Your search keyword '"Alcaro, Stefano"' showing total 107 results

1. TERRA G‐quadruplex stabilization behind the anti‐multiple myeloma activity: Novel insights about resveratrol pleiotropic effects.

Author

Rocca, Roberta, Ascrizzi, Serena, Citriniti, Emanuele Liborio, Scionti, Francesca, Juli, Giada, Di Martino, Maria Teresa, Caracciolo, Daniele, Artese, Anna, Tagliaferri, Pierosandro, Tassone, Pierfrancesco, Grillone, Katia, and Alcaro, Stefano

Published

2024

2. Exploiting the bile acid binding protein as transporter of a Cholic Acid/Mirin bioconjugate for potential applications in liver cancer therapy.

Author

Tassone, Giusy, Maramai, Samuele, Paolino, Marco, Lamponi, Stefania, Poggialini, Federica, Dreassi, Elena, Petricci, Elena, Alcaro, Stefano, Pozzi, Cecilia, and Romeo, Isabella

Subjects

CHICKEN as food, CHOLIC acid, CARRIER proteins, BILE acids, X-ray crystallography

Abstract

Bioconjugation is one of the most promising strategies to improve drug delivery, especially in cancer therapy. Biomolecules such as bile acids (BAs) have been intensively explored as carriers, due to their peculiar physicochemical properties and biocompatibility. BAs trafficking is regulated by intracellular lipid-binding proteins and their transport in the liver can be studied using chicken liver Bile Acid-Binding Proteins (cL-BABPs) as a reference model. Therefore, we conceived the idea of developing a BA-conjugate with Mirin, an exonuclease inhibitor of Mre11 endowed with different anticancer activities, to direct its transport to the liver. Following computational analysis of various BAs in complex with cL-BABP, we identified cholic acid (CA) as the most promising candidate as carrier, leading to the synthesis of a novel bioconjugate named CA-M11. As predicted by computational data and confirmed by X-ray crystallographic studies, CA-M11 was able to accommodate into the binding pocket of BABP. Hence, it can enter BAs trafficking in the hepatic compartment and here release Mirin. The effect of CA-M11, evaluated in combination with varying concentrations of Doxorubicin on HepG2 cell line, demonstrated a significant increase in cell mortality compared to the use of the cytotoxic drug or Mirin alone, thus highlighting chemo-sensitizing properties. The promising results regarding plasma stability for CA-M11 validate its potential as a valuable agent or adjuvant for hepatic cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

3. A Dynamic and Effective Peptide-Based Strategy for Promptly Addressing Emerging SARS-CoV-2 Variants of Concern.

Author

Murdocca, Michela, Romeo, Isabella, Citro, Gennaro, Latini, Andrea, Centofanti, Federica, Bugatti, Antonella, Caccuri, Francesca, Caruso, Arnaldo, Ortuso, Francesco, Alcaro, Stefano, Sangiuolo, Federica, and Novelli, Giuseppe

Subjects

SARS-CoV-2, SARS-CoV-2 Omicron variant, SURFACE plasmon resonance, CD26 antigen, PEPTIDES

Abstract

Genomic surveillance based on sequencing the entire genetic code of SARS-CoV-2 involves monitoring and studying genetic changes and variations in disease-causing organisms such as viruses and bacteria. By tracing the virus, it is possible to prevent epidemic spread in the community, ensuring a 'precision public health' strategy. A peptide-based design was applied to provide an efficacious strategy that is able to counteract any emerging viral variant of concern dynamically and promptly to affect the outcomes of a pandemic at an early stage while waiting for the production of the anti-variant-specific vaccine, which require longer times. The inhibition of the interaction between the receptor-binding domain (RBD) of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and one of the cellular receptors (DPP4) that its receptors routinely bind to infect human cells is an intriguing therapeutic approach to prevent the virus from entering human cells. Among the other modalities developed for this purpose, peptides surely offer unique advantages, including ease of synthesis, serum stability, low immunogenicity and toxicity, and small production and distribution chain costs. Here, we obtained a potent new inhibitor based on the rearrangement of a previously identified peptide that has been rationally designed on a cell dipeptidyl peptidase 4 (DPP4) sequence, a ubiquitous membrane protein known to bind the RBD-SPIKE domain of the virus. This novel peptide (named DPP4-derived), conceived as an endogenous "drug", is capable of targeting the latest tested variants with a high affinity, reducing the VSV* DG-Fluc pseudovirus Omicron's infection capacity by up to 14%, as revealed by in vitro testing in human Calu-3 cells. Surface plasmon resonance (SPR) confirmed the binding affinity of the new DPP4-derived peptide with Omicron variant RBD. [ABSTRACT FROM AUTHOR]

Published

2024

4. Novel multifunctional tacrine–donepezil hybrids against Alzheimer's disease: Design synthesis and bioactivity studies.

Author

Bayraktar, Gülşah, Bartolini, Manuela, Bolognesi, Maria Laura, Erdoğan, Mumin Alper, Armağan, Güliz, Bayır, Ece, Şendemir, Aylin, Bagetta, Donatella, Alcaro, Stefano, and Alptüzün, Vildan

Published

2024

5. Morzeddhu : A Unique Example of a Traditional and Sustainable Typical Dish from Catanzaro.

Author

Alcaro, Stefano, Rocca, Roberta, Rotundo, Maria Grazia, Bianco, Francesco, and Scordamaglia, Luigi

Subjects

MEDITERRANEAN diet, CIRCULAR economy, MEAT cuts, FOOD security, FATTY acids, BIOACTIVE compounds

Abstract

"Morzeddhu" in the local dialect of Catanzaro ("Morzello" in Italian) is an official typical dish of the capital of the Calabria region. It is a peasant dish, almost unknown at an international level, that labels, in an extraordinary way, the culinary identity of Catanzaro, a city founded around the X century. After America's discovery, its preparation was optimized and definitively fixed. Its recipe is strictly based on a cow's "fifth quarter" combined with spicy and typical Mediterranean vegetables. Remarkably, no pork meat is used, and when all traditional ingredients are included in the complex and quite long preparation of this special dish, it can deserve the title of "Illustrissimo". This review provides a scientific description of Illustrissimo, emphasizing its unique properties and connection to the circular economy, food security, and the Mediterranean diet. We also highlight its unique quality compared to other alternatives through an analysis of their nutritional facts and bioactive compounds. Nutritionally, offal and fifth quarter components are a rich source of high-quality protein, with lower levels of total fat and saturated fatty acids compared to other meat cuts. In essence, this dish offers a great example of a high-quality yet affordable meal, aligning perfectly with a Mediterranean diet. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Histone Deacetylase Family: Structural Features and Application of Combined Computational Methods.

Author

Curcio, Antonio, Rocca, Roberta, Alcaro, Stefano, and Artese, Anna

Subjects

HISTONE deacetylase inhibitors, ACETYL group, MOLECULAR dynamics, STRUCTURE-activity relationships, LIGAND binding (Biochemistry)

Abstract

Histone deacetylases (HDACs) are crucial in gene transcription, removing acetyl groups from histones. They also influence the deacetylation of non-histone proteins, contributing to the regulation of various biological processes. Thus, HDACs play pivotal roles in various diseases, including cancer, neurodegenerative disorders, and inflammatory conditions, highlighting their potential as therapeutic targets. This paper reviews the structure and function of the four classes of human HDACs. While four HDAC inhibitors are currently available for treating hematological malignancies, numerous others are undergoing clinical trials. However, their non-selective toxicity necessitates ongoing research into safer and more efficient class-selective or isoform-selective inhibitors. Computational methods have aided the discovery of HDAC inhibitors with the desired potency and/or selectivity. These methods include ligand-based approaches, such as scaffold hopping, pharmacophore modeling, three-dimensional quantitative structure–activity relationships, and structure-based virtual screening (molecular docking). Moreover, recent developments in the field of molecular dynamics simulations, combined with Poisson–Boltzmann/molecular mechanics generalized Born surface area techniques, have improved the prediction of ligand binding affinity. In this review, we delve into the ways in which these methods have contributed to designing and identifying HDAC inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

7. Neurodegeneration: can metabolites from Eremurus persicus help?

Author

Cavalloro, Valeria, Marchesi, Nicoletta, Linciano, Pasquale, Rossi, Daniela, Campagnoli, Lucrezia Irene Maria, Fossati, Alice, Ahmed, Karzan Mahmood, Malacrida, Alessio, Miloso, Mariarosaria, Mazzeo, Giuseppe, Abbate, Sergio, Longhi, Giovanna, Ambrosio, Francesca Alessandra, Costa, Giosuè, Alcaro, Stefano, Pascale, Alessia, Martino, Emanuela, and Collina, Simona

Subjects

NEURONAL differentiation, NEUROPLASTICITY, NEURODEGENERATION, METABOLITES, INDIVIDUALIZED medicine

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-a 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. [ABSTRACT FROM AUTHOR]

Published

2024

8. New Insights for Polyphenolic Compounds as Naturally Inspired Proteasome Inhibitors.

Author

Marchese, Emanuela, Gallo Cantafio, Maria Eugenia, Ambrosio, Francesca Alessandra, Torcasio, Roberta, Valentino, Ilenia, Trapasso, Francesco, Viglietto, Giuseppe, Alcaro, Stefano, Costa, Giosuè, and Amodio, Nicola

Subjects

PROTEASOME inhibitors, MULTIPLE myeloma, PLANT polyphenols, ANTINEOPLASTIC agents, PROTEASOMES, NATURAL products, POLYPHENOLS

Abstract

Polyphenols, an important class of natural products, are widely distributed in plant-based foods. These compounds are endowed with several biological activities and exert protective effects in various physiopathological contexts, including cancer. We herein investigated novel potential mechanisms of action of polyphenols, focusing on the proteasome, which has emerged as an attractive therapeutic target in cancers such as multiple myeloma. We carried out a structure-based virtual screening study using the DrugBank database as a repository of FDA-approved polyphenolic molecules. Starting from 86 polyphenolic compounds, based on the theoretical binding affinity and the interactions established with key residues of the chymotrypsin binding site, we selected 2 promising candidates, namely Hesperidin and Diosmin. The further assessment of the biologic activity highlighted, for the first time, the capability of these two molecules to inhibit the β5-proteasome activity and to exert anti-tumor activity against proteasome inhibitor-sensitive or resistant multiple myeloma cell lines. [ABSTRACT FROM AUTHOR]

Published

2023

9. 2H-chromene and 7H-furo-chromene derivatives selectively inhibit tumour associated human carbonic anhydrase IX and XII isoforms.

