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

Author

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

Published
2022
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8. Novel tricyclic pyrrolo-quinolines as pharmacological correctors of the mutant CFTR chloride channel

Author

Renda M., Barreca M., Borrelli A., Spano' V., Montalbano A., Raimondi M. V., Bivacqua R., Musante I., Scudieri P., Guidone D., Buccirossi M., Genovese M., Venturini A., Bandiera T., Barraja P., Galietta L. J. V., Renda M., Barreca M., Borrelli A., Spano' V., Montalbano A., Raimondi M.V., Bivacqua R., Musante I., Scudieri P., Guidone D., Buccirossi M., Genovese M., Venturini A., Bandiera T., Barraja P., and Galietta L.J.V.

Subjects
Multidisciplinary, pyrrolo‑quinolines, CFTR, Settore CHIM/08 - Chimica Farmaceutica, Cystic fibrosis
Abstract

F508del, the most frequent mutation in cystic fibrosis (CF), impairs the stability and folding of the CFTR chloride channel, thus resulting in intracellular retention and CFTR degradation. The F508del defect can be targeted with pharmacological correctors, such as VX-809 and VX-445, that stabilize CFTR and improve its trafficking to plasma membrane. Using a functional test to evaluate a panel of chemical compounds, we have identified tricyclic pyrrolo-quinolines as novel F508del correctors with high efficacy on primary airway epithelial cells from CF patients. The most effective compound, PP028, showed synergy when combined with VX-809 and VX-661 but not with VX-445. By testing the ability of correctors to stabilize CFTR fragments of different length, we found that VX-809 is effective on the amino-terminal portion of the protein that includes the first membrane-spanning domain (amino acids 1–387). Instead, PP028 and VX-445 only show a stabilizing effect when the second membrane-spanning domain is included (amino acids 1–1181). Our results indicate that tricyclic pyrrolo-quinolines are a novel class of CFTR correctors that, similarly to VX-445, interact with CFTR at a site different from that of VX-809. Tricyclic pirrolo-quinolines may represent novel CFTR correctors suitable for combinatorial pharmacological treatments to treat the basic defect in CF.

Published
2023
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9. Identification of pyrrolo[3',4':3,4]cyclohepta[1,2-d][1,2]oxazoles as promising new candidates for the treatment of lymphomas

Author

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

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

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

Published
2023

10. New tricyclic systems as photosensitizers towards triple negative breast cancer cells

Author

Marilia Barreca, Angela Maria Ingarra, Maria Valeria Raimondi, Virginia Spanò, Antonio Palumbo Piccionello, Michele De Franco, Luca Menilli, Valentina Gandin, Giorgia Miolo, Paola Barraja, Alessandra Montalbano, Barreca M., Ingarra A.M., Raimondi M.V., Spano' V., Palumbo Piccionello A., De Franco M., Menilli L., Gandin V., Miolo G., Barraja P., and Montalbano A.

Subjects
7]naphthyridinone, Photosensitizing Agents, Pyrrolo[1,2-h][1,7]naphthyridinone, Cell Death, MDA-MB-231, Organic Chemistry, Phototoxic activity, Triple Negative Breast Neoplasms, Apoptosis, Pyrido[2, 3-c]pyrrolo[1, 2-a]azepinone, Triple-negative breast cancer, Pyrrolo[1, Drug Discovery, Molecular Medicine, Humans, 2-h][1, Pyrido[2,3-c]pyrrolo[1,2-a]azepinone, Photosensitizing agents, Reactive Oxygen Species
Abstract

Nineteen pyrrolo[1,2-h][1,7]naphthyridinones and pyrido[2,3-c]pyrrolo[1,2-a]azepinones were synthesized as new tricyclic systems in which the pyridine ring is annelated to the 6,7-dihydroindolizin-8(5H)-one and 5,6,7,8-tetrahydro-9H-pyrrole[1,2-a]azepine-9-one moieties to obtain potential photosensitizing agents. They were tested for their photoantiproliferative activity on a triple-negative breast cancer cell line, MDA-MB-231, in the dark and under UVA light (2.0 J/cm2). We demonstrated that their toxicity, only when exposed to light, was primarily due to the generation of reactive oxygen species while their photodegradation products were not responsible for their activity. The most active compounds exhibited photocytotoxicity with IC50 values at low micromolar level inducing a decrease in the intracellular content of thiol, thus triggering cancer cell death through apoptosis. All the pyridone derivatives revealed to be pure photosensitizers with preferential photocytotoxic activity towards cancerous over healthy cells. Altogether, the results obtained confirm pyrrolo[1,2-h][1,7]naphthyridinones and pyrido[2,3-c]pyrrolo[1,2-a]azepinones as promising photosensitisers against triple-negative breast cancer.

