was a prominent target of many of our oxazole derivatives. We therefore examined their effects on tubulin assembly and colchicine binding. While 3u and 3z did not appear to target tubulin, good activity was observed with 3d and 3p. Molecular docking and molecular dynamics simulations allowed us to rationalize the binding mode of the synthesized compounds toward tubulin. All ligands exhibited a better affinity for the colchicine site, confirming their specificity for this binding pocket. In particular, a better affinity and free energy of binding was observed for 3d and 3p. This result was confirmed by experimental data, indicating that, although both 3d and 3p significantly affected tubulin assembly, only 3d showed activity comparable to that of combretastatin A-4, while 3p was about 4-fold less active. Cell cycle analysis showed that compounds 3u and especially 3z induced a block in G2/M, a strong decrease in S phase even at low compound concentrations and apoptosis through the mitochondrial pathway. Thus, the mechanism of action of 3u and 3z remains to be elucidated. Very high selectivity toward cancer cells and low toxicity in human peripheral blood lymphocytes were observed, highlighting the good potential of these agents in cancer therapy and encouraging further exploration of this compound class to obtain new small molecules as effective lymphoma treatments.

Published
2023

4. Transcriptome and computational analysis assess the anti-tubulin activity of [1,2]oxazole derivatives in lymphoma

Author

Barreca, M., primary, Spanò, V., additional, Rocca, R., additional, Bivacqua, R., additional, Maruca, A., additional, Montalbano, A., additional, Raimondi, M.V., additional, Tarantelli, C., additional, Gaudio, E., additional, Cascione, L., additional, Rinaldi, A., additional, Bai, R., additional, Prota, A., additional, Abel, A.C., additional, Steinmetz, M., additional, Alcaro, S., additional, Hamel, E., additional, Bertoni, F., additional, and Barraja, P., additional

Published
2022
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5. From Nature to Synthetic Compounds: Novel 1(N),2,3 Trisubstituted-5-oxopyrrolidines Targeting Multiple Myeloma Cells

Author

Listro, R, Malacrida, A, Ambrosio, F, Rossino, G, Di Giacomo, M, Cavalloro, V, Garbagnoli, M, Linciano, P, Rossi, D, Cavaletti, G, Costa, G, Alcaro, S, Miloso, M, Collina, S, Listro, Roberta, Malacrida, Alessio, Ambrosio, Francesca Alessandra, Rossino, Giacomo, Di Giacomo, Marcello, Cavalloro, Valeria, Garbagnoli, Martina, Linciano, Pasquale, Rossi, Daniela, Cavaletti, Guido, Costa, Giosuè, Alcaro, Stefano, Miloso, Mariarosaria, Collina, Simona, Listro, R, Malacrida, A, Ambrosio, F, Rossino, G, Di Giacomo, M, Cavalloro, V, Garbagnoli, M, Linciano, P, Rossi, D, Cavaletti, G, Costa, G, Alcaro, S, Miloso, M, Collina, S, Listro, Roberta, Malacrida, Alessio, Ambrosio, Francesca Alessandra, Rossino, Giacomo, Di Giacomo, Marcello, Cavalloro, Valeria, Garbagnoli, Martina, Linciano, Pasquale, Rossi, Daniela, Cavaletti, Guido, Costa, Giosuè, Alcaro, Stefano, Miloso, Mariarosaria, and Collina, Simona

Abstract

The insurgence of drug resistance in treating Multiple Myeloma (MM) still represents a major hamper in finding effective treatments, although over the past decades new classes of drugs, such as proteasome inhibitors and immunomodulatory drugs, have been discovered. Recently, our research team, within a Nature-Aided Drug Discovery project, isolated from Hibiscus Sabdariffa L. calyces the secondary metabolite called Hib-ester which possesses antiproliferative properties against human multiple myeloma RPMI 8226 cells, reduces migration and cell invasion and inhibits proteasome without neurotoxic effects. In the present study, we explored the chemical spaces of the hit compound Hib-ester. We explored the structure-activity relationships (SAR), and we optimized the scaffold through sequentially modifying Hib-ester subunits. Compound screening was performed based on cytotoxicity against the RPMI 8226 cells to assess the potential efficacy toward human MM. The ability of the most effective molecules to inhibit the proteasome was evaluated and the binding mode of the most promising compounds in the proteasome chymotrypsin binding pocket was deciphered through molecular modeling simulations. Compounds 13 and 14 are more potent than Hib-ester, demonstrating that our strategy was suitable for the identification of a novel chemotype for developing possible drug candidates and hopefully widening the drug armamentarium against MM.

