Your search keyword '"ANDREA MILELLI"' showing total 27 results

1. Targeted Protein Degradation for Infectious Diseases: from Basic Biology to Drug Discovery

Author

Rocío Marisol Espinoza-Chávez, Alessandra Salerno, Anastasia Liuzzi, Andrea Ilari, Andrea Milelli, Elisa Uliassi, Maria Laura Bolognesi, Rocío Marisol Espinoza Chávez, Salerno A., Liuzzi A., Ilari A., Milelli A., Uliassi E., and Bolognesi M.L.

Subjects

PROTAC, infectious disease, Drug Discovery, Pharmaceutical Science, anti-infective drug discovery, Targeted protein degradation, Molecular Biology, Biochemistry, ubiquitin proteasome system, pathogen

Abstract

Targeted protein degradation (TPD) is emerging as one of the most innovative strategies to tackle infectious diseases. Particularly, proteolysis-targeting chimera (PROTAC)-mediated protein degradation may offer several benefits over classical anti-infective small-molecule drugs. Because of their peculiar and catalytic mechanism of action, anti-infective PROTACs might be advantageous in terms of efficacy, toxicity, and selectivity. Importantly, PROTACs may also overcome the emergence of antimicrobial resistance. Furthermore, anti-infective PROTACs might have the potential to (i) modulate "undruggable"targets, (ii) "recycle"inhibitors from classical drug discovery approaches, and (iii) open new scenarios for combination therapies. Here, we try to address these points by discussing selected case studies of antiviral PROTACs and the first-in-class antibacterial PROTACs. Finally, we discuss how the field of PROTAC-mediated TPD might be exploited in parasitic diseases. Since no antiparasitic PROTAC has been reported yet, we also describe the parasite proteasome system. While in its infancy and with many challenges ahead, we hope that PROTAC-mediated protein degradation for infectious diseases may lead to the development of next-generation anti-infective drugs.

Published

2022

2. PROTAC-Induced Glycogen Synthase Kinase 3β Degradation as a Potential Therapeutic Strategy for Alzheimer’s Disease

Author

Melissa Guardigni, Letizia Pruccoli, Alan Santini, Angela De Simone, Matteo Bersani, Francesca Spyrakis, Flavia Frabetti, Elisa Uliassi, Vincenza Andrisano, Barbara Pagliarani, Paula Fernández-Gómez, Valle Palomo, Maria Laura Bolognesi, Andrea Tarozzi, and Andrea Milelli

Subjects

Physiology, Cognitive Neuroscience, Cell Biology, General Medicine, Biochemistry

Published

2023

3. Investigating in Vitro Amyloid Peptide 1–42 Aggregation: Impact of Higher Molecular Weight Stable Adducts

Author

Vincenza Andrisano, Lara Davani, Mark L. Dallas, Manuela Bartolini, Daniele Tedesco, Andrea Milelli, Angela De Simone, Marina Naldi, Darius Widera, De Simone A., Naldi M., Tedesco D., Milelli A., Bartolini M., Davani L., Widera D., Dallas M.L., and Andrisano V.

Subjects

chemistry.chemical_classification, Circular dichroism, drug discovery, CORM, amyloid beta, Alzheimer's disease, mass spectrometry, circular dichroism, fluorescence, biology, Amyloid, Drug discovery, Amyloid beta, General Chemical Engineering, Peptide, General Chemistry, Fibril, Article, In vitro, Adduct, lcsh:Chemistry, lcsh:QD1-999, chemistry, Biochemistry, biology.protein

Abstract

The self-assembly of amyloid peptides (A beta), in particular A beta(1-42), into oligomers and fibrils is one of the main pathological events related to Alzheimer's disease. Recent studies have demonstrated the ability of carbon monoxide-releasing molecules (CORMs) to protect neurons and astrocytes from A beta(1-42) toxicity. In fact, CORMs are able to carry and release controlled levels of CO and are known to exert a wide range of anti-inflammatory and anti-apoptotic activities at physiologically relevant concentrations. In order to investigate the direct effects of CORMs on A beta(1-42), we studied the reactivity of CORM-2 and CORM-3 with A beta(1-42) in vitro and the potential inhibition of its aggregation by mass spectrometry (MS), as well as fluorescence and circular dichroism spectroscopies. The application of an electrospray ionization-MS (ESI-MS) method allowed the detection of stable A beta(1-42)/CORMs adducts, involving the addition of the Ru(CO)(2) portion of CORMs at histidine residues on the A beta(1-42) skeleton. Moreover, CORMs showed anti-aggregating properties through formation of stable adducts with A beta(1-42) as demonstrated by a thioflavin T fluorescence assay and MS analysis. As further proof, comparison of the CD spectra of A beta(1-42) recorded in the absence and in the presence of CORM-3 at a 1: 1 molar ratio showed the ability of CORM-3 to stabilize the peptide in its soluble, unordered conformation, thereby preventing its misfolding and aggregation. This multi-methodological investigation revealed novel interactions between A beta(1-42) and CORMs, contributing new insights into the proposed neuroprotective mechanisms mediated by CORMs and disclosing a new strategy to divert amyloid aggregation and toxicity.

Published

2019

4. Histone Deacetylase Inhibitors as Multitarget Ligands: New Players in Alzheimer's Disease Drug Discovery?

Author

Andrea Milelli, Angela De Simone, De Simone Angela, and Milelli Andrea

Subjects

histonedeacetylase inhibitors, drug design, Tissue transglutaminase, Ligands, Biochemistry, Neuroprotection, Antioxidants, Histone Deacetylases, Alzheimer Disease, Alzheimer’s disease, drug design, histonedeacetylase inhibitors, multitarget ligands, neuroprotection, GSK-3, Drug Discovery, Gene expression, Humans, General Pharmacology, Toxicology and Pharmaceutics, Alzheimer’s disease, multitarget ligands, neuroprotection, Pharmacology, biology, Chemistry, Drug discovery, Organic Chemistry, Histone Deacetylase Inhibitors, Neuroprotective Agents, Histone, Acetylation, biology.protein, Cancer research, Molecular Medicine, Histone deacetylase

Abstract

Histone deacetylase inhibitors (HDACIs) are responsible for controlling gene expression by modulating the acetylation status of histone proteins. Furthermore, they modulate the activity of cytoplasmic non-histone proteins. Due to the involvement of HDACs in neurodevelopment, memory formation, and cognitive processes, HDACIs have been suggested as innovative agents for the treatment of neurodegenerative disorders such as Alzheimer's disease (AD). Given their mechanisms of action and the complex nature of AD, HDACIs have been proposed for the design of novel multitarget ligands (MTLs). To this aim, the fragment responsible for HDAC inhibition has been coupled with other structures that are able to provide additional biological actions, such as antioxidant activity or the inhibition of phosphodiesterase 5, transglutaminase 2, and glycogen synthase kinase 3β. Herein we discuss recent efforts to design HDACI-based MTLs as potential disease-modifying entities.