Published
2022

11. Insight into non-nucleoside triazole-based systems as viral polymerases inhibitors

Author

Roberta Bivacqua, Marilia Barreca, Virginia Spanò, Maria Valeria Raimondi, Isabella Romeo, Stefano Alcaro, Graciela Andrei, Paola Barraja, Alessandra Montalbano, Bivacqua R., Barreca M., Spano' V., Raimondi M.V., Romeo I., Alcaro S., Andrei G., Barraja P., and Montalbano A.

Subjects
Pharmacology, Organic Chemistry, Drug Discovery, 1,2,3-Triazoles, Non-nucleosides antiviral agents, Viral polymerases, General Medicine, Antiviral therapy, 1,2,4-Triazoles
Abstract

Viruses have been recognized as the etiological agents responsible for many pathological conditions ranging from asymptomatic infections to serious diseases, even leading to death. For this reason, many efforts have been made to identify selective viral targets with the aim of developing efficient therapeutic strategies, devoid of drug-resistance issues. Considering their crucial role in the viral life cycle, polymerases are very attractive targets. Among the classes of compounds explored as viral polymerases inhibitors, here we present an overview of non-nucleoside triazole-based compounds identified in the last fifteen years. Furthermore, the structure-activity relationships (SAR) of the different chemical entities are described in order to highlight the key chemical features required for the development of effective antiviral agents.

Published
2023
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12. GPCR Inhibition in Treating Lymphoma

Author

Marilia Barreca, Virginia Spanò, Maria V. Raimondi, Roberta Bivacqua, Stefano Giuffrida, Alessandra Montalbano, Andrea Cavalli, Francesco Bertoni, Paola Barraja, Barreca M., Spano' V., Raimondi M.V., Bivacqua R., Giuffrida S., Montalbano A., Cavalli A., Bertoni F., and Barraja P.

Subjects
CXCR4, G protein-coupled receptors, DLBCL, Organic Chemistry, Drug Discovery, lymphoma, MCL, Biochemistry, GPCRs
Abstract

G protein-coupled receptors (GPCRs) are important classes of cell surface receptors involved in multiple physiological functions. Aberrant expression, upregulation, and mutation of GPCR signaling pathways are frequent in many types of cancers, promoting hyperproliferation, angiogenesis, and metastasis. Recent studies showed that alterations of GPCRs are involved in different lymphoma types. Herein, we review the synthetic strategies to obtain GPCR inhibitors, focusing on CXCR4 inhibitors which represent most of the GPCR inhibitors available in the market or under preclinical investigations for these diseases.

Published
2022

13. Synthesis of 2H-Imidazo[2',1':2,3] [1,3]thiazolo[4,5-e]isoindol-8-yl-phenylureas with promising therapeutic features for the treatment of acute myeloid leukemia (AML) with FLT3/ITD mutations

Author

Vincenzo Cilibrasi, Virginia Spanò, Roberta Bortolozzi, Marilia Barreca, Maria Valeria Raimondi, Roberta Rocca, Annalisa Maruca, Alessandra Montalbano, Stefano Alcaro, Roberto Ronca, Giampietro Viola, Paola Barraja, Cilibrasi V., Spano' V., Bortolozzi R., Barreca M., Raimondi M.V., Rocca R., Maruca A., Montalbano A., Alcaro S., Ronca R., Viola G., and Barraja P.