Published
2022

13. The mechanisms of pharmacokinetic food-drug interactions – A perspective from the UNGAP group

Author

Koziolek, M. Alcaro, S. Augustijns, P. Basit, A.W. Grimm, M. Hens, B. Hoad, C.L. Jedamzik, P. Madla, C.M. Maliepaard, M. Marciani, L. Maruca, A. Parrott, N. Pávek, P. Porter, C.J.H. Reppas, C. van Riet-Nales, D. Rubbens, J. Statelova, M. Trevaskis, N.L. Valentová, K. Vertzoni, M. Čepo, D.V. Corsetti, M.

Subjects
digestive, oral, and skin physiology
Abstract

The simultaneous intake of food and drugs can have a strong impact on drug release, absorption, distribution, metabolism and/or elimination and consequently, on the efficacy and safety of pharmacotherapy. As such, food-drug interactions are one of the main challenges in oral drug administration. Whereas pharmacokinetic (PK) food-drug interactions can have a variety of causes, pharmacodynamic (PD) food-drug interactions occur due to specific pharmacological interactions between a drug and particular drinks or food. In recent years, extensive efforts were made to elucidate the mechanisms that drive pharmacokinetic food-drug interactions. Their occurrence depends mainly on the properties of the drug substance, the formulation and a multitude of physiological factors. Every intake of food or drink changes the physiological conditions in the human gastrointestinal tract. Therefore, a precise understanding of how different foods and drinks affect the processes of drug absorption, distribution, metabolism and/or elimination as well as formulation performance is important in order to be able to predict and avoid such interactions. Furthermore, it must be considered that beverages such as milk, grapefruit juice and alcohol can also lead to specific food-drug interactions. In this regard, the growing use of food supplements and functional food requires urgent attention in oral pharmacotherapy. Recently, a new consortium in Understanding Gastrointestinal Absorption-related Processes (UNGAP) was established through COST, a funding organisation of the European Union supporting translational research across Europe. In this review of the UNGAP Working group “Food-Drug Interface”, the different mechanisms that can lead to pharmacokinetic food-drug interactions are discussed and summarised from different expert perspectives. © 2019 The Authors

Published
2019

16. The mechanisms of pharmacokinetic food-drug interactions - A perspective from the UNGAP group

Author

Koziolek, M., Alcaro, S., Augustijns, P., Basit, A.W., Grimm, M., Hens, B., Hoad, C.L., Jedamzik, P., Madla, C.M., Maliepaard, M., Marciani, L., Maruca, A., Parrott, N., Pavek, P., Porter, C.J.H., Reppas, C., Riet-Nales, D. van, Rubbens, J., Statelova, M., Trevaskis, N.L., Valentova, K., Vertzoni, M., Cepo, D.V., Corsetti, M., Koziolek, M., Alcaro, S., Augustijns, P., Basit, A.W., Grimm, M., Hens, B., Hoad, C.L., Jedamzik, P., Madla, C.M., Maliepaard, M., Marciani, L., Maruca, A., Parrott, N., Pavek, P., Porter, C.J.H., Reppas, C., Riet-Nales, D. van, Rubbens, J., Statelova, M., Trevaskis, N.L., Valentova, K., Vertzoni, M., Cepo, D.V., and Corsetti, M.

Abstract

Contains fulltext : 215729.pdf (publisher's version ) (Open Access), The simultaneous intake of food and drugs can have a strong impact on drug release, absorption, distribution, metabolism and/or elimination and consequently, on the efficacy and safety of pharmacotherapy. As such, food-drug interactions are one of the main challenges in oral drug administration. Whereas pharmacokinetic (PK) food-drug interactions can have a variety of causes, pharmacodynamic (PD) food-drug interactions occur due to specific pharmacological interactions between a drug and particular drinks or food. In recent years, extensive efforts were made to elucidate the mechanisms that drive pharmacokinetic food-drug interactions. Their occurrence depends mainly on the properties of the drug substance, the formulation and a multitude of physiological factors. Every intake of food or drink changes the physiological conditions in the human gastrointestinal tract. Therefore, a precise understanding of how different foods and drinks affect the processes of drug absorption, distribution, metabolism and/or elimination as well as formulation performance is important in order to be able to predict and avoid such interactions. Furthermore, it must be considered that beverages such as milk, grapefruit juice and alcohol can also lead to specific food-drug interactions. In this regard, the growing use of food supplements and functional food requires urgent attention in oral pharmacotherapy. Recently, a new consortium in Understanding Gastrointestinal Absorption-related Processes (UNGAP) was established through COST, a funding organisation of the European Union supporting translational research across Europe. In this review of the UNGAP Working group "Food-Drug Interface", the different mechanisms that can lead to pharmacokinetic food-drug interactions are discussed and summarised from different expert perspectives.