Author

Sequeira, Lisa, Distinto, Simona, Meleddu, Rita, Gaspari, Marco, Angeli, Andrea, Cottiglia, Filippo, Secci, Daniela, Onali, Alessia, Sanna, Erica, Borges, Fernanda, Uriarte, Eugenio, Alcaro, Stefano, Supuran, Claudiu T., and Maccioni, Elias

Subjects

CARBONIC anhydrase, CHEMICAL libraries, CHEMICAL synthesis, TUMORS, ISOENZYMES

Abstract

Tumour associated carbonic anhydrases (CAs) IX and XII have been recognised as potential targets for the treatment of hypoxic tumours. Therefore, considering the high pharmacological potential of the chromene scaffold as selective ligand of the IX and XII isoforms, two libraries of compounds, namely 2H-chromene and 7H-furo-chromene derivatives, with diverse substitution patterns were designed and synthesised. The structure of the newly synthesised compounds was characterised and their inhibitory potency and selectivity towards human CA off target isoforms I, II and cancer-associated CA isoforms IX and XII were evaluated. Most of the compounds inhibit CA isoforms IX and XII with no activity against the I and II isozymes. Thus, while the potency was influenced by the substitution pattern along the chromene scaffold, the selectivity was conserved along the series, confirming the high potential of both 2H-chromene and 7H-furo-chromene scaffolds for the design of isozyme selective inhibitors. [ABSTRACT FROM AUTHOR]

Published

2023

10. An Update on Recent Studies Focusing on the Antioxidant Properties of Salvia Species.

Author

Iacopetta, Domenico, Ceramella, Jessica, Scumaci, Domenica, Catalano, Alessia, Sinicropi, Maria Stefania, Tundis, Rosa, Alcaro, Stefano, and Borges, Fernanda

Subjects

SALVIA, SAGE, SCIENTIFIC literature, LAMIACEAE, SPECIES, ANTIOXIDANTS, PREVENTIVE medicine

Abstract

Nutrition has crucial effects and a significant role in disease prevention. Recently, nutraceuticals have attracted much attention in scientific research due to their pleiotropic effects and relatively non-toxic behavior. Among the biological effects displayed by plants belonging to the Lamiaceae family, such as antibacterial, anticancer, anti-inflammatory, and anticholinesterase, sage is well known for its antioxidant properties and is a rich source of numerous compounds that are biologically active, amongst them polyphenols, with more than 160 types identified. In this review we summarized some of the significant studies published in the last decade reporting the most employed extraction methods and the different assays that are useful for establishing the antioxidant properties of some sage species. Even though the scientific literature contains plenty of data regarding the antioxidant properties of many sage species, further studies are needed in order to gain a deeper understanding of the mechanism of action and the compounds responsible for their antioxidant activity. Finally, it should be taken into account that the data on the antioxidant properties of sage extracts are often difficult to compare with each other, since a series of variables in the extraction procedures, the type of assay used, and standardization may affect the final result. [ABSTRACT FROM AUTHOR]

Published

2023

11. Molecular and Structural Aspects of Clinically Relevant Mutations of SARS-CoV-2 RNA-Dependent RNA Polymerase in Remdesivir-Treated Patients.

Author

Gratteri, Carmen, Ambrosio, Francesca Alessandra, Lupia, Antonio, Moraca, Federica, Catalanotti, Bruno, Costa, Giosuè, Bellocchi, Maria, Carioti, Luca, Salpini, Romina, Ceccherini-Silberstein, Francesca, Frazia, Simone La, Malagnino, Vincenzo, Sarmati, Loredana, Svicher, Valentina, Bryant, Sharon, Artese, Anna, and Alcaro, Stefano

Subjects

RNA replicase, SARS-CoV-2, RNA synthesis, MOLECULAR dynamics, VIRAL load

Abstract

(1) Background: SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) is a promising therapeutic target to fight COVID-19, and many RdRp inhibitors nucleotide/nucleoside analogs, such as remdesivir, have been identified or are in clinical studies. However, the appearance of resistant mutations could reduce their efficacy. In the present work, we structurally evaluated the impact of RdRp mutations found at baseline in 39 patients treated with remdesivir and associated with a different degree of antiviral response in vivo. (2) Methods: A refined bioinformatics approach was applied to assign SARS-CoV-2 clade and lineage, and to define RdRp mutational profiles. In line with such a method, the same mutations were built and analyzed by combining docking and thermodynamics evaluations with both molecular dynamics and representative pharmacophore models. (3) Results: Clinical studies revealed that patients bearing the most prevalent triple mutant P323L+671S+M899I, which was present in 41% of patients, or the more complex mutational profile P323L+G671S+L838I+D738Y+K91E, which was found with a prevalence of 2.6%, showed a delayed reduced response to remdesivir, as confirmed by the increase in SARS-CoV-2 viral load and by a reduced theoretical binding affinity versus RdRp (ΔGbindWT = −122.70 kcal/mol; ΔGbindP323L+671S+M899I = −84.78 kcal/mol; ΔGbindP323L+G671S+L838I+D738Y+K91E = −96.74 kcal/mol). Combined computational approaches helped to rationalize such clinical observations, offering a mechanistic understanding of the allosteric effects of mutants on the global motions of the viral RNA synthesis machine and in the changes of the interactions patterns of remdesivir during its binding. [ABSTRACT FROM AUTHOR]

Published

2023

12. Hit identification of novel small molecules interfering with MALAT1 triplex by a structure‐based virtual screening.

Author

Rocca, Roberta, Polerà, Nicoletta, Juli, Giada, Grillone, Katia, Maruca, Annalisa, Martino, Maria Teresa Di, Artese, Anna, Amato, Jussara, Pagano, Bruno, Randazzo, Antonio, Tagliaferri, Pietrosandro, Tassone, Pierfrancesco, and Alcaro, Stefano

Published

2023

13. Uncovering Novel Capsaicin Inhibitory Activity towards Human Carbonic Anhydrase Isoforms IX and XII by Combining In Silico and In Vitro Studies.

Author

Gualtieri, Gianmarco, Maruca, Annalisa, Rocca, Roberta, Carta, Fabrizio, Berrino, Emanuela, Salatino, Alessandro, Brescia, Carolina, Torcasio, Roberta, Crispo, Manuel, Trapasso, Francesco, Alcaro, Stefano, Supuran, Claudiu T., and Costa, Giosuè

Subjects

CARBONIC anhydrase, TRPV cation channels, CAPSAICIN, NON-small-cell lung carcinoma, HOT peppers

Abstract

Hot pepper (Capsicum annuum) represents one of the most widespread functional foods of the Mediterranean diet, and is associated with a reduced risk of developing cardiovascular disease, cancer, and mental disorders. In particular, its bioactive spicy molecules, named Capsaicinoids, exhibit polypharmacological properties. Among them, Capsaicin (trans-8-methyl-N-vanillyl-6-nonenamide) is the most studied and reported in variegated scientific contributions for its beneficial effects, often linked to mechanisms of action unrelated to the activation of Transient Receptor Potential Vanilloid 1 (TRPV1). In this study, we present the application of in silico methods to Capsaicin for evaluating its inhibitory activity against the tumor-associated human (h) expressed CA IX and XII. In vitro assays confirmed Capsaicin inhibitory activity towards the most relevant tumor-related hCA isoforms. In particular, the hCAs IX and XII showed an experimental KI value of 0.28 μM and 0.064 μM, respectively. Then, an A549 model of non-small cell lung cancer, typically characterized by an elevated expression of hCA IX and XII, was employed to test the inhibitory effects of Capsaicin in vitro under both normoxic and hypoxic conditions. Finally, the migration assay revealed that Capsaicin [10 µM] inhibits cells from moving in the A549 cells model. [ABSTRACT FROM AUTHOR]

Published

2023

14. HSV-1 Glycoprotein D and Its Surface Receptors: Evaluation of Protein–Protein Interaction and Targeting by Triazole-Based Compounds through In Silico Approaches.