Subjects
Pharmacology, FMS-like tyrosine kinase 3 (FLT3), FLT3/ITD, 3][1, 3]thiazolo[4, Organic Chemistry, 2H-imidazo [2′,1':2,3][1,3]thiazolo[4,5-e]isoindol-8-yl-phenylureas, Acute myeloid leukemia (AML), Internal tandem duplication (ITD), Apoptosis, General Medicine, 2H-imidazo [2′, Leukemia, Myeloid, Acute, Mice, fms-Like Tyrosine Kinase 3, 5-e]isoindol-8-yl-phenylureas, Cell Line, Tumor, Drug Discovery, Mutation, Animals, Humans, Protein Kinase Inhibitors, 1':2
Abstract

Despite progressive advances in understanding the molecular biology of acute myeloid leukemia (AML), the conventional therapeutic approach has not changed substantially, and the outcome for most patients is poor. Thus, continuous efforts on the discovery of new compounds with improved features are required. Following a multistep sequence, we have identified a new tetracyclic ring system with strong antiproliferative activity towards several haematological cell lines. The new compounds possess structural properties typical of inactive-state-binding kinase inhibitors and are structurally related to quizartinib which is known as type-II tyrosine kinase inhibitor. In particular, the high activity found in two cell lines MOLM-13 and MV4-11, expressing the constitutively activated mutant FLT3/ITD, indicates inhibition of FLT3 kinase and on the basis of structure-activity relationship (SAR) the presence of an ureido moiety demonstrates to play a key role in driving the antiproliferative activity towards these cell lines. Molecular modelling studies supported the mechanism of recognition of the most active compounds within the FLT3 pocket where quizartinib binds. Moreover, Molecular Dynamics simulation (MDs) revealed the formation of a recurrent H-bond with Asp829, which more stabilizes the complex of 9c and the FLT3 inactive state. In MV4-11 cell line compound 9c reduces the phosphorylation of FLT3 (Y591) and some of its downstream targets leading to cell cycle arrest at G1 phase and induction of apoptosis. In an MV4-11 xenograft mouse model, 9c significantly reduces the tumor growth at the dose of 1–3 mg/kg without apparent toxicity.

Published
2022

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

Author

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

Subjects
Cancer Research, anti-tubulin, Oncology, lymphoma, [1,2]oxazole
Published
2022

15. Insight on pyrimido[5,4-g]indolizine and pyrimido[4,5-c]pyrrolo[1,2-a]azepine systems as promising photosensitizers on malignant cells

Author

Marilia Barreca, Angela Maria Ingarra, Maria Valeria Raimondi, Virginia Spanò, Michele De Franco, Luca Menilli, Valentina Gandin, Giorgia Miolo, Paola Barraja, Alessandra Montalbano, Barreca M., Ingarra A.M., Raimondi M.V., Spano' V., De Franco M., Menilli L., Gandin V., Miolo G., Barraja P., and Montalbano A.

Subjects
Pharmacology, MDA-MB-231, Triple negative human breast cancer, Organic Chemistry, Phototoxic activity, Indolizines, Antineoplastic Agents, Apoptosis, Triple Negative Breast Neoplasms, 4-g]indolizinespyrimido[4, General Medicine, Azepines, pyrimido[5,4-g]indolizinespyrimido[4,5-c]pyrrolo[1,2-a]azepinesTriple negative human breast cancerMDA-MB-231Photosensitizing agentsPhototoxic activity, pyrimido[5, Photosensitizing agents, 5-c]pyrrolo[1, pyrimido[4,5-c]pyrrolo[1,2-a]azepines, Cell Line, Tumor, 2-a]azepinesTriple negative human breast cancerMDA-MB-231Photosensitizing agentsPhototoxic activity, Drug Discovery, Humans, pyrimido[5,4-g]indolizines
Abstract

Searching for new small molecules as photosensitizing agents, we have developed a class of twenty-five pyrimido[5,4-g]indolizine and pyrimido[4,5-c]pyrrolo[1,2-a]azepines with a good substitution pattern defining a versatile synthetic pathway to approach the title ring system. All compounds were evaluated for their photocytotoxicity on a triple negative human breast cancer cell line (MDA-MB-231) in the dark and under UVA light (2.0 J/cm2). The most effective compounds exhibited a photoantiproliferative activity with IC50 values up to nanomolar ranges. Interestingly, these new developed compounds showed high selectivity towards cancerous cells with respect to non-cancerous ones. Moreover, four representative derivatives demonstrated to be phototoxic also against an additional human HER2 positive breast cancer cell line (HCC1954), and against the HER2 positive vesical cancer cell line (T24) harboring Hras mutation. Mechanistic studies performed in triple negative MDA-MB-231 cancer cells revealed the ability of the compounds to increase reactive oxygen species (ROS) production and to induce a thiol redox stress, thus triggering cancer cell death through apoptosis. Apoptotic cell death was also induced in highly aggressive and metastatic HER2 positive Hras mutated T24-treated bladder cancer cells. Overall, our data confirm that these new small photosensitizing agents may represent very promising candidates for phototherapy application against highly aggressive and resistant cancers.