Published
2019

19. EG-011 IS A NOVEL SMALL MOLECULE WITH IN VITRO AND IN VIVO ANTI-TUMOR ACTIVITY AGAINST LYMPHOMA

Author

Gaudio, E., primary, Spriano, F., additional, Tarantelli, C., additional, Guala, M., additional, Riveiro, E., additional, Golino, G., additional, Lupia, A., additional, Costa, G., additional, Rocca, R., additional, Cascione, L., additional, Jenni, S., additional, Tsai, Y., additional, Bornhauser, B., additional, Alcaro, S., additional, Paduano, F., additional, Trapasso, F., additional, Zucca, E., additional, Stathis, A., additional, Pazzi, N., additional, Cavalli, F., additional, and Bertoni, F., additional

Published
2019
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20. Design and Development of Biomimetic Nanovesicles Using a Microfluidic Approach

Author

Molinaro, R, Evangelopoulos, M, Hoffman, J, Corbo, C, Taraballi, F, Martinez, J, Hartman, K, Cosco, D, Costa, G, Romeo, I, Sherman, M, Paolino, D, Alcaro, S, Tasciotti, E, Hoffman, JR, Martinez, JO, Hartman, KA, Molinaro, R, Evangelopoulos, M, Hoffman, J, Corbo, C, Taraballi, F, Martinez, J, Hartman, K, Cosco, D, Costa, G, Romeo, I, Sherman, M, Paolino, D, Alcaro, S, Tasciotti, E, Hoffman, JR, Martinez, JO, and Hartman, KA

Abstract

The advancement of nanotechnology toward more sophisticated bioinspired approaches has highlighted the gap between the advantages of biomimetic and biohybrid platforms and the availability of manufacturing processes to scale up their production. Though the advantages of transferring biological features from cells to synthetic nanoparticles for drug delivery purposes have recently been reported, a standardizable, batch-to-batch consistent, scalable, and high-throughput assembly method is required to further develop these platforms. Microfluidics has offered a robust tool for the controlled synthesis of nanoparticles in a versatile and reproducible approach. In this study, the incorporation of membrane proteins within the bilayer of biomimetic nanovesicles (leukosomes) using a microfluidic-based platform is demonstrated. The physical, pharmaceutical, and biological properties of microfluidic-formulated leukosomes (called NA-Leuko) are characterized. NA-Leuko show extended shelf life and retention of the biological functions of donor cells (i.e., macrophage avoidance and targeting of inflamed vasculature). The NA approach represents a universal, versatile, robust, and scalable tool, which is extensively used for the assembly of lipid nanoparticles and adapted here for the manufacturing of biomimetic nanovesicles.

Published
2018

21. Multi-target-directed ligands for Alzheimer's disease: Discovery of chromone-based monoamine oxidase/cholinesterase inhibitors

Author

Ministerio de Economía, Industria y Competitividad (España), Comunidad de Madrid, Consejo Superior de Investigaciones Científicas (España), European Commission, Reis, J., Cagide, F., Estrada Valencia. Martín, Teixeira, J., Bagetta, D., Pérez, Concepción, Uriarte, Eugenio, Oliveira, Paulo J., Ortuso, F., Alcaro, S., Rodríguez-Franco, María Isabel, Borges, Fernanda, Ministerio de Economía, Industria y Competitividad (España), Comunidad de Madrid, Consejo Superior de Investigaciones Científicas (España), European Commission, Reis, J., Cagide, F., Estrada Valencia. Martín, Teixeira, J., Bagetta, D., Pérez, Concepción, Uriarte, Eugenio, Oliveira, Paulo J., Ortuso, F., Alcaro, S., Rodríguez-Franco, María Isabel, and Borges, Fernanda