Published

2019

5. Discovery of the First-in-Class GSK-3β/HDAC Dual Inhibitor as Disease-Modifying Agent To Combat Alzheimer’s Disease

Author

Deborah Pietrobono, Nicola Petragnani, Vincenza Andrisano, Claudia Martini, Vincenzo Tumiatti, Nibal Betari, Serena Montanari, Simona Daniele, Lara Davani, Angela Nebbioso, Ettore Novellino, F. Frabetti, Barbara Monti, Pasquale Russomanno, Angela De Simone, Andrea Milelli, Federica Sarno, Lucia Altucci, Patrizia Ballerini, Raffaella Casadei, Valeria La Pietra, Mariarosaria Conte, Sabrina Petralla, De Simone, Angela, La Pietra, Valeria, Betari, Nibal, Petragnani, Nicola, Conte, Mariarosaria, Daniele, Simona, Pietrobono, Deborah, Martini, Claudia, Petralla, Sabrina, Casadei, Raffaella, Davani, Lara, Frabetti, Flavia, Russomanno, Pasquale, Novellino, Ettore, Montanari, Serena, Tumiatti, Vincenzo, Ballerini, Patrizia, Sarno, Federica, Nebbioso, Angela, Altucci, Lucia, Monti, Barbara, Andrisano, Vincenza, Milelli, Andrea, De Simone A, La Pietra V, Betari N, Petragnani N, Conte M, Daniele S, Pietrobono D, Martini C, Petralla S, Casadei R, Davani L, Frabetti F, Russomanno P, Novellino E, Montanari S, Tumiatti V, Ballerini P, Sarno F, Nebbioso A, Altucci L, Monti B, Andrisano V, Milelli A., De Simone, A., La Pietra, V., Betari, N., Petragnani, N., Conte, M., Daniele, S., Pietrobono, D., Martini, C., Petralla, S., Casadei, R., D'Avani, Paolo, Frabetti, F., Novellino, E., Montanari, S., Tumiatti, V., Ballerini, P., Sarno, F., Nebbioso, A., Altucci, L., Monti, B., Andrisano, ANGELA-MARIA, and Milelli, A.

Subjects

dual binding agents, Polypharmacology, epigenetics, dual binding agents, glycogen synthase kinase 3β, histone deacetylases, neuroprotection, Polypharmacology, Disease, 01 natural sciences, Biochemistry, Neuroprotection, GSK-3, Drug Discovery, Epigenetics, epigenetics, glycogen synthase kinase 3β, histone deacetylases, neuroprotection, biology, 010405 organic chemistry, Chemistry, Drug Discovery3003 Pharmaceutical Science, Organic Chemistry, Neurogenesis, 0104 chemical sciences, Cell biology, 010404 medicinal & biomolecular chemistry, Histone, Cell culture, Acetylation, dual binding agent, histone deacetylase, biology.protein, epigenetic

Abstract

[Image: see text] Several evidence pointed out the role of epigenetics in Alzheimer’s disease (AD) revealing strictly relationships between epigenetic and “classical” AD targets. Based on the reported connection among histone deacetylases (HDACs) and glycogen synthase kinase 3β (GSK-3β), herein we present the discovery and the biochemical characterization of the first-in-class hit compound able to exert promising anti-AD effects by modulating the targeted proteins in the low micromolar range of concentration. Compound 11 induces an increase in histone acetylation and a reduction of tau phosphorylation. It is nontoxic and protective against H(2)O(2) and 6-OHDA stimuli in SH-SY5Y and in CGN cell lines, respectively. Moreover, it promotes neurogenesis and displays immunomodulatory effects. Compound 11 shows no lethality in a wt-zebrafish model (

Published

2019

6. Novel Polyamine–Naphthalene Diimide Conjugates Targeting Histone Deacetylases and DNA for Cancer Phenotype Reprogramming

Author

Emanuele Giordano, Andrea Milelli, Anna Minarini, Marilisa Cortesi, Chiara Marchetti, Claudia Sissi, Alice Pasini, Alice, Pasini, Chiara, Marchetti, Claudia, Sissi, Marilisa, Cortesi, Emanuele, Giordano, Anna, Minarini, and Andrea, Milelli

Subjects

0301 basic medicine, epithelial-mesenchymal transition, epithelial−mesenchymal transition, Biochemistry, 03 medical and health sciences, Drug Discovery, Histone H2A, Cancer epigenetics, G-quadruplex, biology, Cell growth, Histone deacetylase 2, Organic Chemistry, histone deacetylase, Multiple ligands, Featured Letter, Cell biology, 030104 developmental biology, Histone, Cancer cell, biology.protein, Histone deacetylase, Multiple ligands, histone deacetylase, G-quadruplex, epithelial−mesenchymal transition, Reprogramming

Abstract

A series of hybrid compounds was designed to target histone deacetylases and ds-/G-quadruplex DNAs by merging structural features deriving from Scriptaid and compound 1. Compound 6 binds different DNA arrangements, inhibits HDACs both in vitro and in cells, and is able to induce a reduction of cell proliferation. Moreover, compound 6 displays cell phenotype-reprogramming properties since it prevents the epithelial to mesenchymal transition in cancer cells, inducing a less aggressive and migratory phenotype, which is one of the goals of present innovative strategies in cancer therapies.

Published

2017

7. Novel polyamine-based Histone deacetylases-Lysine demethylase 1 dual binding inhibitors

Author

Carmela Fimognari, Chiara Marchetti, Eleonora Turrini, Vincenzo Tumiatti, Daniela Tomaselli, Roberta Mazzone, Elena Catanzaro, Anna Minarini, Andrea Milelli, and Andrea Milelli, Chiara Marchetti, Eleonora Turrini, Elena Catanzaro, Roberta Mazzone, Daniela Tomaselli, Carmela FImognari, Vincenzo Tumiatti, Anna MInarini

Subjects

0301 basic medicine, animal structures, Cell Survival, Clinical Biochemistry, Pharmaceutical Science, Repressor, Dual-binding agents Epigenetics Histone deacetylase inhibitors Lysine demethylase inhibitors Polyamines, Antineoplastic Agents, Histone Deacetylase 1, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Structure-Activity Relationship, Drug Discovery, medicine, Polyamines, Gene silencing, Humans, Epigenetics, Molecular Biology, Vorinostat, Cell Proliferation, biology, epigenetics, Dose-Response Relationship, Drug, Molecular Structure, Chemistry, Organic Chemistry, lysine demethylase inhibitors, dual-binding agents, histone deacetylase inhibitors, polyamines, HDAC1, Histone Deacetylase Inhibitors, 030104 developmental biology, Histone, biology.protein, MCF-7 Cells, Molecular Medicine, Demethylase, Drug Screening Assays, Antitumor, Polyamine, medicine.drug

Abstract

Epigenetic modulators Histone deacetylases (HDACs) and Lysine demethylase (LSD1) are validated targets for anticancer therapy. Both HDAC1/2 and LSD1 are found in association with the repressor protein CoREST in a transcriptional co-repressor complex, which is responsible for gene silencing. Combined modulation of both targets results in a synergistic antiproliferative activity. In the present investigation, we report about the design and synthesis of a series of polyamine-based HDACs-LSD1 dual binding inhibitors obtained by coupling Vorinostat and Tranylcypromine. Compound 4 emerged as the most promising of the synthesized series, showing good inhibitory activity towards HDAC1 and LSD1 either in vitro and in cell-based assay (Ki = 42.52 ± 8.94 nM and IC50 = 3.85 μM, respectively). Furthermore, at 70.0 µM compound 4 induced a more pronounced cytotoxic effect than Vorinostat (68.6% vs 56.6% of dead cells) in MCF7 cancer cell line.