Published
2022

16. Development of [1,2]oxazoloisoindoles tubulin polymerization inhibitors: Further chemical modifications and potential therapeutic effects against lymphomas

Author

Marilia, Barreca, Virginia, Spanò, Roberta, Rocca, Roberta, Bivacqua, Anne-Catherine, Abel, Annalisa, Maruca, Alessandra, Montalbano, Maria Valeria, Raimondi, Chiara, Tarantelli, Eugenio, Gaudio, Luciano, Cascione, Andrea, Rinaldi, Ruoli, Bai, Michel O, Steinmetz, Andrea E, Prota, Stefano, Alcaro, Ernest, Hamel, Francesco, Bertoni, Paola, Barraja, Barreca M., Spano' V., Rocca R., Bivacqua R., Abel A.-C., Maruca A., Montalbano A., Raimondi M.V., Tarantelli C., Gaudio E., Cascione L., Rinaldi A., Bai R., Steinmetz M.O., Prota A.E., Alcaro S., Hamel E., Bertoni F., and Barraja P.

Subjects
Pharmacology, Binding Sites, Lymphoma, Antitubulin agents, Colchicine site, Organic Chemistry, Antineoplastic Agents, General Medicine, Isoindoles, Tubulin Modulators, T2R-TTL–Complexes, Structure-Activity Relationship, Tubulin, Neoplasms, Cell Line, Tumor, Drug Discovery, Humans, [1,2]oxazolo[5,4-e]isoindoles, Colchicine, X-ray crystallography
Abstract

Lymphomas are among the ten most common cancers, and, although progress has been achieved in increasing survival, there is still an unmet need for more effective therapeutic approaches, including better options for patients with refractory tumors that initially respond but then relapse. The lack of effective alternative treatment options highlights the need to develop new therapeutic strategies capable of improving survival prospects for lymphoma patients. Herein, we describe the identification and exploration of the SAR of a series of [1,2]oxazolo[5,4-e]isoindoles as potent small molecules that bind to the colchicine site of tubulin and that have promise for the treatment of refractory lymphomas. Exploration of the chemical space of this class of compounds at the pyrrole moiety and at the [1,2]oxazole ring highlighted two compounds bearing a 3,5-dimethoxybenzyl and a 3,4,5-trimethoxybenzyl group as potent candidates and showed that structural modifications at the isoxazole moiety are generally not favorable for activity. The two best candidates showed efficacy against different lymphoma histotypes and displayed 88 and 80% inhibition of colchicine binding fitting well into the colchicine pocket, as demonstrated by X-ray crystallography T2R-TTL–complexes, docking and thermodynamic analysis of the tubulin-colchicine complex structure. These results were confirmed by transcriptome data, thus indicating [1,2]oxazolo[5,4-e]isoindoles are promising candidates as antitubulin agents for the treatment of refractory lymphomas.

Published
2022
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17. Pyrrolidine in Drug Discovery: A Versatile Scaffold for Novel Biologically Active Compounds

Author

Alessandra Montalbano, Virginia Spanò, Giovanna Li Petri, Ralph Holl, Maria Valeria Raimondi, Paola Barraja, Li Petri G., Raimondi M.V., Spanò Virginia, Holl R., Barraja P., and Montalbano A.