Author

Bivacqua, Roberta, Romeo, Isabella, Barreca, Marilia, Barraja, Paola, Alcaro, Stefano, and Montalbano, Alessandra

Subjects

PROTEIN-protein interactions, DRUG design, STRUCTURE-activity relationships, MOLECULAR dynamics, ANTIVIRAL agents

Abstract

Protein–protein interactions (PPI) represent attractive targets for drug design. Thus, aiming at a deeper insight into the HSV-1 envelope glycoprotein D (gD), protein–protein docking and dynamic simulations of gD-HVEM and gD-Nectin-1 complexes were performed. The most stable complexes and the pivotal key residues useful for gD to anchor human receptors were identified and used as starting points for a structure-based virtual screening on a library of both synthetic and designed 1,2,3-triazole-based compounds. Their binding properties versus gD interface with HVEM and Nectin-1 along with their structure-activity relationships (SARs) were evaluated. Four [1,2,3]triazolo[4,5-b]pyridines were identified as potential HSV-1 gD inhibitors, for their good theoretical affinity towards all conformations of HSV-1 gD. Overall, this study suggests promising basis for the design of new antiviral agents targeting gD as a valuable strategy to prevent viral attachment and penetration into the host cell. [ABSTRACT FROM AUTHOR]

Published

2023

15. TERRA G-quadruplex stabilization as a new therapeutic strategy for multiple myeloma.

Author

Scionti, Francesca, Juli, Giada, Rocca, Roberta, Polerà, Nicoletta, Nadai, Matteo, Grillone, Katia, Caracciolo, Daniele, Riillo, Caterina, Altomare, Emanuela, Ascrizzi, Serena, Caparello, Basilio, Cerra, Maria, Arbitrio, Mariamena, Richter, Sara N., Artese, Anna, Alcaro, Stefano, Tagliaferri, Pierosandro, Tassone, Pierfrancesco, and Di Martino, Maria Teresa

Subjects

MULTIPLE myeloma, DNA repair, LINCRNA, SMALL molecules, CELL cycle

Abstract

Background: Multiple myeloma (MM) is a hematologic malignancy characterized by high genomic instability, and telomere dysfunction is an important cause of acquired genomic alterations. Telomeric repeat-containing RNA (TERRA) transcripts are long non-coding RNAs involved in telomere stability through the interaction with shelterin complex. Dysregulation of TERRAs has been reported across several cancer types. We recently identified a small molecule, hit 17, which stabilizes the secondary structure of TERRA. In this study, we investigated in vitro and in vivo anti-MM activities of hit 17. Methods: Anti-proliferative activity of hit 17 was evaluated in different MM cell lines by cell proliferation assay, and the apoptotic process was analyzed by flow cytometry. Gene and protein expressions were detected by RT-qPCR and western blotting, respectively. Microarray analysis was used to analyze the transcriptome profile. The effect of hit 17 on telomeric structure was evaluated by chromatin immunoprecipitation. Further evaluation in vivo was proceeded upon NCI-H929 and AMO-1 xenograft models. Results: TERRA G4 stabilization induced in vitro dissociation of telomeric repeat‐binding factor 2 (TRF2) from telomeres leading to the activation of ATM-dependent DNA damage response, cell cycle arrest, proliferation block, and apoptotic death in MM cell lines. In addition, up-regulation of TERRA transcription was observed upon DNA damage and TRF2 loss. Transcriptome analysis followed by gene set enrichment analysis (GSEA) confirmed the involvement of the above-mentioned processes and other pathways such as E2F, MYC, oxidative phosphorylation, and DNA repair genes as early events following hit 17-induced TERRA stabilization. Moreover, hit 17 exerted anti-tumor activity against MM xenograft models. Conclusion: Our findings provide evidence that targeting TERRA by hit 17 could represent a promising strategy for a novel therapeutic approach to MM. [ABSTRACT FROM AUTHOR]

Published

2023

16. In Silico and In Vitro Study of Antioxidant Potential of Urolithins.

Author

Marchese, Emanuela, Orlandi, Valentina, Turrini, Federica, Romeo, Isabella, Boggia, Raffaella, Alcaro, Stefano, and Costa, Giosuè

Subjects

REACTIVE oxygen species, DENSITY functional theory, RADICALS (Chemistry), ELLAGITANNINS, ELLAGIC acid, MICROBIAL metabolites, PLANT polyphenols

Abstract

In this work, quantum chemical calculations based on density functional theory (DFT) were performed to predict the antioxidant potential of four bioactive gut microbiota metabolites of the natural polyphenols ellagitannins (ETs) and ellagic acid (EA), also known as urolithins (UROs). In order to evaluate their ability to counter the effect of oxidative stress caused by reactive oxygen species (ROS), such as the hydroperoxyl radical (•OOH), different reaction mechanisms were investigated, considering water and lipid-like environments. Through our in silico results, it emerged that at physiological pH, the scavenging activity of all urolithins, except urolithin B, are higher than that of trolox and other potent antioxidants existing in nature, such as EA, α-mangostin, allicin, caffeine and melatonin. These findings were confirmed by experimental assays. [ABSTRACT FROM AUTHOR]

Published

2023

17. Natural Agents as Novel Potential Source of Proteasome Inhibitors with Anti-Tumor Activity: Focus on Multiple Myeloma.

Author

Ambrosio, Francesca Alessandra, Costa, Giosuè, Gallo Cantafio, Maria Eugenia, Torcasio, Roberta, Trapasso, Francesco, Alcaro, Stefano, Viglietto, Giuseppe, and Amodio, Nicola

Subjects

PROTEASOME inhibitors, MULTIPLE myeloma, ANTINEOPLASTIC agents, DRUG discovery, PROTEASOMES, INCURABLE diseases, CD38 antigen, THALIDOMIDE

Abstract

Multiple myeloma (MM) is an aggressive and incurable disease for most patients, characterized by periods of treatment, remission and relapse. The introduction of new classes of drugs, such as proteasome inhibitors (PIs), has improved survival outcomes in these patient populations. The proteasome is the core of the ubiquitin–proteasome system (UPS), a complex and conserved pathway involved in the control of multiple cellular processes, including cell cycle control, transcription, DNA damage repair, protein quality control and antigen presentation. To date, PIs represent the gold standard for the treatment of MM. Bortezomib was the first PI approved by the FDA, followed by next generation of PIs, namely carfilzomib and ixazomib. Natural agents play an important role in anti-tumor drug discovery, and many of them have recently been reported to inhibit the proteasome, thus representing a new potential source of anti-MM drugs. Based on the pivotal biological role of the proteasome and on PIs' significance in the management of MM, in this review we aim to briefly summarize recent evidence on natural compounds capable of inhibiting the proteasome, thus triggering anti-MM activity. [ABSTRACT FROM AUTHOR]

Published

2023

18. Targeting SARS-CoV-2 nsp13 Helicase and Assessment of Druggability Pockets: Identification of Two Potent Inhibitors by a Multi-Site In Silico Drug Repurposing Approach.

Author

Romeo, Isabella, Ambrosio, Francesca Alessandra, Costa, Giosuè, Corona, Angela, Alkhatib, Mohammad, Salpini, Romina, Lemme, Saverio, Vergni, Davide, Svicher, Valentina, Santoro, Maria Mercedes, Tramontano, Enzo, Ceccherini-Silberstein, Francesca, Artese, Anna, and Alcaro, Stefano

Subjects

DRUG repositioning, DNA helicases, SARS-CoV-2, VIRUS-induced enzymes, DRUG development, DNA denaturation

Abstract

The SARS-CoV-2 non-structural protein 13 (nsp13) helicase is an essential enzyme for viral replication and has been identified as an attractive target for the development of new antiviral drugs. In detail, the helicase catalyzes the unwinding of double-stranded DNA or RNA in a 5′ to 3′ direction and acts in concert with the replication–transcription complex (nsp7/nsp8/nsp12). In this work, bioinformatics and computational tools allowed us to perform a detailed conservation analysis of the SARS-CoV-2 helicase genome and to further predict the druggable enzyme's binding pockets. Thus, a structure-based virtual screening was used to identify valuable compounds that are capable of recognizing multiple nsp13 pockets. Starting from a database of around 4000 drugs already approved by the Food and Drug Administration (FDA), we chose 14 shared compounds capable of recognizing three out of four sites. Finally, by means of visual inspection analysis and based on their commercial availability, five promising compounds were submitted to in vitro assays. Among them, PF-03715455 was able to block both the unwinding and NTPase activities of nsp13 in a micromolar range. [ABSTRACT FROM AUTHOR]

Published

2022

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

Author

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

Subjects

MULTIPLE myeloma, DRUG discovery, MULTIDRUG resistance, CELL migration, ROSELLE, STRUCTURE-activity relationships, PROTEASOMES

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. [ABSTRACT FROM AUTHOR]

Published

2022

20. Exploiting DNA Ligase III addiction of multiple myeloma by flavonoid Rhamnetin.

Author

Caracciolo, Daniele, Juli, Giada, Riillo, Caterina, Coricello, Adriana, Vasile, Francesca, Pollastri, Sara, Rocca, Roberta, Scionti, Francesca, Polerà, Nicoletta, Grillone, Katia, Arbitrio, Mariamena, Staropoli, Nicoletta, Caparello, Basilio, Britti, Domenico, Loprete, Giovanni, Costa, Giosuè, Di Martino, Maria Teresa, Alcaro, Stefano, Tagliaferri, Pierosandro, and Tassone, Pierfrancesco