Published

2018

8. Correction to 'Discovery of the First-in-Class GSK-3β/HDAC Dual Inhibitor as Disease-Modifying Agent To Combat Alzheimer’s Disease'

Author

V. La Pietra, Barbara Monti, Andrea Milelli, Vincenzo Tumiatti, Lara Davani, Angela Nebbioso, Claudia Martini, Raffaella Casadei, Vincenza Andrisano, Serena Montanari, Pasquale Russomanno, Patrizia Ballerini, Simona Daniele, E. Novellino, F. Frabetti, Deborah Pietrobono, Sabrina Petralla, Nibal Betari, Nicola Petragnani, Maria R. Conte, Lucia Altucci, A. De Simone, and Federica Sarno

Subjects

Class (computer programming), business.industry, Organic Chemistry, Drug Discovery, Dual inhibitor, Medicine, Disease, Polypharmacology, Pharmacology, business, Biochemistry, Neuroprotection

Abstract

Several evidence pointed out the role of epigenetics in Alzheimer's disease (AD) revealing strictly relationships between epigenetic and "classical" AD targets. Based on the reported connection among histone deacetylases (HDACs) and glycogen synthase kinase 3β (GSK-3β), herein we present the discovery and the biochemical characterization of the first-in-class hit compound able to exert promising anti-AD effects by modulating the targeted proteins in the low micromolar range of concentration. Compound

Published

2019

9. Exploring the activity of polyamine analogues on polyamine and spermine oxidase: methoctramine, a potent and selective inhibitor of polyamine oxidase

Author

Alessia Leonetti, Filippo Basagni, Andrea Milelli, Manuela Cervelli, Paolo Mariottini, Fabio Polticelli, Anna Minarini, Michela Rosini, Maria Luisa Di Paolo, Rina Venerando, Enzo Agostinelli, Di Paolo, Maria Luisa, Cervelli, Manuela, Mariottini, Paolo, Leonetti, Alessia, Polticelli, Fabio, Rosini, Michela, Milelli, Andrea, Basagni, Filippo, Venerando, Rina, Agostinelli, Enzo, and Minarini, Anna

Subjects

Spermine oxidase, Spermine, docking studie, Diamines, 01 natural sciences, Dose-Response Relationship, chemistry.chemical_compound, Structure-Activity Relationship, Drug Discovery, inhibitors, Methoctramine, Polyamines, Humans, Enzyme Inhibitors, spermine oxidase, chemistry.chemical_classification, Pharmacology, Oxidoreductases Acting on CH-NH Group Donors, Dose-Response Relationship, Drug, Molecular Structure, 010405 organic chemistry, Drug Discovery3003 Pharmaceutical Science, lcsh:RM1-950, docking studies, General Medicine, Polyamine analogues, polyamine oxidase, 0104 chemical sciences, inhibitor, 010404 medicinal & biomolecular chemistry, lcsh:Therapeutics. Pharmacology, Enzyme, chemistry, Biochemistry, Drug, Polyamine, Polyamine oxidase, Polyamine analogue, Research Paper

Abstract

Fourteen polyamine analogues, asymmetric or symmetric substituted spermine (1–9) or methoctramine (10–14) analogues, were evaluated as potential inhibitors or substrates of two enzymes of the polyamine catabolic pathway, spermine oxidase (SMOX) and acetylpolyamine oxidase (PAOX). Compound 2 turned out to be the best substrate for PAOX, having the highest affinity and catalytic efficiency with respect to its physiological substrates. Methoctramine (10), a well-known muscarinic M2 receptor antagonist, emerged as the most potent competitive PAOX inhibitor known so far (Ki = 10 nM), endowed with very good selectivity compared with SMOX (Ki=1.2 μM vs SMOX). The efficacy of methoctramine in inhibiting PAOX activity was confirmed in the HT22 cell line. Methoctramine is a very promising tool in the design of drugs targeting the polyamine catabolism pathway, both to understand the physio-pathological role of PAOX vs SMOX and for pharmacological applications, being the polyamine pathway involved in various pathologies.

Published

2019

10. Benextramine and derivatives as novel human monoamine oxidases inhibitors: an integrated approach

Author

Andrea Milelli, Maria Luisa Di Paolo, Elirosa Minniti, Francesca Zonta, Michela Rosini, Anna Minarini, Giorgio Cozza, Stefania Sarno, Fulvio Ursini, Di Paolo, Maria Luisa, Cozza, Giorgio, Milelli, Andrea, Zonta, Francesca, Sarno, Stefania, Minniti, Elirosa, Ursini, Fulvio, Rosini, Michela, and Minarini, Anna

Subjects

0301 basic medicine, Monoamine Oxidase Inhibitors, Monoamine oxidase, Cystamine, docking studie, monoamine oxidases, polyamine analogues, Biochemistry, 03 medical and health sciences, Structure-Activity Relationship, 0302 clinical medicine, inhibitors, Humans, Molecular Biology, Monoamine Oxidase, chemistry.chemical_classification, Benextramine, docking studies, biology, Molecular Structure, Active site, Cell Biology, inhibitor, Enzyme Activation, 030104 developmental biology, Enzyme, Monoamine neurotransmitter, chemistry, Docking (molecular), 030220 oncology & carcinogenesis, biology.protein, Monoamine oxidase B, Monoamine oxidase A, Cysteine

Abstract

The two human monoamine oxidase isoforms (namely MAO A and MAO B) are enzymes involved in the catabolism of monoamines, including neurotransmitters, and for this reason are well-known and attractive pharmacological targets in neuropsychiatric and neurodegenerative diseases, for which novel pharmacological approaches are necessary. Benextramine is a tetraamine disulfide mainly known as irreversible alpha-adrenergic antagonist, but able to hit additional targets involved in neurodegeneration. As the molecular structures of monoamine oxidases contain nine cysteine residues, the aim of this study was to evaluate benextramine and eleven structurally related polyamine disulfides as potential MAO inhibitors. Most of the compounds were found to induce irreversible inactivation of MAOs with inactivation potency depending on both the polyamine structure and the enzyme isoform. The more effective compounds generally showed preference for MAO B. Structure-activity relationships studies revealed the key role played by the disulfide core of these molecules in the inactivation mechanism. Docking experiments pointed to Cys323, in MAO A, and Cys172, in MAO B, as target of this type of inhibitors thus suggesting that their covalent binding inside the MAO active site sterically impedes the entrance of substrate towards the FAD cofactor. The effectiveness of benextramine in inactivating MAOs was demonstrated in SH-SY5Y neuroblastoma cell line. These results demonstrated for the first time that benextramine and its derivatives can inactivate human MAOs exploiting a mechanism different from that of the classical MAO inhibitors and could be a starting point for the development of pharmacological tools in neurodegenerative diseases.

Published

2019

11. Deuterium Incorporation Protects Cells from Oxidative Damage

Author

Piero Sestili, Cinzia Calcabrini, Andrea Milelli, Valentina Arfilli, Marco Lucarini, Eleonora Turrini, Maurizio Brigotti, Domenica Carnicelli, Carmela Fimognari, Valeria Righi, Andrea Mazzanti, Sestili P., Brigotti M., Calcabrini C., Turrini E., Arfilli V., Carnicelli D., Lucarini M., Mazzanti A., Milelli A., Righi V., and Fimognari C.

Subjects

Glycation End Products, Advanced, 0301 basic medicine, Genome instability, life, Aging, Article Subject, Free Radicals, Cell Survival, Radical, Protein Carbonylation, Oxidative phosphorylation, Cleavage (embryo), 01 natural sciences, Biochemistry, Cell-free system, Jurkat Cells, 03 medical and health sciences, Oxidative damage, Humans, Molecule, lcsh:QH573-671, deuterium, Deuterium, life, cells, chemistry.chemical_classification, Cell-Free System, lcsh:Cytology, 010405 organic chemistry, Biomolecule, Proteins, Nucleosides, Cell Biology, General Medicine, Deuterium, 0104 chemical sciences, Oxidative Stress, 030104 developmental biology, chemistry, Biophysics, Research Article, DNA Damage

Abstract

In the cold environments of the interstellar medium, a variety of molecules in which a hydrogen (H) atom has been replaced by its heavier isotope deuterium (D) can be found. From its emergence, life had to counteract the toxic action of many agents, which posed a constant threat to its development and propagation. Oxygen-reactive species are archaic toxicants that lead to protein damage and genomic instability. Most of the oxidative lesions involve cleavage of C-H bonds and H abstraction. According to free radical chemistry principles, the substitution of D for H in oxidation-sensitive positions of cellular components should confer protection against the oxidative attack without compromising the chemical identity of the compounds. Here, we show that deuterated nucleosides and proteins protect from oxidative damage. Our data suggest a new, subtle but likely role of D in terrestrial life’s evolution in that its inclusion in critical biomolecules might have facilitated their resistance during the infinite generations of life entities, cells, and organisms.