Subjects
Steric effects, Pyrrolidines, Molecular Structure, Chemistry, Drug discovery, Enantioselective synthesis, Stereoisomerism, General Chemistry, Review, Anti-inflammatory and analgesic agents, Ring (chemistry), Combinatorial chemistry, Settore CHIM/08 - Chimica Farmaceutica, Pyrrolidine, Prolinol, chemistry.chemical_compound, Antidiabetics, Drug Discovery, Pseudorotation, Humans, Anticancer and antibacterial agents, Pharmacophore, Central nervous system diseases
Abstract

The five-membered pyrrolidine ring is one of the nitrogen heterocycles used widely by medicinal chemists to obtain compounds for the treatment of human diseases. The great interest in this saturated scaffold is enhanced by (1) the possibility to efficiently explore the pharmacophore space due to sp3-hybridization, (2) the contribution to the stereochemistry of the molecule, (3) and the increased three-dimensional (3D) coverage due to the non-planarity of the ring—a phenomenon called “pseudorotation”. In this review, we report bioactive molecules with target selectivity characterized by the pyrrolidine ring and its derivatives, including pyrrolizines, pyrrolidine-2-one, pyrrolidine-2,5-diones and prolinol described in the literature from 2015 to date. After a comparison of the physicochemical parameters of pyrrolidine with the parent aromatic pyrrole and cyclopentane, we investigate the influence of steric factors on biological activity, also describing the structure–activity relationship (SAR) of the studied compounds. To aid the reader’s approach to reading the manuscript, we have planned the review on the basis of the synthetic strategies used: (1) ring construction from different cyclic or acyclic precursors, reporting the synthesis and the reaction conditions, or (2) functionalization of preformed pyrrolidine rings, e.g., proline derivatives. Since one of the most significant features of the pyrrolidine ring is the stereogenicity of carbons, we highlight how the different stereoisomers and the spatial orientation of substituents can lead to a different biological profile of drug candidates, due to the different binding mode to enantioselective proteins. We believe that this work can guide medicinal chemists to the best approach in the design of new pyrrolidine compounds with different biological profiles.

Published
2021

18. Evaluation of [1,2]oxazolo[5,4-e]isoindoles in lymphoma cells

Author

Marilia Barreca, Francesco Bertoni, Ruoli Bai, null Bai, Alessandra Montalbano, Virginia Spanò, Maria Valeria Raimondi, Ernest Hamel, null Gaudio, Paola Barraja, null Alcaro, Barreca M., Spanò Virginia, Raimondi M.V., Montalbano A., Bai R., Gaudio E., Alcaro S., Hamel E., Bertoni Francesco, and Barraja P.

Subjects
Cancer Research, Oncology, Isoindoles, Chemistry, Cancer research, medicine, anti-tubulin agent, [1,2]oxazolo[5,4-e]isoindole, lymphoma histotype, medicine.disease, Settore CHIM/08 - Chimica Farmaceutica, Lymphoma
Abstract

Anti-tubulin agents are important chemotherapeutics. Combretastatin A-4 (CA-4) emerged as lead compound for the design of new tubulin-binding agents. Its analogues 4,5-diarylisoxazoles, containing the [1,2]oxazole ring as linker of two aryl moieties, displayed higher antitubulin activity than CA-4. [1,2]oxazolo[5,4-e]isoindoles also gave excellent results reducing cell growth of NCI-60 tumor cell lines and diffuse malignant peritoneal mesothelioma (DMPM) cells. Selected derivatives showed in vivo antitumor activity at well-tolerated doses in a DMPM xenograft model. [1,2]oxazolo[5,4-e]isoindoles were screened in four lymphoma histotypes: germinal center B-cell and activated diffuse large B cell lymphoma, marginal zone lymphoma and mantle cell lymphoma.

Published
2020
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19. New complex polycyclic compounds: Synthesis, antiproliferative activity and mechanism of action

Author

Ernest Hamel, Benedetta Maggio, Maria Valeria Raimondi, Marianna Lauricella, Demetrio Raffa, Giuseppe Daidone, Antonella D'Anneo, Fabiana Plescia, Daidone G., D'Anneo A., Raimondi M.V., Raffa D., Hamel E., Plescia F., Lauricella M., and Maggio B.