Abstract

Background: DNA ligases are crucial for DNA repair and cell replication since they catalyze the final steps in which DNA breaks are joined. DNA Ligase III (LIG3) exerts a pivotal role in Alternative-Non-Homologous End Joining Repair (Alt-NHEJ), an error-prone DNA repair pathway often up-regulated in genomically unstable cancer, such as Multiple Myeloma (MM). Based on the three-dimensional (3D) LIG3 structure, we performed a computational screening to identify LIG3-targeting natural compounds as potential candidates to counteract Alt-NHEJ activity in MM.Methods: Virtual screening was conducted by interrogating the Phenol Explorer database. Validation of binding to LIG3 recombinant protein was performed by Saturation Transfer Difference (STD)-nuclear magnetic resonance (NMR) experiments. Cell viability was analyzed by Cell Titer-Glo assay; apoptosis was evaluated by flow cytometric analysis following Annexin V-7AAD staining. Alt-NHEJ repair modulation was evaluated using plasmid re-joining assay and Cytoscan HD. DNA Damage Response protein levels were analyzed by Western blot of whole and fractionated protein extracts and immunofluorescence analysis. The mitochondrial DNA (mtDNA) copy number was determined by qPCR. In vivo activity was evaluated in NOD-SCID mice subcutaneously engrafted with MM cells.Results: Here, we provide evidence that a natural flavonoid Rhamnetin (RHM), selected by a computational approach, counteracts LIG3 activity and killed Alt-NHEJ-dependent MM cells. Indeed, Nuclear Magnetic Resonance (NMR) showed binding of RHM to LIG3 protein and functional experiments revealed that RHM interferes with LIG3-driven nuclear and mitochondrial DNA repair, leading to significant anti-MM activity in vitro and in vivo.Conclusion: Taken together, our findings provide proof of concept that RHM targets LIG3 addiction in MM and may represent therefore a novel promising anti-tumor natural agent to be investigated in an early clinical setting. [ABSTRACT FROM AUTHOR]

Published

2022

21. The New Microtubule-Targeting Agent SIX2G Induces Immunogenic Cell Death in Multiple Myeloma.

Author

Grillone, Katia, Riillo, Caterina, Rocca, Roberta, Ascrizzi, Serena, Spanò, Virginia, Scionti, Francesca, Polerà, Nicoletta, Maruca, Annalisa, Barreca, Marilia, Juli, Giada, Arbitrio, Mariamena, Di Martino, Maria Teresa, Caracciolo, Daniele, Tagliaferri, Pierosandro, Alcaro, Stefano, Montalbano, Alessandra, Barraja, Paola, and Tassone, Pierfrancesco

Subjects

MULTIPLE myeloma, TUBULINS, CELL death, CYTOTOXIC T cells, CELL cycle, HEMATOLOGIC malignancies, DENDRITIC cells, DRUG efficacy

Abstract

Microtubule-targeting agents (MTAs) are effective drugs for cancer treatment. A novel diaryl [1,2]oxazole class of compounds binding the colchicine site was synthesized as cis-restricted-combretastatin-A-4-analogue and then chemically modified to have improved solubility and a wider therapeutic index as compared to vinca alkaloids and taxanes. On these bases, a new class of tricyclic compounds, containing the [1,2]oxazole ring and an isoindole moiety, has been synthetized, among which SIX2G emerged as improved MTA. Several findings highlighted the ability of some chemotherapeutics to induce immunogenic cell death (ICD), which is defined by the cell surface translocation of Calreticulin (CALR) via dissociation of the PP1/GADD34 complex. In this regard, we computationally predicted the ability of SIX2G to induce CALR exposure by interacting with the PP1 RVxF domain. We then assessed both the potential cytotoxic and immunogenic activity of SIX2G on in vitro models of multiple myeloma (MM), which is an incurable hematological malignancy characterized by an immunosuppressive milieu. We found that the treatment with SIX2G inhibited cell viability by inducing G2/M phase cell cycle arrest and apoptosis. Moreover, we observed the increase of hallmarks of ICD such as CALR exposure, ATP release and phospho-eIF2α protein level. Through co-culture experiments with immune cells, we demonstrated the increase of (i) CD86 maturation marker on dendritic cells, (ii) CD69 activation marker on cytotoxic T cells, and (iii) phagocytosis of tumor cells following treatment with SIX2G, confirming the onset of an immunogenic cascade. In conclusion, our findings provide a framework for further development of SIX2G as a new potential anti-MM agent. [ABSTRACT FROM AUTHOR]

Published

2022

22. Annona cherimola Mill. Leaf Extracts Affect Melanoma Cells Growth and Progression.

Author

Iacopetta, Domenico, Fazio, Alessia, La Torre, Chiara, Barbarossa, Alexia, Ceramella, Jessica, Francomano, Fabrizio, Saturnino, Carmela, El-Kashef, Hussein, Alcaro, Stefano, and Sinicropi, Maria Stefania

Subjects

CELL growth, ANNONA, SKIN cancer, MELANOMA, EXTRACTS, CELL migration

Abstract

Cancer represents one of the major causes of mortality worldwide; indeed, 19.3 million new cases and almost 10.0 million deaths were estimated last year. Among the different type of cancers, malignant melanoma represents the most aggressive and deadly skin cancer. Unfortunately, the long-term efficacy of melanoma treatments is limited by the lack of clinical efficacy, onset of side effects and resistance. The latter is a major obstacle for the success of the melanoma therapy; thus, the exploration of new potent and safer anticancer agents is of great importance. Recently, numerous plant species, used for therapeutic purposes and containing various non-toxic nutraceuticals have been widely studied. Herein, we investigated the antioxidant and anticancer properties on melanoma cells of the ethanolic, methanolic and aqueous Annona cherimola leaf extracts (ACE, ACM and ACW, respectively). The ethanolic extract showed higher anticancer activity, mostly against the malignant A2058 melanoma cell line (IC50 = 5.6 ± 0.8 ng/mL), together with a very low activity on the normal cells. It blocks the melanoma cells migration process, and induces a clear disorganization of cytoskeleton, triggering cell apoptosis. Finally, some bioactive compounds were identified in the studied extracts. [ABSTRACT FROM AUTHOR]

Published

2022

23. Mediterranean Diet: The Beneficial Effects of Lycopene in Non-Alcoholic Fatty Liver Disease.

Author

Abenavoli, Ludovico, Procopio, Anna Caterina, Paravati, Maria Rosaria, Costa, Giosuè, Milić, Nataša, Alcaro, Stefano, and Luzza, Francesco

Subjects

NON-alcoholic fatty liver disease, MEDITERRANEAN diet, FATTY liver, LYCOPENE, WATERMELONS

Abstract

Non-alcoholic fatty liver disease (NAFLD) presents the most common chronic liver disease globally; it is estimated that 25.24% of the world's population has NAFLD. NAFLD is a multi-factorial disease whose development involves various processes, such as insulin resistance, lipotoxicity, inflammation, cytokine imbalance, the activation of innate immunity, microbiota and environmental and genetic factors. Numerous clinical studies have shown that the Mediterranean diet produces beneficial effects in NAFLD patients. The aim of this review is to summarize the beneficial effects of lycopene, a soluble pigment found in fruit and vegetables, in NAFLD. [ABSTRACT FROM AUTHOR]

Published

2022

24. Design, Synthesis, and In Vitro, In Silico and In Cellulo Evaluation of New Pyrimidine and Pyridine Amide and Carbamate Derivatives as Multi-Functional Cholinesterase Inhibitors.

Author

Bortolami, Martina, Pandolfi, Fabiana, Tudino, Valeria, Messore, Antonella, Madia, Valentina Noemi, De Vita, Daniela, Di Santo, Roberto, Costi, Roberta, Romeo, Isabella, Alcaro, Stefano, Colone, Marisa, Stringaro, Annarita, Espargaró, Alba, Sabatè, Raimon, and Scipione, Luigi

Subjects

CHOLINESTERASE inhibitors, AMIDE derivatives, CARBAMATE derivatives, AMIDES, PYRIDINE derivatives, PYRIDINE, MOLECULAR docking

Abstract

Alzheimer disease is an age-linked neurodegenerative disorder representing one of the greatest medical care challenges of our century. Several drugs are useful in ameliorating the symptoms, even if none could stop or reverse disease progression. The standard approach is represented by the cholinesterase inhibitors (ChEIs) that restore the levels of acetylcholine (ACh) by inhibiting the acetylcholinesterase (AChE). Still, their limited efficacy has prompted researchers to develop new ChEIs that could also reduce the oxidative stress by exhibiting antioxidant properties and by chelating the main metals involved in the disease. Recently, we developed some derivatives constituted by a 2-amino-pyrimidine or a 2-amino-pyridine moiety connected to various aromatic groups by a flexible amino-alkyl linker as new dual inhibitors of AChE and butyrylcholinesterase (BChE). Following our previous studies, in this work we explored the role of the flexible linker by replacing the amino group with an amide or a carbamic group. The most potent compounds showed higher selectivity against BChE in respect to AChE, proving also to possess a weak anti-aggregating activity toward Aβ42 and tau and to be able to chelate Cu2+ and Fe3+ ions. Molecular docking and molecular dynamic studies proposed possible binding modes with the enzymes. It is noteworthy that these compounds were predicted as BBB-permeable and showed low cytotoxicity on the human brain cell line. [ABSTRACT FROM AUTHOR]

Published

2022

25. Identification of SET/EED dual binders as innovative PRC2 inhibitors.

Author

Catalano, Raffaella, Maruca, Annalisa, Rocca, Roberta, Tassone, Pierfrancesco, Panzarella, Giulia, Costa, Giosuè, Ortuso, Francesco, and Alcaro, Stefano

Published

2022

26. Chromene Derivatives as Selective TERRA G-Quadruplex RNA Binders with Antiproliferative Properties.

Author

Rocca, Roberta, Scionti, Francesca, Nadai, Matteo, Moraca, Federica, Maruca, Annalisa, Costa, Giosuè, Catalano, Raffaella, Juli, Giada, Di Martino, Maria Teresa, Ortuso, Francesco, Alcaro, Stefano, Tagliaferri, Pierosandro, Tassone, Pierfrancesco, Richter, Sara N., and Artese, Anna

