Your search keyword '"Cordella, Paola"' showing total 9 results

1. In vitro and in vivo evaluation of Bombesin-MMAE conjugates for targeted tumour therapy

Author

Gomena, Jacopo, Modena, Daniela, Cordella, Paola, Vári, Balázs, Ranđelović, Ivan, Borbély, Adina, Bottani, Michela, Vári-Mező, Diána, Halmos, Gábor, Juhász, Éva, Steinkühler, Christian, Tóvári, József, and Mező, Gábor

Published

2024

2. Difluoromethyl-1,3,4-oxadiazoles are slow-binding substrate analog inhibitors of histone deacetylase 6 with unprecedented isotype selectivity

Author

Cellupica, Edoardo, Caprini, Gianluca, Cordella, Paola, Cukier, Cyprian, Fossati, Gianluca, Marchini, Mattia, Rocchio, Ilaria, Sandrone, Giovanni, Vanoni, Maria Antonietta, Vergani, Barbara, Źrubek, Karol, Stevenazzi, Andrea, and Steinkühler, Christian

Published

2023

3. Characterization of Chemoresistance in Pancreatic Cancer: A Look at MDR-1 Polymorphisms and Expression in Cancer Cells and Patients.

Author

Girolimetti, Giulia, Balena, Barbara, Cordella, Paola, Verri, Tiziano, Eusebi, Leonardo Henry, Bozzetti, Maria Pia, Bucci, Cecilia, and Guerra, Flora

Subjects

DRUG resistance in cancer cells, GENE expression, WESTERN immunoblotting, SINGLE nucleotide polymorphisms, PANCREATIC cancer

Abstract

Pancreatic malignancy is the fourth cause of cancer-related death in Western countries and is predicted to become the second leading cause of cancer-related mortality by 2030. The standard therapies (FOLFIRINOX and gemcitabine with nab-paclitaxel) are not resolutive because this type of cancer is also characterized by a high chemoresistance, due in part to the activity of the ATP Binding Cassette (ABC) pumps accounting for the reduction in the intracellular concentration of the drugs. In this work, we analyze the occurrence of single-nucleotide polymorphisms (SNPs) in the MDR-1 gene, in different pancreatic cancer cell lines, and in tissues from pancreatic cancer patients by DNA sequencing, as well as the expression levels of MDR-1 mRNA and protein, by qRT-PCR and Western Blot analysis. We found that gemcitabine-resistant cells, in conjunction with homozygosis of analyzed SNPs, showed high MDR-1 basal levels with further increases after gemcitabine treatment. Nevertheless, we did not observe in the human PDAC samples a correlation between the level of MDR-1 mRNA and protein expression and SNPs. Preliminary, we conclude that in our small cohort, these SNPs cannot be used as molecular markers for predicting the levels of MDR-1 mRNA/protein levels and drug responses in patients with PDAC. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mechanistic and Structural Insights on Difluoromethyl-1,3,4-oxadiazole Inhibitors of HDAC6.

Author

Cellupica, Edoardo, Gaiassi, Aureliano, Rocchio, Ilaria, Rovelli, Grazia, Pomarico, Roberta, Sandrone, Giovanni, Caprini, Gianluca, Cordella, Paola, Cukier, Cyprian, Fossati, Gianluca, Marchini, Mattia, Bebel, Aleksandra, Airoldi, Cristina, Palmioli, Alessandro, Stevenazzi, Andrea, Steinkühler, Christian, and Vergani, Barbara

Subjects

NUCLEAR magnetic resonance spectroscopy, LIQUID chromatography-mass spectrometry, HISTONE deacetylase, NUCLEAR magnetic resonance, X-ray crystallography, CHEMICAL structure