Subjects
Stereochemistry, O-glycoconjugate polycyclic compounds, Apoptosis, Antiproliferative activity, Crystallography, X-Ray, 01 natural sciences, Biochemistry, Structure-Activity Relationship, Breast cancer cell line, Cell Line, Tumor, Drug Discovery, medicine, Autophagy, MDA-MB231 breast cancer cells, Humans, Polycyclic Compounds, Cytotoxicity, Molecular Biology, Cell Proliferation, 010405 organic chemistry, Hydrogen bond, Chemistry, Organic Chemistry, Hydrogen Bonding, In vitro, 0104 chemical sciences, Partition coefficient, 010404 medicinal & biomolecular chemistry, Mechanism of action, Pyrazolo[3,4-b]pyrazolo[3′,4′:2,3]azepino[4,5-f]azocine, medicine.symptom
Abstract

Polycyclic or O-glycoconiugate polycyclic compounds 1a-g were previously tested for their in vitro antiproliferative activity. In this series of compounds, activity increases as log P decreases. Specifically, compounds 1d and 1g showed lower log P values together with the best antiproliferative profiles. With the aim of extending our understanding of the structure–activity relationship (SAR) of this class of compounds, we prepared new polycyclic derivatives 2a-c, which bear on each of the two phenyl rings hydrophilic substituents (OH, SO2NH2 or NHCOCH3). These substituents are able to form hydrogen bonds and to decrease the partition coefficient value as compared with compound 1d. Compound 2a was slightly more active than 1d, while 2b and 2c had antiproliferative activity comparable to that of 1d. Finally, the role of the two phenyl groups of polycycle derivatives 1 was also investigated. The analog 3, which bears two methyls instead of the two phenyls had a lower log P value (2.94 ± 1.22) than all the other compounds, but it had negligible antiproliferative activity at 10 µM. The analysis of the most active derivative 2a revealed a significant antiproliferative activity against the triple-negative breast cancer cell line MDA-MB231. After a 24 h treatment, an autophagic process was activated, as demonstrated by an increase in monodansylcadaverine-positive cells as well as by the appearance of the autophagic markers Beclin and LC3II. Prolonging the treatment to 48 h, 2a caused cytotoxicity through the activation of caspase-dependent apoptosis.

Published
2020

20. Pyrrolo[2',3':3,4]cyclohepta[1,2-d][1,2]oxazoles, a New Class of Antimitotic Agents Active against Multiple Malignant Cell Types

Author

Virginia Spanò, Marilia Barreca, Anna Carbone, Giampietro Viola, Paola Barraja, Ruoli Bai, Stefano Alcaro, Ernest Hamel, Francesco Bertoni, Daniele Giallombardo, Roberta Rocca, Maria Valeria Raimondi, Pierfrancesco Tassone, Alessandra Montalbano, Eugenio Gaudio, Roberta Bortolozzi, Spano' V., Rocca R., Barreca M., Giallombardo D., Montalbano A., Carbone A., Raimondi M.V., Gaudio E., Bortolozzi R., Bai R., Tassone P., Alcaro S., Hamel E., Viola G., Bertoni F., and Barraja P.

Subjects
Cells, Mitosis, Antineoplastic Agents, Apoptosis, Antimitotic Agents, Drug Screening Assays, [1,2]oxazoles, antimitotic agents, lymphoma, tubulin polymerization inhibitors, Dose-Response Relationship, Structure-Activity Relationship, chemistry.chemical_compound, Models, Drug Discovery, medicine, Humans, Structure–activity relationship, Colchicine, Oxazoles, Cell Proliferation, Cells, Cultured, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, G2 Phase Cell Cycle Checkpoints, HeLa Cells, Models, Molecular, Molecular Structure, chemistry.chemical_classification, Reactive oxygen species, Cultured, Chemistry, Molecular, Depolarization, Antitumor, Molecular biology, Mechanism of action, Cell culture, Molecular Medicine, Antimitotic Agent, Drug, medicine.symptom
Abstract

A new class of pyrrolo[2',3':3,4]cyclohepta[1,2-d][1,2]oxazoles was synthesized for the treatment of hyperproliferative pathologies, including neoplasms. The new compounds were screened in the 60 human cancer cell lines of the NCI drug screen and showed potent activity with GI50 values reaching the nanomolar level, with mean graph midpoints of 0.08-0.41 μM. All compounds were further tested on six lymphoma cell lines, and eight showed potent growth inhibitory effects with IC50 values lower than 500 nM. Mechanism of action studies showed the ability of the new [1,2]oxazoles to arrest cells in the G2/M phase in a concentration dependent manner and to induce apoptosis through the mitochondrial pathway. The most active compounds inhibited tubulin polymerization, with IC50 values of 1.9-8.2 μM, and appeared to bind to the colchicine site. The G2/M arrest was accompanied by apoptosis, mitochondrial depolarization, generation of reactive oxygen species, and PARP cleavage.