Subjects

QUADRUPLEX nucleic acids, RNA, NUCLEIC acids, NON-coding RNA, CIRCULAR dichroism, CELL analysis

Abstract

In mammalian cells, telomerase transcribes telomeres in large G-rich non-coding RNA, known as telomeric repeat-containing RNA (TERRA), which folds into noncanonical nucleic acid secondary structures called G-quadruplexes (G4s). Since TERRA G4 has been shown to be involved in telomere length and translation regulation, it could provide valuable insight into fundamental biological processes, such as cancer growth, and TERRA G4 binders could represent an innovative strategy for cancer treatment. In this work, the three best candidates identified in our previous virtual screening campaign on bimolecular DNA/RNA G4s were investigated on the monomolecular Tel DNA and TERRA G4s by means of molecular modelling simulations and in vitro and in cell analysis. The results obtained in this work highlighted the stabilizing power of all the three candidates on TERRA G4. In particular, the two compounds characterized by a chromene scaffold were selective TERRA G4 binders, while the compound with a naphthyridine core acted as a dual Tel/TERRA G4-binder. A biophysical investigation by circular dichroism confirmed the relative stabilization efficiency of the compounds towards TERRA and Tel G4s. The TERRA G4 stabilizing hits showed good antiproliferative activity against colorectal and lung adenocarcinoma cell lines. Lead optimization to increase TERRA G4 stabilization may provide new powerful tools against cancer. [ABSTRACT FROM AUTHOR]

Published

2022

27. Molecular Modeling and Experimental Evaluation of Non-Chiral Components of Bergamot Essential Oil with Inhibitory Activity against Human Monoamine Oxidases.

Author

Catalano, Raffaella, Procopio, Francesca, Chavarria, Daniel, Benfeito, Sofia, Alcaro, Stefano, Borges, Fernanda, and Ortuso, Francesco

Subjects

ESSENTIAL oils, OXIDASES, MOLECULAR dynamics, ALZHEIMER'S disease, PARKINSON'S disease

Abstract

Human monoamine oxidases (hMAOs) are well-established targets for the treatment of neurological disorders such as depression, Parkinson's disease and Alzheimer's disease. Despite the efforts carried out over the years, few selective and reversible MAO inhibitors are on the market. Thus, a continuous search for new compounds is needed. Herein, MAO inhibitors were searched among the non-chiral constituents of Bergamot Essential Oil (BEO) with the aid of computational tools. Accordingly, molecular modeling simulations were carried out on both hMAO-A and hMAO-B for the selected constituents. The theoretically predicted target recognition was then used to select the most promising compounds. Among the screened compounds, Bergamottin, a furocoumarin, showed selective hMAO-B inhibitory activity, fitting its active site well. Molecular dynamics simulations were used to deeply analyze the target recognition and to rationalize the selectivity preference. In agreement with the computational results, experimental studies confirmed both the hMAO inhibition properties of Bergamottin and its preference for the isoform B. [ABSTRACT FROM AUTHOR]

Published

2022

28. Selective inhibition of carbonic anhydrase IX and XII by coumarin and psoralen derivatives.

Author

Meleddu, Rita, Deplano, Serenella, Maccioni, Elias, Ortuso, Francesco, Cottiglia, Filippo, Secci, Daniela, Onali, Alessia, Sanna, Erica, Angeli, Andrea, Angius, Rossella, Alcaro, Stefano, Supuran, Claudiu T., and Distinto, Simona

Subjects

CARBONIC anhydrase, COUMARIN derivatives, COUMARINS, PSORALENS, ISOENZYMES

Abstract

A small library of coumarin and their psoralen analogues EMAC10157a-b-d-g and EMAC10160a-b-d-g has been designed and synthesised to investigate the effect of structural modifications on their inhibition ability and selectivity profile towards carbonic anhydrase isoforms I, II, IX, and XII. None of the new compounds exhibited activity towards hCA I and II isozymes. Conversely, both coumarin and psoralen derivatives were active against tumour associated isoforms IX and XII in the low micromolar or nanomolar range of concentration. These data further corroborate our previous findings on analogous derivatives, confirming that both coumarins and psoralens are interesting scaffolds for the design of isozyme selective hCA inhibitors. [ABSTRACT FROM AUTHOR]

Published

2021

29. Key genetic elements, single and in clusters, underlying geographically dependent SARS-CoV-2 genetic adaptation and their impact on binding affinity for drugs and immune control.

Author

Salpini, Romina, Alkhatib, Mohammad, Costa, Giosuè, Piermatteo, Lorenzo, Ambrosio, Francesca Alessandra, Maio, Velia Chiara Di, Scutari, Rossana, Duca, Leonardo, Berno, Giulia, Fabeni, Lavinia, Alcaro, Stefano, Ceccherini-Silberstein, Francesca, Artese, Anna, Svicher, Valentina, and Di Maio, Velia Chiara

Subjects

SARS-CoV-2, TALL-1 (Protein), RNA replicase, DRUG control, VIRAL proteins

Abstract

Objectives: To define key genetic elements, single or in clusters, underlying SARS-CoV-2 (severe acute respiratory syndrome coronavirus-2) evolutionary diversification across continents, and their impact on drug-binding affinity and viral antigenicity.Methods: A total of 12 150 SARS-CoV-2 sequences (publicly available) from 69 countries were analysed. Mutational clusters were assessed by hierarchical clustering. Structure-based virtual screening (SBVS) was used to select the best inhibitors of 3-chymotrypsin-like protease (3CL-Pr) and RNA-dependent RNA polymerase (RdRp) among the FDA-approved drugs and to evaluate the impact of mutations on binding affinity of these drugs. The impact of mutations on epitope recognition was predicted following Grifoni et al. (Cell Host Microbe 2020.27: 671-80.).Results: Thirty-five key mutations were identified (prevalence: ≥0.5%), residing in different viral proteins. Sixteen out of 35 formed tight clusters involving multiple SARS-CoV-2 proteins, highlighting intergenic co-evolution. Some clusters (including D614GSpike + P323LRdRp + R203KN + G204RN) occurred in all continents, while others showed a geographically restricted circulation (T1198KPL-Pr + P13LN + A97VRdRp in Asia, L84SORF-8 + S197LN in Europe, Y541CHel + H504CHel + L84SORF-8 in America and Oceania). SBVS identified 20 best RdRp inhibitors and 21 best 3CL-Pr inhibitors belonging to different drug classes. Notably, mutations in RdRp or 3CL-Pr modulate, positively or negatively, the binding affinity of these drugs. Among them, P323LRdRp (prevalence: 61.9%) reduced the binding affinity of specific compounds including remdesivir while it increased the binding affinity of the purine analogues penciclovir and tenofovir, suggesting potential hypersusceptibility. Finally, specific mutations (including Y541CHel + H504CHel) strongly hampered recognition of Class I/II epitopes, while D614GSpike profoundly altered the structural stability of a recently identified B cell epitope target of neutralizing antibodies (amino acids 592-620).Conclusions: Key genetic elements reflect geographically dependent SARS-CoV-2 genetic adaptation, and may play a potential role in modulating drug susceptibility and hampering viral antigenicity. Thus, a close monitoring of SARS-CoV-2 mutational patterns is crucial to ensure the effectiveness of treatments and vaccines worldwide. [ABSTRACT FROM AUTHOR]

Published

2021

30. Non-coding RNAs in cancer: platforms and strategies for investigating the genomic "dark matter".

Author

Grillone, Katia, Riillo, Caterina, Scionti, Francesca, Rocca, Roberta, Tradigo, Giuseppe, Guzzi, Pietro Hiram, Alcaro, Stefano, Di Martino, Maria Teresa, Tagliaferri, Pierosandro, and Tassone, Pierfrancesco

Subjects

NON-coding RNA, DARK matter, NANOTECHNOLOGY, CANCER genetics, CANCER genes

Abstract

The discovery of the role of non-coding RNAs (ncRNAs) in the onset and progression of malignancies is a promising frontier of cancer genetics. It is clear that ncRNAs are candidates for therapeutic intervention, since they may act as biomarkers or key regulators of cancer gene network. Recently, profiling and sequencing of ncRNAs disclosed deep deregulation in human cancers mostly due to aberrant mechanisms of ncRNAs biogenesis, such as amplification, deletion, abnormal epigenetic or transcriptional regulation. Although dysregulated ncRNAs may promote hallmarks of cancer as oncogenes or antagonize them as tumor suppressors, the mechanisms behind these events remain to be clarified. The development of new bioinformatic tools as well as novel molecular technologies is a challenging opportunity to disclose the role of the "dark matter" of the genome. In this review, we focus on currently available platforms, computational analyses and experimental strategies to investigate ncRNAs in cancer. We highlight the differences among experimental approaches aimed to dissect miRNAs and lncRNAs, which are the most studied ncRNAs. These two classes indeed need different investigation taking into account their intrinsic characteristics, such as length, structures and also the interacting molecules. Finally, we discuss the relevance of ncRNAs in clinical practice by considering promises and challenges behind the bench to bedside translation. [ABSTRACT FROM AUTHOR]

Published

2020

31. Folding intermediate states of the parallel human telomeric G-quadruplex DNA explored using Well-Tempered Metadynamics.