Published

2019

12. Combined inhibition of the EGFR/AKT pathways by a novel conjugate of quinazoline with isothiocyanate

Author

Benedetta Nicolini, Alessio Lodola, Marco Mor, Nicole Ticchi, Andrea Milelli, Anna Minarini, Chiara Marchetti, Vincenzo Tumiatti, Elena Simoni, Andrea Tarozzi, Letizia Pruccoli, Massimo D’Amico, Tarozzi, A, Marchetti, C, Nicolini, B, D'Amico, M, Ticchi, N, Pruccoli, L, Tumiatti, V, Simoni, E, Lodola, A, Mor, M, Milelli, A, and Minarini, A.

Subjects

0301 basic medicine, Antineoplastic Agents, Apoptosis, Phosphatidylinositol 3-Kinases, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Isothiocyanates, Cell Line, Tumor, Drug Discovery, EGFR-TK inhibitors Multitarget agents Sulforaphane Isothiocyanate Akt phosphorylation, Quinazoline, Humans, Protein kinase B, PI3K/AKT/mTOR pathway, Cell Proliferation, Pharmacology, Organic Chemistry, General Medicine, ErbB Receptors, 030104 developmental biology, chemistry, Biochemistry, Cell culture, Sulfoxides, 030220 oncology & carcinogenesis, Isothiocyanate, Cancer cell, Quinazolines, Cancer research, Phosphorylation, Proto-Oncogene Proteins c-akt, Sulforaphane

Abstract

Epidermal growth factor receptor inhibitors (EGFR-TKIs) represent a class of compounds widely used in anticancer therapy. An increasing number of studies reports on combination therapies in which the block of the EGFR-TK activity is associated with inhibition of its downstream pathways, as PI3K-Akt. Sulforaphane targets the PI3K-Akt pathway whose dysregulation is implicated in many functions of cancer cells. According to these considerations, a series of multitarget molecules have been designed by combining key structural features derived from an EGFR-TKI, PD168393, and the isothiocyanate sulforaphane. Among the obtained molecules 1-6, compound 6 emerges as a promising lead compound able to exert antiproliferative and proapoptotic effects in A431 epithelial cancer cell line by covalently binding to EGFR-TK, and reducing the phosphorylation of Akt without affecting the total Akt levels.

Published

2016

13. In vitro and in vivo evaluation of polymethylene tetraamine derivatives as NMDA receptor channel blockers

Author

Ryotaro Saiki, Yuki Yoshizawa, Anna Minarini, Kazuei Igarashi, Keiko Kashiwagi, Andrea Milelli, Toshihiko Toida, Vincenzo Tumiatti, Chiara Marchetti, Ryotaro Saiki, Yuki Yoshizawa, Anna Minarini, Andrea Milelli, Chiara Marchetti, Vincenzo Tumiatti, Toshihiko Toida, Keiko Kashiwagi, and Kazuei Igarashi

Subjects

Clinical Biochemistry, Xenopus, NMDA receptor channel blocker, Pharmaceutical Science, Pharmacology, Receptors, N-Methyl-D-Aspartate, Biochemistry, Mice, Structure-Activity Relationship, chemistry.chemical_compound, Memantine, In vivo, Drug Discovery, Polyamines, medicine, Animals, Channel blocker, Molecular Biology, Dose-Response Relationship, Drug, Molecular Structure, biology, Chemistry, Organic Chemistry, Thrombosis, biology.organism_classification, Polymethylene tetraamine, In vitro, Disease Models, Animal, Drug Design, Molecular Medicine, NMDA receptor, Polymethylene teraamine derivative, Lead compound, medicine.drug

Abstract

The biological activities of six symmetrically substituted 2-methoxy-benzyl polymethylene tetraamines (1–4) and diphenylethyl polymethylene tetraamines (5 and 6) as N-methyl- d -aspartate (NMDA) receptor channel blockers, were evaluated in vitro and in vivo. Although all compounds exhibited stronger channel block activities in comparison to memantine in Xenopus oocytes voltage clamped at −70 mV, only compound 2 (0.4 mg/kg intravenous injection) decreased the size of brain infarction in a photochemically induced thrombosis model mice at the same extent of memantine (10 mg/kg intravenous injection). Other compounds (1, 3, 4, 5 and 6) did not decrease the size of brain infarction significantly due to the limited injection doses. The present study suggests that compound 2 could represent a valuable lead compound to design low toxicity polyamines for clinical use against stroke.

Published

2013

14. Tacrine-based Multifunctional Agents in Alzheimer's Disease: An Old Story in Continuous Development§

Author

Andrea Milelli, Vincenza Andrisano, Huan Huan Chen, Nicole Ticchi, Nibal Betari, Vincenzo Tumiatti, Angela De Simone, ARTEC - AREA RAPPORTI IMPRESE, TERZA MISSIONE E COMUNICAZIONE WEB, DIPARTIMENTO DI SCIENZE PER LA QUALITA' DELLA VITA, Facolta' di FARMACIA, AREA MIN. 03 - Scienze chimiche, Da definire, Milelli, Andrea, De Simone, Angela, Ticchi, Nicole, Chen, Huan Huan, Betari, Nibal, Andrisano, Vincenza, and Tumiatti, Vincenzo

Subjects

0301 basic medicine, tacrine, Disease, Pharmacology, Neurodegenerative disease, Ligands, 01 natural sciences, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Multi target, Alzheimer Disease, Alzheimer`s Disease, Neurodegenerative diseases, acethylcholinesterase inhibitors, dual binding acethylcholinesterase inhibitors, tacrine hybrids, Drug Discovery, medicine, Animals, Humans, Chelating Agents, dual binding acethylcholinesterase inhibitor, Amyloid beta-Peptides, 010405 organic chemistry, business.industry, Organic Chemistry, Acetylcholinesterase, 0104 chemical sciences, 030104 developmental biology, chemistry, Butyrylcholinesterase, Tacrine, Molecular Medicine, Cholinesterase Inhibitors, Reactive Oxygen Species, business, medicine.drug

Abstract

The design of multifunctional agents represents one of the most active research field in medicinal chemistry. In particular, tacrine, a well known Acetylcholinesterase inhibitor, is one of the most used starting point to develop multifunctional ligands and hundreds of papers report about these new agents. This is the third review of a series concerning tacrinebased multifunctional ligands; in particular, in the present, we will summarize and discuss the most intriguing examples of tacrine-based multifunctional agents published since 2013 until 2016.We analyzed the bibliographic databases for peer-reviewed publications concerning tacrine-based multifunctional agents possessing biological actions that go beyond the simple "cholinergic" blockage. These papers have been subdivided according to their biological activities. Since this is the third review of a series, we took into considerations only the papers appeared since 2013 until 2016.In this review, we have analyzed more than 33 papers. All the reported compounds retain good inhibitory activity towards acetyl- and butyryl-cholinesterase. The other biological activities concern mostly inhibition of a) β-amyloid aggregation, b) β-secretase, c) monoamino oxidases, modulation of τ and ROS and metal chelation.The analysis of the current literature reported in this review confirm the importance of tacrine as scaffold to develop multifunctional agents potentially usefull to contrast Alzheimer's disease. Furthermore, the compounds herein reported showed very intriguing biological activities that could be used as starting point to develop new compounds even more interesting and, hopefully, clinically usefull to contrast Alzheimer's Disease.