Published
2020

21. Insight on [1,3]thiazolo[4,5-e]isoindoles as tubulin polymerization inhibitors

Author

Ruoli Bai, Roberta Bortolozzi, Virginia Spanò, Antonio Palumbo Piccionello, Alessandra Montalbano, Ernest Hamel, Paola Barraja, Maria Valeria Raimondi, Roberta Rocca, Stefano Alcaro, Giampietro Viola, Marilia Barreca, Anna Carbone, Spano' V., Barreca M., Rocca R., Bortolozzi R., Bai R., Carbone A., Raimondi M.V., Palumbo Piccionello A., Montalbano A., Alcaro S., Hamel E., Viola G., and Barraja P.

Subjects
Models, Molecular, Cell cycle checkpoint, Isoindoles, Apoptosis, 01 natural sciences, Polymerization, Tubulin Polymerization Inhibitors, Cell cycle arrest, HeLa, Structure-Activity Relationship, 03 medical and health sciences, chemistry.chemical_compound, Tubulin, Drug Discovery, Humans, Tubulin polymerization inhibitors, 030304 developmental biology, Pharmacology, 0303 health sciences, Dose-Response Relationship, Drug, Molecular Structure, biology, 010405 organic chemistry, 3]thiazolo[4, Organic Chemistry, General Medicine, biology.organism_classification, Tubulin Modulators, 0104 chemical sciences, Biochemistry, chemistry, Cell culture, 5-e]isoindoles, 1,3]thiazolo[4,5-e]isoindoles, Lead compound, Derivative (chemistry), HeLa Cells
Abstract

A series of [1,3]thiazolo[4,5-e]isoindoles has been synthesized through a versatile and high yielding multistep sequence. Evaluation of the antiproliferative activity of the new compounds on the full NCI human tumor cell line panel highlighted several compounds that are able to inhibit tumor cell proliferation at micromolar-submicromolar concentrations. The most active derivative 11g was found to cause cell cycle arrest at the G2/M phase and induce apoptosis in HeLa cells, following the mitochondrial pathway, making it a lead compound for the discovery of new antimitotic drugs.

Published
2021
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22. Current development of CFTR potentiators in the last decade

Author

Maria Valeria Raimondi, Paola Barraja, Luis J. V. Galietta, Michele Genovese, Virginia Spanò, Alessandra Montalbano, Arianna Venturini, Marilia Barreca, Spano' V., Venturini A., Genovese M., Barreca M., Raimondi M.V., Montalbano A., Galietta L.J.V., Barraja P., Spano, V., Venturini, A., Genovese, M., Barreca, M., Raimondi, M. V., Montalbano, A., Galietta, L. J. V., and Barraja, P.

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, High-throughput screening, Glycine, Computational biology, Quinolones, VX-770, Aminophenols, 01 natural sciences, Cystic fibrosis, Small Molecule Libraries, Structure-Activity Relationship, 03 medical and health sciences, Drug Discovery, medicine, Humans, CFTR potentiator, CFTR, Loss function, 030304 developmental biology, Pharmacology, 0303 health sciences, Water transport, biology, 010405 organic chemistry, Chemistry, Organic Chemistry, CFTR potentiators, Biological activity, General Medicine, Triazoles, Potentiator, medicine.disease, Cystic fibrosis transmembrane conductance regulator, 0104 chemical sciences, Cystic fibrosi, Mutation, Chloride channel, biology.protein
Abstract

Cystic fibrosis (CF) is a genetic disorder produced by the loss of function of CFTR, a main chloride channel involved in transepithelial salt and water transport. CFTR function can be rescued by small molecules called "potentiators" which increase gating activity of CFTR on epithelial surfaces. High throughput screening (HTS) assays allowed the identification of new chemical entities endowed with potentiator properties, further improved through medicinal chemistry optimization. In this review, the most relevant classes of CFTR potentiators developed in the last decade were explored, focusing on structure-activity relationships (SAR) of the different chemical entities, as a useful tool for the improvement of their pharmacological activity.

Published
2020
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