Author

Rocca, Roberta, Palazzesi, Ferruccio, Amato, Jussara, Costa, Giosuè, Ortuso, Francesco, Pagano, Bruno, Randazzo, Antonio, Novellino, Ettore, Alcaro, Stefano, Moraca, Federica, and Artese, Anna

Abstract

An increasingly comprehension of the folding intermediate states of DNA G-quadruplexes (G4s) is currently an important scientific challenge, especially for the human telomeric (h-tel) G4s-forming sequences, characterized by a highly polymorphic nature. Despite the G-triplex conformation was proposed as one of the possible folding intermediates for the antiparallel and hybrid h-tel G4s, for the parallel h-tel topology with an all-anti guanine orientation, a vertical strand-slippage involving the G-triplets was proposed in previous works through microseconds-long standard molecular dynamics simulations (MDs). Here, in order to get further insights into the vertical strand-slippage and the folding intermediate states of the parallel h-tel G4s, we have carried out a Well-Tempered Metadynamics simulation (WT-MetaD), which allowed us to retrieve an ensemble of six G4s having two/G-tetrad conformations derived by the G-triplets vertical slippage. The insights highlighted in this work are aimed at rationalizing the mechanistic characterisation of the parallel h-tel G4 folding process. [ABSTRACT FROM AUTHOR]

Published

2020

32. Pyrazolones Activate the Proteasome by Gating Mechanisms and Protect Neuronal Cells from β‐Amyloid Toxicity.

Author

Santoro, Anna Maria, Lanza, Valeria, Bellia, Francesco, Sbardella, Diego, Tundo, Grazia R., Cannizzo, Alessandra, Grasso, Giuseppe, Arizzi, Mariaconcetta, Nicoletti, Vincenzo G., Alcaro, Stefano, Costa, Giosuè, Pietropaolo, Adriana, Malgieri, Gaetano, D'Abrosca, Gianluca, Fattorusso, Roberto, García‐Viñuales, Sara, Ahmed, Ikhlas M. M., Coletta, Massimiliano, and Milardi, Danilo

Published

2020

33. Benzo[b]tiophen-3-ol derivatives as effective inhibitors of human monoamine oxidase: design, synthesis, and biological activity.

Author

Guglielmi, Paolo, Secci, Daniela, Petzer, Anél, Bagetta, Donatella, Chimenti, Paola, Rotondi, Giulia, Ferrante, Claudio, Recinella, Lucia, Leone, Sheila, Alcaro, Stefano, Zengin, Gokhan, Petzer, Jacobus P., Ortuso, Francesco, and Carradori, Simone

Subjects

MONOAMINE oxidase inhibitors, MONOAMINE oxidase, MOLECULAR docking, LACTATE dehydrogenase, SYNAPTOSOMES

Abstract

A series of benzo[b]thiophen-3-ols were synthesised and investigated as potential human monoamine oxidase (hMAO) inhibitors in vitro as well as ex vivo in rat cortex synaptosomes by means of evaluation of 3,4-dihydroxyphenylacetic acid/dopamine (DOPAC/DA) ratio and lactate dehydrogenase (LDH) activity. Most of these compounds possessed high selectivity for the MAO-B isoform and a discrete antioxidant and chelating potential. Molecular docking studies of all the compounds underscored potential binding site interactions suitable for MAO inhibition activity, and suggested structural requirements to further improve the activity of this scaffold by chemical modification of the aryl substituents. Starting from this heterocyclic nucleus, novel lead compounds for the treatment of neurodegenerative disease could be developed. [ABSTRACT FROM AUTHOR]

Published

2019

34. Exploring new structural features of the 4-[(3-methyl-4-aryl-2,3-dihydro-1,3-thiazol-2-ylidene)amino]benzenesulphonamide scaffold for the inhibition of human carbonic anhydrases.

Author

Distinto, Simona, Meleddu, Rita, Ortuso, Francesco, Cottiglia, Filippo, Deplano, Serenella, Sequeira, Lisa, Melis, Claudia, Fois, Benedetta, Angeli, Andrea, Capasso, Clemente, Angius, Rossella, Alcaro, Stefano, Supuran, Claudiu T., and Maccioni, Elias

Subjects

CARBONIC anhydrase, CARBONIC anhydrase inhibitors, CHEMICAL inhibitors

Abstract

A library of 4-[(3-methyl-4-aryl-2,3-dihydro-1,3-thiazol-2-ylidene)amino]benzene-1-sulphonamides (EMAC8002a–m) was designed and synthesised to evaluate the effect of substituents in the positions 3 and 4 of the dihydrothiazole ring on the inhibitory potency and selectivity toward human carbonic anhydrase isoforms I, II, IX, and XII. Most of the new compounds preferentially inhibit the isoforms II and XII. Both electronic and steric features on the aryl substituent in the position 4 of the dihydrothiazole ring concur to determine the overall biological activity of these new derivatives. [ABSTRACT FROM AUTHOR]

Published

2019

35. 4-(3-Nitrophenyl)thiazol-2-ylhydrazone derivatives as antioxidants and selective hMAO-B inhibitors: synthesis, biological activity and computational analysis.

Author

Secci, Daniela, Carradori, Simone, Petzer, Anél, Guglielmi, Paolo, D'Ascenzio, Melissa, Chimenti, Paola, Bagetta, Donatella, Alcaro, Stefano, Zengin, Gokhan, Petzer, Jacobus P., and Ortuso, Francesco

Subjects

MONOAMINE oxidase, GROUP 15 elements, STRUCTURE-activity relationships, MOLECULAR models, ANTIOXIDANTS

Abstract

A new series of 4-(3-nitrophenyl)thiazol-2-ylhydrazone derivatives were designed, synthesised, and evaluated to assess their inhibitory effect on the human monoamine oxidase (hMAO) A and B isoforms. Different (un)substituted (hetero)aromatic substituents were linked to N1 of the hydrazone in order to establish robust structure–activity relationships. The results of the biological testing demonstrated that the presence of the hydrazothiazole nucleus bearing at C4 a phenyl ring functionalised at the meta position with a nitro group represents an important pharmacophoric feature to obtain selective and reversible human MAO-B inhibition for the treatment of neurodegenerative disorders. In addition, the most potent and selective MAO-B inhibitors were evaluated in silico as potential cholinesterase (AChE/BuChE) inhibitors and in vitro for antioxidant activities. The results obtained from molecular modelling studies provided insight into the multiple interactions and structural requirements for the reported MAO inhibitory properties. [ABSTRACT FROM AUTHOR]

Published

2019

36. ABCC Transporters Mediate the Vacuolar Accumulation of Crocins in Saffron Stigmas.

Author

Demurtas, Olivia Costantina, Francisco, Rita de Brito, Diretto, Gianfranco, Ferrante, Paola, Frusciante, Sarah, Pietrella, Marco, Aprea, Giuseppe, Borghi, Lorenzo, Feeney, Mistianne, Frigerio, Lorenzo, Coricello, Adriana, Costa, Giosuè, Alcaro, Stefano, 1, Enrico Martinoia, and 1, Giovanni Giuliano

Published

2019

37. Synthesis, Monoamine Oxidase Inhibition and Computational Analysis of Diversely Substituted N‐Propargylated‐1,3,5‐triazines.

Author

Chioua, Mourad, González‐Camuñas, Arturo, Catarozzo, María T., Alcaro, Stefano, Ortuso, Francesco, Yáñez, Matilde, and Marco‐Contelles, José

Subjects

MONOAMINE oxidase, TRIAZINES, CHEMICAL inhibitors, TRIAZINE derivatives

Abstract

In this work six diversely substituted N‐propargylated‐1,3,5‐triazines have been designed, synthesized, and evaluated as monoamine oxidase (MAO) inhibitors. Very surprisingly, only 4,6‐dichloro‐N‐(prop‐2‐yn‐1‐yl)‐1,3,5‐triazin‐2‐amine (1) showed modest, but selective MAO−B inhibition (IC50=14.2 ± 0.7 μM), whose binding affinity has been investigated by computational analysis [ABSTRACT FROM AUTHOR]

Published

2019

38. New resistance mutations to nucleoside reverse transcriptase inhibitors at codon 184 of HIV‐1 reverse transcriptase (M184L and M184T).

Author

Pouga, Lydia, Wirden, Marc, Calvez, Vincent, Marcelin, Anne‐Geneviève, Lambert‐Niclot, Sidonie, Santoro, Maria Mercedes, Di Carlo, Domenico, Ceccherini‐Silberstein, Francesca, Charpentier, Charlotte, Descamps, Diane, Romeo, Isabella, Artese, Anna, Alcaro, Stefano, Ambrosio, Francesca Alessandra, Antinori, Andrea, and Perno, Carlo Federico

Subjects

NUCLEOSIDE reverse transcriptase inhibitors, GENETIC mutation, GENETIC code, LAMIVUDINE, EMTRICITABINE, DRUG resistance

Abstract

Mutations at HIV‐1 reverse transcriptase (RT) codon 184 such as M184V confer resistance to two nucleos(t)ide RT inhibitors (NRTI), lamivudine (3TC) and emtricitabine (FTC). The prevalence of mutations at HIV‐1 RT codon 184 was evaluated using three independent RT sequence databases from treatment‐experienced (TE) and treatment‐naïve (TN) individuals. Data were collected retrospectively from three centers: one in Italy and two in France between 1997 and 2016. In order to highlight the role of these mutations in conferring drug resistance, structural and thermodynamic analyses were conducted by means of computational approaches. Among 32,440 RT sequences isolated from TE and 12,365 isolated from TN patients, the prevalence of HIV‐1 RT codon 184 substitutions in each group was 31.21% and 0.72%, respectively. The mutations M184L and M184T have been observed only in TE patients. In all cases but four, M184L and M184T mutations were present during NRTI treatment. Molecular recognition studies on M184L and M184T structures showed both FTC and 3TC thermodynamic profiles unfavorable in comparison with the wild‐type sequence, corroborated by molecular dynamic simulations (MDS). In this study, we highlighted two new resistance mutations in vivo for NRTI resistance. The low frequency of this pathway can be related to high impairment of replicative capacity mediated by these mutations. The HIV‐1 reverse transcriptase mutation M184V confers resistance to nucleos(t)ide RT inhibitors (NRTI), lamivudine, and emtricitabine. Using independent RT sequence databases, we found two new mutations: M184L (0.15%) and M184T (0.11%). In almost all cases, these mutations were present during NRTI treatment. Docking simulations with M184L and M184T showed lamivudine and emtricitabine thermodynamic profiles unfavorable in comparison with the wild‐type sequence. The low frequency of these mutations can be related to high impairment of replicative capacity mediated by these mutations. [ABSTRACT FROM AUTHOR]