Published

2017

15. Application of an ESI-QTOF method for the detailed characterization of GSK-3β inhibitors

Author

Andrea Milelli, Vincenza Andrisano, Jessica Fiori, Marina Naldi, Angela De Simone, Vincenzo Tumiatti, Annalisa D’Urzo, De Simone, Angela, Fiori, Jessica, Naldi, Marina, D'Urzo, Annalisa, Tumiatti, Vincenzo, Milelli, Andrea, Andrisano, Vincenza, DIPARTIMENTO DI CHIMICA 'GIACOMO CIAMICIAN', DIPARTIMENTO DI FARMACIA E BIOTECNOLOGIE, DIPARTIMENTO DI SCIENZE PER LA QUALITA' DELLA VITA, Facolta' di FARMACIA, Da definire, and AREA MIN. 03 - Scienze chimiche

Subjects

0301 basic medicine, Spectrometry, Mass, Electrospray Ionization, Electrospray ionization, Clinical Biochemistry, Pharmaceutical Science, ESI-QTOF, GSK-3β inhibitors characterization, Analytical Chemistry, 03 medical and health sciences, GSK-3, Drug Discovery, medicine, Potency, Kinase activity, Phosphorylation, Glycogen synthase, Protein Kinase Inhibitors, Spectroscopy, Detection limit, Glycogen Synthase Kinase 3 beta, biology, Chemistry, Kinase, Drug Discovery3003 Pharmaceutical Science, Reproducibility of Results, GSK-3β kinase assay, GSM phosphorylation, 3003, Kinetics, 030104 developmental biology, Biochemistry, Mechanism of action, biology.protein, medicine.symptom

Abstract

none 7 no The crucial role of Glycogen Synthase Kinase 3 (GSK-3β) as a pivotal player in Alzheimer's Disease (AD) has recently inspired significant attempts to design and synthesize potent kinase inhibitors. In fact GSK-3β is considered the main kinase which catalyzes the microtubule-associated protein tau hyper-phosphorylation and the neurofibrillary tangles (NFT) in vitro and in vivo, The first classes of GSK-3β inhibitors were classified as ATP-competitive and, therefore, they lack of an efficient degree of selectivity over other kinases. In light of this consideration, many efforts are devoted to characterize new non ATP-competitive GSK-3β inhibitors, endowed with high selectivity. In parallel, there is an urgent need to develop new analytical methodologies for the hit selection (highthroughput screening) and ligand binding characterization in terms of potency, affinity and mechanism of action. The new methodology for GSK-3β enzymatic activity determination can be adopted as a realistic alternative to the currently used radioactive, luminescence and fluorescence detection methods, each showing limitations in terms of safety and interferences. Herein, we propose an alternative and selective electrospray ionization quadrupole time-of-flight (ESI-QTOF) method, based on the direct quantification of phosphorylated substrate muscle glycogen synthase GSM, a peptide resembling the high affinity sequence of natural substrate muscle glycogen synthase 1, for the detailed characterization of GSK-3β inhibitors. The method was validated in terms of accuracy and reproducibility of GSM signal intensity with a relative standard deviation RSD% value of 3.55%; Limit of Detection (LOD): 0.006μM; Lower Limit of Quantification (LLOQ): 0.02μM; linearity r 2 0.9951. The kinetic constants (K M and v max) of the GSK-3β catalyzed kinase reaction and the inhibitory potency of known ligands (IC50), were determined. All the obtained results were in agreement with those reported in literature or obtained in house by the standard reference luminometric approach. The proposed method was applied to the elucidation of well known inhibitors mechanism of action by the construction of a Lineweaver-Burk plot and the K i determination. Furthermore, the potency, affinity and mechanism of action of a new non ATP-competitive compound were established. We demonstrated the ESI-QTOF method to be more feasible than the classic kinase assays since it avoids drawbacks inherently connected with radioisotope labeling or the indirect detection of kinase activity, so far. It is also scalable to the screening of large library collections and suitable for pharmaceutical industries purposes. none De Simone, Angela; Fiori, Jessica; Naldi, Marina; D'Urzo, Annalisa; Tumiatti, Vincenzo; Milelli, Andrea; Andrisano, Vincenza De Simone, Angela; Fiori, Jessica; Naldi, Marina; D'Urzo, Annalisa; Tumiatti, Vincenzo; Milelli, Andrea; Andrisano, Vincenza

Published

2017

16. Hydroxy-substituted trans-cinnamoyl derivatives as multifunctional tools in the context of Alzheimer's disease

Author

Luca Valgimigli, Kim Y.P. Apperley, Huan Huan Chen, Ondrej Soukup, Jeffrey W. Keillor, Melissa Guardigni, Andrea Baschieri, Tereza Kobrlova, Manuela Bartolini, Andrea Milelli, Manuela Basso, Serena Montanari, Angela De Simone, Vincenza Andrisano, De Simone, Angela, Bartolini, Manuela, Baschieri, Andrea, Apperley, Kim Y.P., Chen, Huan Huan, Guardigni, Melissa, Montanari, Serena, Kobrlova, Tereza, Soukup, Ondrej, Valgimigli, Luca, Andrisano, Vincenza, Keillor, Jeffrey W., Basso, Manuela, Milelli, Andrea, DIPARTIMENTO DI CHIMICA 'GIACOMO CIAMICIAN', DIPARTIMENTO DI FARMACIA E BIOTECNOLOGIE, DIPARTIMENTO DI SCIENZE PER LA QUALITA' DELLA VITA, Da definire, and AREA MIN. 03 - Scienze chimiche

Subjects

0301 basic medicine, Amyloid beta, Context (language use), Alzheimer's disease, Aβ aggregation, Glycogen synthase kinase 3β, Multitarget agents, Oxidative stress, Alzheimer Disease, Animals, Cinnamates, Dose-Response Relationship, Drug, Free Radical Scavengers, Glycogen Synthase Kinase 3 beta, Molecular Structure, Stereoisomerism, Structure-Activity Relationship, medicine.disease_cause, 01 natural sciences, Neuroprotection, Dose-Response Relationship, 03 medical and health sciences, GSK-3, Drug Discovery, medicine, Alzheimer's disease, Multitarget Agent, Pharmacology, biology, Alzheimer's disease, Multitarget Agents, Oxidative Stress, 010405 organic chemistry, Chemistry, Organic Chemistry, Glutamate receptor, Neurotoxicity, Oxidative Stre, General Medicine, medicine.disease, 3. Good health, 0104 chemical sciences, Metabolic pathway, 030104 developmental biology, Multitarget Agents, Biochemistry, biology.protein, Drug

Abstract

none 14 si Alzheimer's disease (AD) is a multifactorial pathology that requires multifaceted agents able to address its peculiar nature. In recent years, a plethora of proteins and biochemical pathways has been proposed as possible targets to counteract neurotoxicity. Although the complex scenario is not completely elucidated, close relationships are emerging among some of these actors. In particular, increasing evidence has shown that aggregation of amyloid beta (Aβ), glycogen synthase kinase 3β (GSK-3β) and oxidative stress are strictly interconnected and their concomitant modulation may have a positive and synergic effect in contrasting AD-related impairments. We designed compound 3 which demonstrated the ability to inhibit both GSK-3β (IC50 = 24.36 ± 0.01 μM) and Aβ42 self-aggregation (IC50 = 9.0 ± 1.4 μM), to chelate copper (II) and to act as exceptionally strong radical scavenger (kinh = 6.8 ± 0.5 · 105 M−1s−1) even in phosphate buffer at pH 7.4 (kinh = 3.2 ± 0.5 · 105 M−1s−1). Importantly, compound 3 showed high-predicted blood-brain barrier permeability, did not exert any significant cytotoxic effects in immature cortical neurons up to 50 μM and showed neuroprotective properties at micromolar concentration against toxic insult induced by glutamate. De Simone, Angela; Bartolini, Manuela; Baschieri, Andrea; Apperley, Kim Y.P.; Chen, Huan Huan; Guardigni, Melissa; Montanari, Serena; Kobrlova, Tereza; Soukup, Ondrej; Valgimigli, Luca; Andrisano, Vincenza; Keillor, Jeffrey W.; Basso, Manuela; Milelli, Andrea De Simone, Angela; Bartolini, Manuela; Baschieri, Andrea; Apperley, Kim Y.P.; Chen, Huan Huan; Guardigni, Melissa; Montanari, Serena; Kobrlova, Tereza; Soukup, Ondrej; Valgimigli, Luca; Andrisano, Vincenza; Keillor, Jeffrey W.; Basso, Manuela; Milelli, Andrea