Abstract

There has been a substantial research effort to design multi-target ligands for the treatment of Alzheimer's disease (AD), an approach that is moved by the knowledge that AD is a complex and multifactorial disease affecting many linked to pathological pathways. Accordingly, we have devoted efforts to develop multi-target ligands based on the chromone scaffold. As a result, a small library of chromone derivatives was synthesized and screened towards human cholinesterases and monoamine oxidases. Compounds 2-(dimethylamino)ethyl (E)-3-(4-oxo-2-(p-methylphenlcarbamoyl)-4H-chromen-6-yl)acrylate (9a) and 2-(dimethylamino)ethyl (E)-3-(4-oxo-3-(phenylcarbamoyl)-4H-chromen-6-yl)acrylate (23a) were identified as the most promising multi-target inhibitors of the series. Compound 9a acted as a potent, selective and bifunctional AChEI (IC50 = 0.21 mM, Ki = 0.19 mM) and displayed dual hMAO inhibitory activity (hMAO-A IC50 = 0.94 mM, Ki = 0.057 mM and hMAO-B IC50 = 3.81 mM, Ki = 0.48 mM). Compound 23a acted as a selective IMAO-B (IC50 = 0.63 mM, Ki = 0.34 mM) while still displaying hChE inhibitory and bifunctional activity in the low micromolar range. Overall, these two compounds stand out as reversible multi-target inhibitors with favourable permeability, toxicological and drug-like profiles, thus being valid candidates for subsequent optimization and pre-clinical studies.

Published
2018

25. Synthesis and biological evaluation of N-substituted-3,5-diphenyl-2-pyrazoline derivatives as cyclooxygenase (COX-2) inhibitors

Author

Fioravanti, Rossella, Bolasco, Adriana, Manna, F., Rossi, F., Orallo, F., Yáñez, M., Vitali, A., Ortuso, F., Alcaro, S., and Cirilli, R.

Subjects
Models, Molecular, Insecta, Stereochemistry, Pyrazoline, Chemical synthesis, Sulfone, Structure-Activity Relationship, chemistry.chemical_compound, Catalytic Domain, Drug Discovery, Animals, Humans, Pharmacology, Cyclooxygenase 2 Inhibitors, Molecular Structure, biology, Organic Chemistry, Active site, Stereoisomerism, General Medicine, In vitro, chemistry, Cyclooxygenase 2, Enzyme inhibitor, Docking (molecular), Cyclooxygenase 1, biology.protein, Pyrazoles, Cyclooxygenase
Abstract

Eighteen new 1-N-substituted-3,5-diphenyl-2-pyrazoline derivatives have been synthesized and cyclooxygenase (COX-1 and COX-2) inhibitory activities have been evaluated. The results of these biological assays showed that all of new derivatives are not endowed with improved anti-inflammatory activity against COX-1, but some of them showed a good activity against COX-2. To evaluate the binding mode of the most significative compounds (2d, 2f, 2g and 2k) docking studies were carried out. These studies confirmed biological data, in fact these compounds were able to fit into the active site of COX-2.

Published
2010

27. Identification and structural characterization of novel genetic elements in the HIV-1 V3 loop regulating coreceptor usage

Author

Svicher, V, Alteri, C, Artese, A, Zhang, Jm, Costa, G, Mercurio, F, D'Arrigo, R, Alcaro, S, Palu', Giorgio, Clementi, Maurizio, Zazzi, M, Andreoni, M, Antinori, A, Lazzarin, A, Ceccherini Silberstein, F, Perno, Cf, OSCAR study group, Svicher, V, Alteri, C, Artese, A, Zhang, Jm, Costa, G, Mercurio, F, D'Arrigo, R, Alcaro, S, Palu, G, Clementi, Massimo, Zazzi, M, Andreoni, M, Antinori, A, Lazzarin, Adriano, Ceccherini Silberstein, F, and Perno, Cf

Subjects
Receptors, CXCR4, Receptors, CCR5, Sequence analysis, viruses, Molecular Sequence Data, V3 loop, HIV Envelope Protein gp120, Molecular Dynamics Simulation, medicine.disease_cause, 03 medical and health sciences, chemistry.chemical_compound, Mole, medicine, Cluster Analysis, Humans, Pharmacology (medical), Tropism, 030304 developmental biology, Pharmacology, Genetics, 0303 health sciences, Mutation, Base Sequence, 030306 microbiology, virus diseases, Bayes Theorem, Sequence Analysis, DNA, Virus Internalization, Settore MED/07 - Microbiologia e Microbiologia Clinica, Peptide Fragments, 3. Good health, N-terminus, Infectious Diseases, chemistry, HIV-1, DNA, Trofile assay
Abstract