Published

2019

39. TCL1A interacts with TP63 and enhances the survival of Raji Burkitt lymphoma cell line.

Author

Gaudio, Eugenio, Paduano, Francesco, Pinton, Sandra, D'Agostino, Sabrina, Rocca, Roberta, Costa, Giosuè, Ngankeu, Apollinaire, Aqeilan, Rami I., Croce, Carlo M., Bertoni, Francesco, Alcaro, Stefano, and Trapasso, Francesco

Subjects

T-cell lymphoma, TUMOR proteins, LYMPHOMAS, MASS spectrometry, LYMPHOMA treatment

Abstract

The article highlights the interaction of T-cell leukemia/lymphoma protein 1A (TCL1A) with Tumor protein p63 (TP63) gene and enhances the survival of Raji Burkitt lymphoma cell line. Topics discussed include overexpression of TCL1A protein causes leukaemias and lymphomas; isolation of TCL1A-interacting proteins by using mass spectrometry; and information on treatment of lymphomas using different techniques.

Published

2018

40. Indole and 2,4-Thiazolidinedione conjugates as potential anticancer modulators.

Author

Corigliano, Domenica M., Syed, Riyaz, Messineo, Sebastiano, Lupia, Antonio, Patel, Rahul, Reddy, Chittireddy Venkata Ramana, Dubey, Pramod K., Colica, Carmela, Amato, Rosario, De Sarro, Giovambattista, Alcaro, Stefano, Indrasena, Adisherla, and Brunetti, Antonio

Subjects

DRUG side effects, THERAPEUTICS, WESTERN immunoblotting, TYPE 2 diabetes, PROSTATE cancer

Abstract

Background. Thiazolidinediones (TZDs), also called glitazones, are five-membered carbon ring molecules commonly used for the management of insulin resistance and type 2 diabetes. Recently, many prospective studies have also documented the impact of these compounds as anti-proliferative agents, though several negative side effects such as hepatotoxicity, water retention and cardiac issues have been reported. In this work, we synthesized twenty-six new TZD analogues where the thiazolidinone moiety is directly connected to an N-heterocyclic ring in order to lower their toxic effects. Methods. By adopting a widely applicable synthetic method, twenty-sixTZDderivatives were synthesized and tested for their antiproliferative activity in MTT and Wound healing assays with PC3 (prostate cancer) and MCF-7 (breast cancer) cells. Results. Three compounds, out of twenty-six, significantly decreased cellular viability and migration, and these effects were even more pronounced when compared with rosiglitazone, a well-known member of the TZD class of antidiabetic agents. As revealed by Western blot analysis, part of this antiproliferative effect was supported by apoptosis studies evaluating BCL-xL and C-PARP protein expression. Conclusion. Our data highlight the promising potential of these TZD derivatives as anti-proliferative agents for the treatment of prostate and breast cancer. [ABSTRACT FROM AUTHOR]

Published

2018

41. Real‐life 3D therapy failure: Analysis of NS5A 93H RAS plus 108 K polymorphism in complex with ombitasvir by molecular modeling.

Author

Marascio, Nadia, Pavia, Grazia, Romeo, Isabella, Talarico, Carmine, Di Salvo, Sebastiano, Reale, Mariaconcetta, Marano, Vito, Barreca, Giorgio Settimo, Fabiani, Fernanda, Perrotti, Nicola, De Siena, Massimo, Giancotti, Francesca, Gravina, Tiziana, Alcaro, Stefano, Artese, Anna, Torti, Carlo, Liberto, Maria Carla, and Focà, Alfredo

Abstract

We report a real‐life 3D therapy failure in a patient treated with ombitasvir (OMV)/paritaprevir/ritonavir and dasabuvir without ribavirin (3D‐R). He had therapy failure at week 12 after the end of treatment. We detected resistance‐associated substitutions (RASs) plus polymorphisms on NS3, NS5A, and NS5B target regions by population sequencing (15% cut‐off) at baseline, at relapse and during follow‐up. About this, NS5A RASs generally persist longer than resistances in the other target genes and may impact treatment outcome. Therefore, to evaluate OMV drug‐resistance mechanism, we studied the acquired RAS plus polymorphisms on NS5A phosphoprotein by computational studies. OMV showed a higher affinity towards baseline and 93H/108 K mutant structure (follow‐up) with respect to 93H/R108 mutant structure (relapse) on phosphoprotein. By Molecular Dynamics simulations (MDs), structural information about the protein stability in presence of OMV were observed. According to our data, molecular modeling approach has proved to be a powerful method to evaluate the impact of these RASs plus specific amino acid (AA) changes on phosphoprotein. [ABSTRACT FROM AUTHOR]

Published

2018

42. Structural Modeling of New Polymorphism Clusters of HCV Polymerase Isolated from Direct‐Acting Antiviral Naïve Patients: Focus on Dasabuvir and Setrobuvir Binding Affinity.

Author

Romeo, Isabella, Marascio, Nadia, Pavia, Grazia, Talarico, Carmine, Costa, Giosuè, Alcaro, Stefano, Artese, Anna, Torti, Carlo, Liberto, Maria Carla, and Focà, Alfredo

Subjects

HEPATITIS C, POLYMERASES, GENETIC polymorphisms

Abstract

Management of Hepatitis C virus infection changed after the development of direct‐acting antiviral agents, including NS5B polymerase inhibitors. However, the presence of non‐synonymous substitutions could lead to therapy failure. Herein, we analyzed novel polymorphism clusters in NS5B polymerase from Hepatitis C virus (HCV) subtype 1b isolates of direct‐acting antivirals (DAAs) naïve patients by Sanger population sequencing. By means of computational approaches, we investigated the impact of these polymorphisms on the apo‐polymerase stability and on the binding affinity of dasabuvir and setrobuvir. Our thermodynamic and structural analysis highlighted that some mutational patterns could enhance or reduce the drug's affinity if compared to the wild‐type complexes and allowed us to well characterize the binding mode of the known drugs into the NS5B binding pocket. Our computational findings agreed with dasabuvir and setrobuvir in vitro reduced binding affinities against C316N mutant and could be useful in guiding the therapeutic approaches in presence of specific natural polymorphisms on HCV polymerase. 3D representation of the superposed structures of WT (blue cartoon) and C316N (red cartoon) NS5B models obtained from Molecular Dynamics simulations. By comparing the wild‐type and the mutated proteins, structural differences around the residue 316 became more clear in both forms. The morphological information, supported by chemical and steric differences, allows us to better comprehend the enzymatic adaptation which is translating in diverse drug activities. The enzyme is reported as grey carbon surface. [ABSTRACT FROM AUTHOR]

Published

2018

43. Pathway involving the N155H mutation in HIV-1 integrase leads to dolutegravir resistance.

Author

Malet, Isabelle, Ambrosio, Francesca A., Subra, Frédéric, Herrmann, Béatrice, Leh, Hervé, Bouger, Marie-Christine, Artese, Anna, Katlama, Christine, Talarico, Carmine, Romeo, Isabella, Alcaro, Stefano, Costa, Giosuè, Deprez, Eric, Calvez, Vincent, Marcelin, Anne-Geneviève, and Delelis, Olivier

Subjects

DRUG resistance in bacteria, INTEGRASES, CANCER treatment, ANTINEOPLASTIC agents, PROTEINS

Abstract

Background: Dolutegravir, an integrase strand-transfer inhibitor (STI), shows a high genetic barrier to resistance. Dolutegravir is reported to be effective against viruses resistant to raltegravir and elvitegravir. In this study, we report the case of a patient treated with dolutegravir monotherapy. Failure of dolutegravir treatment was observed concomitant with the appearance of N155H-K211R-E212T mutations in the integrase (IN) gene in addition to the polymorphic K156N mutation that was present at baseline in this patient.Methods: The impact of N155H-K156N-K211R-E212T mutations was studied in cell-free, culture-based assays and by molecular modelling.Results: Cell-free and culture-based assays confirm that selected mutations in the patient, in the context of the polymorphic mutation K156N present at the baseline, lead to high resistance to dolutegravir requiring that the analysis be done at timepoints longer than usual to properly reveal the results. Interestingly, the association of only N155H and K156N is sufficient for significant resistance to dolutegravir. Modelling studies showed that dolutegravir is less stable in IN/DNA complexes with respect to the WT sequence.Conclusions: Our results indicate that the stability of STI IN/DNA complexes is an important parameter that must be taken into account when evaluating dolutegravir resistance. This study confirms that a pathway including N155H can be selected in patients treated with dolutegravir with the help of the polymorphic K156N that acts as a secondary mutation that enhances the resistance to dolutegravir. [ABSTRACT FROM AUTHOR]