Published

2017

17. Oxidative Stress in Alzheimer’s Disease: Are We Connecting the Dots?

Author

Andrea Milelli, Elena Simoni, Anna Minarini, Carlo Melchiorre, and Michela Rosini

Subjects

Antioxidant, Biochemistry, medicine.medical_treatment, Drug Discovery, medicine, Molecular Medicine, Disease, Biology, medicine.disease_cause, Neuroscience, Oxidative stress

Abstract

Redox impairment is a prominent feature of Alzheimer’s disease (AD). It has led to the “oxidative stress hypothesis”, which proposes antioxidants as beneficial therapeutic tools in AD treatment. To date, a wide variety of antioxidants have been examined as neuroprotectants. However, success has been elusive in clinical trials. Several factors have contributed to this failure, including the complexity of the redox system in vivo. Potentially critical aspects include the fine-tuned equilibrium between antioxidant defenses and free radical production, the lack of specific antioxidant target(s), and the inherent difficulty in delivering antioxidants where they are needed. Herein, we highlight significant progress in the field. Future directions of antioxidant research are also presented.

Published

2013

18. Tacrine Derivatives and Alzheimers Disease

Author

Carlo Melchiorre, Andrea Milelli, Vincenzo Tumiatti, Michela Rosini, Anna Minarini, Maria Laura Bolognesi, Tumiatti V., Minarini A., Bolognesi M.L., Milelli A., Rosini M., and Melchiorre C.

Subjects

Models, Molecular, Disease, Pharmacology, Biochemistry, Structure-Activity Relationship, chemistry.chemical_compound, Alzheimer Disease, Biological profile, Drug Discovery, medicine, Humans, TACRINE HETERODIMERS, Amyloid beta-Peptides, DUAL BINDING ACETYLCHOLINESTERASE INHIBITORS, business.industry, Organic Chemistry, medicine.disease, Acetylcholinesterase, chemistry, Tacrine, MULTI-TARGET-DIRECTED LIGANDS (MTDLS), Molecular Medicine, Cholinesterase Inhibitors, Alzheimer's disease, NEURODEGENERATIVE DISEASES, business, medicine.drug

Abstract

To date, the pharmacotherapy of Alzheimer's disease (AD) has relied on acetylcholinesterase (AChE) inhibitors (AChEIs) and, more recently, an N-methyl-D-aspartate receptor (NMDAR) antagonist. AD is a multifactorial syndrome with several target proteins contributing to its etiology. “Multi-target-directed ligands” (MTDLs) have great potential for treating complex diseases such as AD because they can interact with multiple targets. The design of compounds that can hit more than one specific AD target thus represents an innovative strategy for AD treatment. Tacrine was the first AChEI introduced in therapy. Recent studies have demonstrated its ability to interact with different AD targets. Furthermore, numerous tacrine homo- and heterodimers have been developed with the aim of improving and enlarging its biological profile beyond its ability to act as an AChEI. Several tacrine hybrid derivatives have been designed and synthesized with the same goal. This review will focus on and summarize the last two years of research into the development of tacrine derivatives able to hit AD targets beyond simple AChE inhibition.

Published

2010

19. Organocatalytic Asymmetric Synthesis of α,α-Disubstituted α-Amino Acids and Derivatives

Author

Sara Kobbelgaard, Karl Anker Jørgensen, Silvia Cabrera, José Alemán, Efraim Reyes, Andrea Milelli, S. Cabrera, E. Reye, J. Alemán, A. Milelli, S. Kobbelgaard, and K.A. Jørgensen

Subjects

chemistry.chemical_classification, ORGANOCATALYSIS, alpha, Nucleophilic addition, Stereochemistry, asymmetric synthesi, Substituent, Enantioselective synthesis, Stereoisomerism, General Chemistry, Biochemistry, Aldehyde, Catalysis, Amino acid, Oxazolone, chemistry.chemical_compound, Colloid and Surface Chemistry, chemistry, alpha-disubstituted alpha-amino acids, Stereoselectivity

Abstract

It is shown that racemic oxazolones are excellent reagents for the synthesis of chiral quaternary amino acids and its derivatives by the diastereo- and enantioselective nucleophilic addition to alpha,beta-unsaturated aldehydes catalyzed by diarylprolinol silyl ethers. The scope of this new organocatalytic reaction is demonstrated for different oxazolones having aromatic and alkyl groups at the reactive carbon atom and different aromatic and aliphatic substituted alpha,beta-unsaturated aldehydes, for which the stereoselective reaction proceeds with good yield, moderate to good to very high diastereoselectivity, and very high enantioselectivity. The potential of the reaction is shown for the synthesis of optically active alpha,alpha-disubstituted alpha-amino acids, alpha-quaternary proline derivatives, amino alcohols, lactams, and tetrahydropyranes. Furthermore, we have calculated by DFT-methods the transition-state structures that account for both the diastereo- and enantioselectivity observed for the addition of oxazolones to the alpha,beta-unsaturated aldehydes. For one class of compounds, the stereoselectivity is controlled by a hydrogen-bonding interaction of the enolate-form of the oxazolone with an ortho-hydroxy-phenyl substituent of the alpha,beta-unsaturated aldehyde, whereas the benzhydryl-protecting group in the oxazolone determines the diastereo- and enantioselectivity in a more general manner for both aromatic and aliphatic alpha,beta-unsaturated aldehydes.

Published

2008

20. Structure–activity relationships of methoctramine-related polyamines as muscarinic antagonist: Effect of replacing the inner polymethylene chain with cyclic moieties

Author

Carlo Melchiorre, Anna Minarini, Gabriella Marucci, Cristina Bellucci, Vincenzo Tumiatti, Michela Rosini, Carla Ghelardini, Michela Buccioni, Andrea Milelli, V. Tumiatti, A. Minarini, A. Milelli, M. Rosini, M. Buccioni, G. Marucci, C. Ghelardini, C. Bellucci, and C. Melchiorre

Subjects

Male, Clinical Biochemistry, Drug Evaluation, Preclinical, Pharmaceutical Science, Photoaffinity Labels, Biochemistry, Mice, Radioligand Assay, chemistry.chemical_compound, Vas Deferens, Cricetinae, Parietal Lobe, Drug Discovery, Muscarinic acetylcholine receptor M5, Muscarinic acetylcholine receptor, Polyamines, Methoctramine, Receptor, Cerebral Cortex, Molecular Structure, biology, PAIN, Receptors, Muscarinic, METHOCTRAMINE, Enzyme inhibitor, Acetylcholinesterase, Molecular Medicine, Rabbits, Acetylcholine, medicine.drug, Stereochemistry, Guinea Pigs, CHO Cells, Muscarinic Antagonists, Diamines, Structure-Activity Relationship, Cricetulus, Ileum, medicine, Animals, Humans, Heart Atria, Muscle, Skeletal, Molecular Biology, Acetylcholine receptor, Organic Chemistry, Muscarinic antagonist, Rats, chemistry, Butyrylcholinesterase, Drug Design, biology.protein, Cholinesterase Inhibitors

Abstract

The aim of the present paper was to investigate the role of the octamethylene spacer of methoctramine ( 1 ) on the biological profile. Thus, this spacer was incorporated into a dianiline or dipiperidine moiety to determine whether flexibility and the basicity of the inner nitrogen atoms are important determinants of potency with respect to muscarinic receptors. The most potent compound was 4 , which displayed, in the functional assays, a comparable potency at muscarinic M 2 receptors with respect to 1 , and, in the binding assays, a loss of potency and selectivity toward muscarinic M 1 and M 3 receptor subtypes. Both compounds were endowed with antinociceptive activity. Furthermore, in microdialysis tests in rat parietal cortex, they enhanced acetylcholine release, most likely by antagonizing presynaptic muscarinic receptor subtypes.