Background The interaction between HIV-1 gp120 and CCR5 N terminus is critical for R5-virus entry and affects CCR5 antagonists’ activity. Knowledge of how different genetic signatures of gp120 V3 domain effect the strength of this interaction is limited. Methods HIV-1 coreceptor usage was assessed in 251 patients using enhanced-sensitivity Trofile assay and V3 sequencing plus tropism prediction by Geno2pheno algorithm. Bayesian partitional model and recursive model selection have been used to define V3 genetic determinants correlated with different coreceptor usage. Gp120 interaction with CCR5 N terminus was evaluated by docking-analysis/molecular–dynamic simulations starting from the model described previously. Results Selected V3 genetic determinants (beyond known aminoacidic positions) significantly correlate with CCR5-or CXCR4-usage, and modulate gp120 affinity for CCR5 N terminus. This is the case for N5Y and N7K, absent in CCR5-using viruses and present in 4.5% and 6% of CXCR4-using viruses, respectively, and A19V, occurring in 2.6% of CCR5-using viruses and 22.0% of CXCR4-using viruses ( P=10-2 to 10-7). Their presence determines a decreased affinity for CCR5 N terminus even stronger than that observed in the presence of the well-known mutation S11R (N5Y: -6.60 Kcal/mol; N7K: -5.40 Kcal/mol; A19V: -5.60 Kcal/mol; S11R: -6.70 Kcal/mol; WT: -6.90 Kcal/mol). N7K significantly increases the distance between V3 position 7 and sulphotyrosine at CCR5 position 14 (crucial for binding to gp120; from 4.22 Å to 8.30 Å), thus abrogating the interaction between these two important residues. Conclusions Key determinants for tropism within the V3 sequence, confirmed by structure- and by phenotypictropism, have been identified. This information can be used for a finer tuning of potential efficacy of CCR5-antagonists in clinical practice, and to provide molecular implications for design of new entry inhibitors.

Published
2011

28. Donepezil analogs as acetylcholinesterase inhibitors

Author

Desiderio, D., Lamberti, A., Sgammato, R., Costanzo, P., Oliverio, M., Ortuso, F., Procopio, A., Alcaro, S., Raimo, Gennaro, Arcone, R., and Masullo, M.

Subjects
Acetylcholinesterase inhibitors, Donepezil
Published
2014

35. Effect of maraviroc on non-R5 tropic HIV-1: refined analysis of subjects from the phase IIb study A4001029

Author

Surdo, M., primary, Alteri, C., additional, Puertas, M.C., additional, Saccomandi, P., additional, Parrotta, L., additional, Swenson, L., additional, Chapman, D., additional, Costa, G., additional, Artese, A., additional, Balestra, E., additional, Aquaro, S., additional, Alcaro, S., additional, Lewis, M., additional, Clotet, B., additional, Harrigan, R., additional, Valdez, H., additional, Svicher, V., additional, Perno, C.F., additional, Martinez-Picado, J., additional, and Ceccherini-Silberstein, F., additional

Published
2015
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37. N-methyl-N-((1-methyl-5-(3-(1-(2-methylbenzyl)piperidin-4-yl)propoxy)-1H-indol-2-yl)methyl)prop-2-yn-1-amine, a new cholinesterase and monoamine oxidase dual inhibitor

Author

Bautista-Aguilera, Óscar M., Samadi, Abdelouahid, Chioua, Mourad, Nikolic, K., Filipic, S., Agbaba, Danica, Soriano, Elena, Andrés, Lucía de, Rodríguez-Franco, María Isabel, Alcaro, S., Ramsay, R. R., Ortuso, F., Yáñez, Matilde, Marco-Contelles, José, Bautista-Aguilera, Óscar M., Samadi, Abdelouahid, Chioua, Mourad, Nikolic, K., Filipic, S., Agbaba, Danica, Soriano, Elena, Andrés, Lucía de, Rodríguez-Franco, María Isabel, Alcaro, S., Ramsay, R. R., Ortuso, F., Yáñez, Matilde, and Marco-Contelles, José

Abstract

On the basis of N-((5-(3-(1-benzylpiperidin-4-yl)propoxy)-1-methyl-1H-indol-2-yl)methyl)-N-methylprop-2-yn-1-amine (II, ASS234) and QSAR predictions, in this work we have designed, synthesized, and evaluated a number of new indole derivatives from which we have identified N-methyl-N-((1-methyl-5-(3-(1-(2-methylbenzyl)piperidin-4-yl)propoxy)-1H-indol-2-yl)methyl)prop-2-yn-1-amine (2, MBA236) as a new cholinesterase and monoamine oxidase dual inhibitor.

Published
2014

49. New raltegravir resistance pathways induce broad cross-resistance to all currently used integrase inhibitors

Author

Malet, I., primary, Gimferrer Arriaga, L., additional, Artese, A., additional, Costa, G., additional, Parrotta, L., additional, Alcaro, S., additional, Delelis, O., additional, Tmeizeh, A., additional, Katlama, C., additional, Valantin, M.-A., additional, Ceccherini-Silberstein, F., additional, Calvez, V., additional, and Marcelin, A.-G., additional

Published
2014
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