Published

2018

44. Design and Development of Biomimetic Nanovesicles Using a Microfluidic Approach.

Author

Molinaro, Roberto, Evangelopoulos, Michael, Hoffman, Jessica R., Corbo, Claudia, Taraballi, Francesca, Martinez, Jonathan O., Hartman, Kelly A., Cosco, Donato, Costa, Giosue', Romeo, Isabella, Sherman, Michael, Paolino, Donatella, Alcaro, Stefano, and Tasciotti, Ennio

Published

2018

45. G-quadruplex Structure Prediction and integration in the GenData2020 data model.

Author

Tradigo, Giuseppe, Cristiano, Francesca, Alcaro, Stefano, Greco, Sergio, Pollastri, Gianluca, Veltri, Pierangelo, and Prosperi, Mattia

Published

2016

46. Molecular recognition of a carboxy pyridostatin toward G-quadruplex structures: Why does it prefer RNA?

Author

Rocca, Roberta, Talarico, Carmine, Moraca, Federica, Costa, Giosuè, Romeo, Isabella, Ortuso, Francesco, Alcaro, Stefano, and Artese, Anna

Subjects

QUADRUPLEX nucleic acids, RNA, DNA, MOLECULAR dynamics, MOLECULAR docking

Abstract

The pyridostatin ( PDS) represents the lead compound of a family of G-quadruplex (G4) stabilizing synthetic small molecules based on a N,N′-bis(quinolinyl)pyridine-2,6-dicarboxamide scaffold. Its mechanism of action involves the induction of telomere dysfunction by competing for binding with telomere-associated proteins, such as human POT1. Recently, through a template-directed 'in situ ' click chemistry approach, a PDS derivative, the carboxypyridostatin ( cPDS), was discovered. It has the peculiarity to exhibit high molecular specificity for RNA over DNA G4, while PDS is a good generic RNA and DNA G4-interacting small molecule. Structural data on the binding modes of these compounds are not available, and the selectivity mode of cPDS toward TERRA G4 is unknown too. Therefore, this work is aimed at rationalizing the selectivity of cPDS versus TERRA G4 by means of molecular dynamics and docking simulations, coupled to better understand the binding mode of these compounds to telomeric G4 structures. The comprehensive analysis of cPDS binding mode and its conformational behavior demonstrates the importance of the ligand conformation properties coupled with a remarkable solvation contribution. This work is expected to provide valuable clues for further rational design of novel and selective TERRA G4 binders. [ABSTRACT FROM AUTHOR]

Published

2017

47. Chemoinformatic Database Building and in Silico Hit-Identification of Potential Multi-Targeting Bioactive Compounds Extracted from Mushroom Species.

Author

Maruca, Annalisa, Moraca, Federica, Rocca, Roberta, Molisani, Fulvia, Alcaro, Francesca, Gidaro, Maria Concetta, Alcaro, Stefano, Costa, Giosuè, and Ortuso, Francesco

Subjects

MUSHROOMS, BIOACTIVE compounds, ANTI-infective agents, HYPOGLYCEMIC agents, EXTRACTION (Chemistry)

Abstract

Mushrooms are widely-consumed fungi which contain natural compounds that can be used both for their nutritive and medicinal properties, i.e., taking advantage of their antimicrobial, antiviral, antitumor, anti-allergic, immunomodulation, anti-inflammatory, anti-atherogenic, hypoglycemic, hepatoprotective and antioxidant effects. Currently, scientific interest in natural compounds extracted from the fungal species is increasing because these compounds are also known to have pharmacological/biological activity. Unfortunately, however, their mechanisms of action are often unknown, not well understood or have not been investigated in their entirety. Given the poly-pharmacological properties of bioactive fungal compounds, it was decided to carry out a multi-targeted approach to predict possible interactions occurring among bioactive natural fungal extracts and several macromolecular targets that are therapeutically interesting, i.e., proteins, enzymes and nucleic acids. A chemical database of compounds extracted from both edible and no-edible mushrooms was created. This database was virtually screened against 43 macromolecular targets downloaded from the Protein Data Bank website. The aim of this work is to provide a molecular description of the main interactions involving ligand/multi-target recognition in order to understand the polypharmacological profile of the most interesting fungal extracts and to suggest a design strategy of new multi-target agents. [ABSTRACT FROM AUTHOR]

Published

2017

48. Design, synthesis and antiviral evaluation of novel heteroarylcarbothioamide derivatives as dual inhibitors of HIV-1 reverse transcriptase-associated RNase H and RDDP functions.

Author

Corona, Angela, Onnis, Valentina, Deplano, Alessandro, Bianco, Giulia, Demurtas, Monica, Distinto, Simona, Yung-Chi Cheng, Alcaro, Stefano, Esposito, Francesca, and Tramontano, Enzo

Subjects

RIBONUCLEASE H, REVERSE transcriptase, HIV, DRUG resistance, ANTIVIRAL agents

Abstract

In the continuous effort to identify new HIV-1 inhibitors endowed with innovative mechanisms, the dual inhibition of different viral functions would provide a significant advantage against drug-resistant variants. The HIV-1 reverse transcriptase (RT)-associated ribonuclease H (RNase H) is the only viral-encoded enzymatic activity that still lacks an efficient inhibitor. We synthesized a library of 3,5-diamino-N-aryl-1H-pyrazole-4-carbothioamide and 4-amino-5-benzoyl-N-phenyl-2-(substituted-amino)-1H-pyrrole-3-carbothioamide derivatives and tested them against RNase H activity. We identified the pyrazolecarbothioamide derivative A15, able to inhibit viral replication and both RNase H and RNA-dependent DNA polymerase (RDDP) RT-associated activities in the low micromolar range. Docking simulations hypothesized its binding to two RT pockets. Site-directed mutagenesis experiments showed that, with respect to wt RT, V108A substitution strongly reduced A15 IC50 values (12.6-fold for RNase H inhibition and 4.7-fold for RDDP), while substitution A502F caused a 9.0-fold increase in its IC50 value for RNase H, not affecting the RDDP inhibition, reinforcing the hypothesis of a dual-site inhibition. Moreover, A15 retained good inhibition potency against three non-nucleoside RT inhibitor (NNRTI)-resistant enzymes, confirming a mode of action unrelated to NNRTIs and suggesting its potential as a lead compound for development of new HIV-1 RT dual inhibitors active against drug-resistant viruses. [ABSTRACT FROM AUTHOR]

Published

2017

49. Ligand binding to telomeric G-quadruplex DNA investigated by funnel-metadynamics simulations.

Author

Moraca, Federica, Amato, Jussara, Ortuso, Francesco, Artese, Anna, Pagano, Bruno, Novellino, Ettore, Alcaro, Stefano, Parrinello, Michele, and Limongelli, Vittorio

Subjects

LIGAND binding (Biochemistry), QUADRUPLEX nucleic acids, DNA structure, BERBERINE, DEOXYRIBOSE

Abstract

G-quadruplexes (G4s) are higher-order DNA structures typically present at promoter regions of genes and telomeres. Here, the G4 formation decreases the replicative DNA at each cell cycle, finally leading to apoptosis. The ability to control thismitotic clock, particularly in cancer cells, is fascinating and passes through a rational understanding of the ligand/G4 interaction. We demonstrate that an accurate description of the ligand/G4 binding mechanism is possible using an innovative free-energy method called funnel-metadynamics (FM), which we have recently developed to investigate ligand/protein interaction. Using FM simulations, we have elucidated the binding mechanism of the anticancer alkaloid berberine to the human telomeric G4 (d[AG3(T2AG3)3]), computing also the binding free-energy landscape. Two ligand binding modes have been identified as the lowest energy states. Furthermore, we have found prebinding sites, which are preparatory to reach the final binding mode. In our simulations, the ions and the water molecules have been explicitly represented and the energetic contribution of the solvent during ligand binding evaluated. Our theoretical results provide an accurate estimate of the absolute ligand/DNA binding free energy (ΔG0b = -10.3 ± 0.5 kcal/mol) that we validated through steady-state fluorescence binding assays. The good agreement between the theoretical and experimental value demonstrates that FM is a most powerful method to investigate ligand/ DNA interaction and can be a useful tool for the rational design also of G4 ligands. [ABSTRACT FROM AUTHOR]

Published

2017

50. Through scaffold modification to 3,5-diaryl-4,5-dihydroisoxazoles: new potent and selective inhibitors of monoamine oxidase B.

Author

Meleddu, Rita, Distinto, Simona, Cirilli, Roberto, Alcaro, Stefano, Yanez, Matilde, Sanna, Maria Luisa, Corona, Angela, Melis, Claudia, Bianco, Giulia, Matyus, Peter, Cottiglia, Filippo, and Maccioni, Elias

Subjects

MONOAMINE oxidase inhibitors, IRON chelates, NEUROPROTECTIVE agents, SCAFFOLD proteins, ENANTIOMERS, SCAFFOLDING

Abstract

3,5-Diaryl-4,5-dihydroisoxazoles were synthesized and evaluated as monoamine oxidase (MAO) enzyme inhibitors and iron chelators. All compounds exhibited selective inhibitory activity towards the B isoform of MAO in the nanomolar concentration range. The best performing compound was preliminarily evaluated for its ability to bind iron II and III cations, indicating that neither iron II nor iron III is coordinated. The best compounds racemic mixtures were separated and single enantiomers inhibitory activity evaluated. Furthermore, none of the synthesised compounds exhibited activity towards MAO A. Overall, these data support our hypothesis that 3,5-diaryl-4,5-dihydroisoxazoles are promising scaffolds for the design of neuroprotective agents. [ABSTRACT FROM AUTHOR]

Published

2017