Published

2007

21. Macrocyclic naphthalene diimides as G-quadruplex binders

Author

Stephan A. Ohnmacht, Riccardo Rigo, Federica Moraca, Stefano Alcaro, Stephen Neidle, Claudia Sissi, Chiara Marchetti, Lucia Parrotta, Vincenzo Tumiatti, Mekala Gunaratnam, Anna Minarini, Andrea Milelli, Marchetti, C., Minarini, A., Tumiatti, V., Moraca, F., Parrotta, L., Alcaro, S., Rigo, R., Sissi, C., Gunaratnam, M., Ohnmacht, S.A., Neidle, S., and Milelli, A.

Subjects

Molecular model, Stereochemistry, Cell Survival, Spermidine, Clinical Biochemistry, Static Electricity, Pharmaceutical Science, Antineoplastic Agents, Molecular Dynamics Simulation, Naphthalenes, G-quadruplex, Naphthalene diimide, Imides, Biochemistry, Cell Line, Docking, Molecular dynamics, chemistry.chemical_compound, Structure-Activity Relationship, c-KIT, Cell Line, Tumor, Drug Discovery, Molecule, Telomeric DNA, Humans, Molecular Biology, Tumor, Binding Sites, Chemistry, Drug Discovery3003 Pharmaceutical Science, Organic Chemistry, DNA, DNA, Neoplasm, G-Quadruplexes, Molecular Docking Simulation, Drug Design, Spermine, Molecular Medicine, 3003, Docking (molecular), Duplex (building), Neoplasm, Selectivity

Abstract

The synthesis, biological and molecular modeling evaluation of a series of macrocyclic naphthalene diimides is reported. The present investigation expands on the study of structure–activity relationships of prototype compound 2 by constraining the molecule into a macrocyclic structure with the aim of improving its G-quadruplex binding activity and selectivity. The new derivatives, compounds 4 – 7 carry spermidine- and spermine-like linkers while in compound 8 the inner basic nitrogen atoms of spermine have been replaced with oxygen atoms. The design strategy has led to potent compounds stabilizing both human telomeric (F21T) and c-KIT2 quadruplex sequences, and high selectivity for quadruplex in comparison to duplex DNA. Antiproliferative effects of the new derivatives 4 – 8 have been evaluated in a panel of cancer cell lines and all the tested compounds showed activity in the low micromolar or sub-micromolar range of concentrations. In order to rationalize the molecular basis of the DNA G-quadruplex versus duplex recognition preference, docking and molecular dynamics studies have been performed. The computational results support the observation that the main driving force in the recognition is due to electrostatic factors.

Published

2014

22. Exploiting RNA as a new biomolecular target for synthetic polyamines

Author

Andrea Milelli, Piero Sestili, Carmela Fimognari, Eleonora Turrini, Vincenzo Tumiatti, Monia Lenzi, Patrizia Hrelia, Lorenzo Ferruzzi, Michela Rosini, Anna Minarini, Cinzia Calcabrini, Minarini A., Milelli A., Tumiatti V., Rosini M., Lenzi M., Ferruzzi L., Turrini E., Hrelia P., Sestili P., Calcabrini C., and Fimognari C.

Subjects

Cell Survival, RNA Stability, Antineoplastic Agents, RNA integrity number, Biology, Diamines, Anticancer chemotherapy, chemistry.chemical_compound, Inhibitory Concentration 50, Jurkat Cells, Therapeutic index, Neoplasms, Genetics, Methoctramine, Polyamines, Humans, Synthetic polyamine, Molecular Targeted Therapy, RNA, Neoplasm, Nucleic acid structure, Dose-Response Relationship, Drug, RNA, Electrophoresis, Capillary, General Medicine, DNA, Neoplasm, Nucleic acids, Electropherogram, Biochemistry, chemistry, DNA damage, RNA and DNA damaging agents, Cancer cell, Nucleic Acid Conformation, Spermine, DNA

Abstract

Anticancer chemotherapy is strongly hampered by the low therapeutic index of most anticancer drugs and the development of chemoresistance. Therefore, there is a continued need for the identification of new molecular targets in order to selectively hit cancer cells. RNA has been recently validated as a cancer target by the use of different specific ligands and/or by different agents able to destroy its diverse forms. The ability of synthetic polyamines to interact and to alter the RNA structure has been already reported. In the present paper the interaction and the ability to damage RNA structure by several synthetic polyamines were evaluated and quantified by microfluid capillary electrophoresis. This technique allowed us to visualize both the RNA impairment through different electropherograms and to assess the RNA integrity number. Finally, the ability to discriminate between RNA and DNA by these synthetic polyamines was also evaluated.

Published

2012

23. Synthetic polyamines as potential amine oxidase inhibitors: a preliminary study

Author

Anna Minarini, Maurizio Pegoraro, Vincenzo Tumiatti, Maria Luisa Di Paolo, Valeria Rizzoli, Michele Lunelli, Bonaiuto Emanuela, Andrea Milelli, Bonaiuto E., Minarini A., Tumiatti V., Milelli A., Lunelli M., Pegoraro M., Rizzoli V., and Di Paolo ML.

Subjects

Spectrometry, Mass, Electrospray Ionization, Amine oxidase, Magnetic Resonance Spectroscopy, Stereochemistry, SEMICARBAZIDE, Clinical Biochemistry, monoamine oxidases, Biochemistry, Cofactor, SYNTHETIC POLYAMINES, chemistry.chemical_compound, inhibitors, Polyamines, Enzyme Inhibitors, Monoamine Oxidase, Protein secondary structure, chemistry.chemical_classification, biology, Chemistry, Circular Dichroism, Organic Chemistry, SEMICARBAZIDESENSITIVE AMINE OXIDASES, Active site, semicarbazide-sensitive amine oxidase, synthetic polyamines, structure-function studies, MONOAMINE OXIDASE B, Kinetics, Enzyme, AMINE OXIDASE INHIBITORS, biology.protein, Amine gas treating, Amine Oxidase (Copper-Containing), Monoamine oxidase B, Polyamine

Abstract

In the last few decades, medicinal chemists have carried out extensive research on synthetic polyamines for use as anticancer drugs and multitarget-directed ligands in neurodegenerative diseases. The aim of this study was to evaluate the effect of some synthetic polyamines as inhibitors of two new potential targets, human semicarbazide-sensitive amine oxidase/vascular adhesion protein-1 (SSAO/VAP-1) and monoamine oxidases B (MAO B), enzymes involved in various multi-factorial diseases such as Alzheimer's disease. N,N'-Dibenzyl-dodecane-1,12-diamine (Bis-Bza-Diado), a newly synthesised compound, and ELP 12, a muscarinic cholinergic M(2) receptor antagonist, were found to behave as reversible and mixed non-competitive inhibitors of both amine oxidases (dissociation constants of about 100 microM). ELP 12 was found to be more selective for SSAO/VAP-1. Combining kinetic and structural approaches, the binding mode of ELP 12 to SSAO/VAP-1 was investigated. ELP 12 may bind at the entrance of the active site channel by ionic interactions with ASP446 and/or ASP180; one end of the polyamine may be accommodated inside the channel, reaching the TPQ cofactor area. The binding of ELP 12 induces rearrangement of the secondary structure of the enzyme and impedes substrate entry and/or product release and catalysis. These structural data reveal that the entrance and the first part of the SSAO/VAP-1 channel may be considered as a new target area, or a "secondary binding site", for modulators of human SSAO/VAP-1 activity. These results indicate ELP 12 and Bis-Bza-Diado as new "skeletons" for the development of novel SSAO/VAP-1 and MAO B inhibitors.

Published

2012

24. Multitargeted drugs discovery: balancing anti-amyloid and anticholinesterase capacity in a single chemical entity

Author

Michela Rosini, Federica Lizzi, Maria Laura Bolognesi, Andrea Milelli, Carlo Melchiorre, Manuela Bartolini, Vincenza Andrisano, Anna Minarini, Patrizia Hrelia, Andrea Tarozzi, Fabiana Morroni, Bolognesi M.L., Bartolini M., Tarozzi A., Morroni F., Lizzi F., Milelli A., Minarini A., Rosini M., Hrelia P., Andrisano V., and Melchiorre C.

Subjects

Amyloid, Clinical Biochemistry, Pharmaceutical Science, Biochemistry, chemistry.chemical_compound, Inhibitory Concentration 50, Drug Delivery Systems, Alzheimer Disease, Alkanes, Drug Discovery, Ethylamines, Humans, Benzofuran, Enzyme Inhibitors, Molecular Biology, Cells, Cultured, Amyloid beta-Peptides, biology, Molecular Structure, Drug discovery, Organic Chemistry, Acetylcholinesterase, Benzothiazole, chemistry, Enzyme inhibitor, biology.protein, Curcumin, Molecular Medicine, Cholinesterase Inhibitors, NEURODEGENERATIVE DISEASES, Lead compound

Abstract

Memoquin (1) is a lead compound multitargeted against Alzheimer's disease (AD). It is an AChE inhibitor, free-radical scavenger, and inhibitor of amyloid-β (Aβ) aggregation. A new series of 1 derivatives was designed and synthesized by linking its 2,5-diamino-benzoquinone core with motifs that are present in the structure of known amyloid binding agents like curcumin, the benzofuran derivative SKF64346, or the benzothiazole bearing compounds KHG21834 and BTA-1. The weaker AChE inhibitory potencies and the concomitant nearly equipotent anti-amyloid activities of the new compounds with respect to 1 resulted in a more balanced biological profile against both targets. Selected compounds turned out to be effective Aβ aggregation inhibitors in a cell-based assay. By properly combining two or more distinct pharmacological properties in a molecule, we can achieve greater effectiveness compared to single-targeted drugs for investigating AD

Published

2010

25. Synthetic polyamines: an overview of their multiple biological activities

Author

Michela Rosini, Andrea Milelli, Vincenzo Tumiatti, Anna Minarini, Carlo Melchiorre, Maria Laura Bolognesi, Minarini A., Milelli A., Tumiatti V., Rosini M., Bolognesi M.L., and Melchiorre C.

Subjects

Stereochemistry, Clinical Biochemistry, MTDLS, Protonation, Biochemistry, chemistry.chemical_compound, MEMOQUIN, Neurotransmitter receptor, Muscarinic acetylcholine receptor, Methoctramine, Polyamines, Animals, Humans, Receptor, chemistry.chemical_classification, Molecular Structure, Chemistry, Organic Chemistry, Glutamate receptor, Enzymes, Receptors, Neurotransmitter, Kinetics, Enzyme, METHOCTRAMINE, UNIVERSAL TEMPLATE, Polyamine, Protein Binding

Abstract

The binding of polyamines to a variety of receptors and other defined recognition sites has been widely reported. It is well-known that polyamines interact with aspartate, glutamate, and aromatic residues of a given receptor and/or enzyme mainly through the formation of ion bonds, since at physiological pH, protonation of amino groups is nearly complete. From this, the hypothesis arises that a polyamine may be a universal template able to recognize different receptor systems. This hypothesis suggests that both affinity and selectivity may be fine-tuned by inserting appropriate substituents onto the amine functions and by varying the methylene chain lengths between them on the polyamine backbone. In this paper, we detail several application of this design strategy aimed at discovering potent and selective polyamines able to bind neurotransmitter receptors and enzymes, such as muscarinic receptor subtypes, muscle-type nicotinic receptors and acethylcholinesterase.

Published

2009

26. Cytotoxicity of methoctramine and methoctramine-related polyamines

Author

Andrea Milelli, Silvia Cetrullo, Maddalena Zini, Catherine L. Passariello, Carla Pignatti, Claudio Stefanelli, Davide Gottardi, Flavio Flamigni, Anna Minarini, Carlo Melchiorre, Vincenzo Tumiatti, Zini M., Passariello C.L., Gottardi D., Cetrullo S., Flamigni F., Pignatti C., Minarini A., Tumiatti V., Milelli A., Melchiorre C., and Stefanelli C.

Subjects

Cell Death, Blotting, Western, Spermine, General Medicine, Diamines, Toxicology, Ligand (biochemistry), Ornithine decarboxylase, Spermidine, chemistry.chemical_compound, Biochemistry, chemistry, Cell Line, Tumor, Polyamines, Methoctramine, Humans, Polyamine, Receptor, Cytotoxicity

Abstract

Methoctramine and its analogues are polymethylene tetramines that selectively bind to a variety of receptor sites. Although these compounds are widely used as pharmacological tools for receptor characterization, the toxicological properties of these polyamine-based structures are largely unknown. We have evaluated the cytotoxic effects of methoctramine and related symmetrical analogues differing in polymethylene chain length between the inner nitrogens against a panel of cell lines. Methoctramine caused cell death only at high micromolar concentrations, whereas its pharmacological action is exerted at nanomolar level. Increasing the spacing between the inner nitrogen atoms resulted in a significative increase in cytotoxicity. In particular, an elevated cytotoxicity is associated to a methylene chain length of 12 units dividing the inner amine functions (compound 5). H9c2 cardiomyoblasts were the most sensitive cells, followed by SH-SY5Y neuroblastoma, whereas HL60 leukaemia cells were much more resistant. Methoctramine and related compounds down-regulated ornithine decarboxylase, the first enzyme of polyamine biosynthesis even at non-toxic concentration. Further, methoctramine and compound 5 caused a limited up-regulation of spermine/spermidine N-acetyltransferase, suggesting that interference in polyamine metabolism is not a primary mechanism of toxicity. Methoctramine and its analogues bound to DNA with a higher affinity than spermine, but the correlation with their toxic effect was poor. The highly toxic compound 5 killed the cells in the absence of caspase activation and caused an increase in p53 expression and ERK1/2 phosphorylation. Compound 5 was directly oxidized by cell homogenates producing hydrogen peroxide and its toxic effect was partially subdued by the inhibition of its uptake, by the NMDA ligand MK-801, and by the antioxidant N-acetylcysteine, suggesting that compound 5 can act at different cellular levels and lead to oxidative stress.

Published

2009

27. Isothiocyanate synthetic analogs: biological activities, structure-activity relationships and synthetic strategies

Author

Vincenzo Tumiatti, Anna Minarini, Carmela Fimognari, Andrea Milelli, Nicole Ticchi, Paolo Neviani, Milelli A, Fimognari C, Ticchi N, Neviani P, Minarini A, and Tumiatti V

Subjects

natural product, Stereochemistry, sulforaphane, chemopreventive, chemistry.chemical_compound, Isothiocyanates, Neoplasms, Biological property, Vegetables, Drug Discovery, Animals, Anticarcinogenic Agents, Humans, Structure–activity relationship, Pharmacology, Biological Products, Natural product, Cruciferous vegetables, structure-activity relationship, General Medicine, chemistry, Biochemistry, Sulfoxides, Isothiocyanate, isothiocyanate, Sulforaphane

Abstract

Sulforaphane is a natural product that is constantly under biological investigation for its unique biological properties. This naturally occurring isothiocyanate (ITC) and its analogs are the main components of cruciferous vegetables, such as cauliflower, watercress, broccoli, cabbage, Brussels sprouts, widely used as chemopreventive agents. Due to their interesting biological profiles, natural ITCs have been exploited as starting point to develop new synthetic analogs. The present mini-review briefly highlights the most important biological actions of selected new synthetic ITCs focusing on their structure-activity relationships and related synthetic strategies.