Abstract

Histone deacetylase 6 (HDAC6) is increasingly recognized for its potential in targeted disease therapy. This study delves into the mechanistic and structural nuances of HDAC6 inhibition by difluoromethyl-1,3,4-oxadiazole (DFMO) derivatives, a class of non-hydroxamic inhibitors with remarkable selectivity and potency. Employing a combination of nuclear magnetic resonance (NMR) spectroscopy and liquid chromatography-mass spectrometry (LC-MS) kinetic experiments, comprehensive enzymatic characterizations, and X-ray crystallography, we dissect the intricate details of the DFMO-HDAC6 interaction dynamics. More specifically, we find that the chemical structure of a DMFO and the binding mode of its difluoroacetylhydrazide derivative are crucial in determining the predominant hydrolysis mechanism. Our findings provide additional insights into two different mechanisms of DFMO hydrolysis, thus contributing to a better understanding of the HDAC6 inhibition by oxadiazoles in disease modulation and therapeutic intervention. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Importance of the "Time Factor" for the Evaluation of Inhibition Mechanisms: The Case of Selected HDAC6 Inhibitors.

Author

Cellupica, Edoardo, Caprini, Gianluca, Fossati, Gianluca, Mirdita, Doris, Cordella, Paola, Marchini, Mattia, Rocchio, Ilaria, Sandrone, Giovanni, Stevenazzi, Andrea, Vergani, Barbara, Steinkühler, Christian, and Vanoni, Maria Antonietta

Subjects

HISTONE deacetylase, SMALL molecules, ACETYL group, PHARMACEUTICAL chemistry, CATALYTIC domains, POST-translational modification

Abstract

Simple Summary: Protein lysine acetylation is, with phosphorylation, the most common regulatory post-translational modification of proteins. Histone deacetylases (HDAC) catalyze the removal of acetyl groups from histone and non-histone proteins, participating in the modulation of several pathways. Histone deacetylase 6 is perhaps the most complex among histone deacetylases, comprising two catalytic domains, an N-terminal microtubule-binding domain and a C-terminal ubiquitin–binding domain. Interfering with its catalytic activity by using small synthetic molecules has been shown to be beneficial in the treatment of cancer, and neurological and immunological disorders. Thus, the development of potent and selective inhibitors of HDAC6 is an active field of medicinal chemistry. We shall here discuss the importance of monitoring the kinetics of onset and relief of inhibition to contribute important information on inhibition mechanisms during drug design/development campaigns using selected HDAC6 inhibitors as examples. Histone deacetylases (HDACs) participate with histone acetyltransferases in the modulation of the biological activity of a broad array of proteins, besides histones. Histone deacetylase 6 is unique among HDAC as it contains two catalytic domains, an N-terminal microtubule binding region and a C-terminal ubiquitin binding domain. Most of its known biological roles are related to its protein lysine deacetylase activity in the cytoplasm. The design of specific inhibitors is the focus of a large number of medicinal chemistry programs in the academy and industry because lowering HDAC6 activity has been demonstrated to be beneficial for the treatment of several diseases, including cancer, and neurological and immunological disorders. Here, we show how re-evaluation of the mechanism of action of selected HDAC6 inhibitors, by monitoring the time-dependence of the onset and relief of the inhibition, revealed instances of slow-binding/slow-release inhibition. The same approach, in conjunction with X-ray crystallography, in silico modeling and mass spectrometry, helped to propose a model of inhibition of HDAC6 by a novel difluoromethyloxadiazole-based compound that was found to be a slow-binding substrate analog of HDAC6, giving rise to a tightly bound, long-lived inhibitory derivative. [ABSTRACT FROM AUTHOR]

Published

2023

6. Octreotide Conjugates for Tumor Targeting and Imaging

Author

Figueras Agustí, Eduard, Martins, Ana, Borbély, Adina Noémi, Le Joncour, Vadim, Cordella, Paola, Perego, Raffaella, Modena, Daniela, Pagani, Paolo, Esposito, Simone, Auciello, Giulio, Frese, Marcel, Gallinari, Paola, Laakkonen, Pirjo, Steinkuhler, Christian, Sewald, Norbert, CAN-PRO - Translational Cancer Medicine Program, Research Programs Unit, University of Helsinki, Pirjo Maarit Laakkonen / Principal Investigator, University Management, and Faculty of Medicine

Subjects

cryptophycin, AGONISTS, tumor targeting, imaging, lcsh:RS1-441, cytotoxic payloads, Article, SOMATOSTATIN RECEPTOR ANTAGONISTS, lcsh:Pharmacy and materia medica, CRYPTOPHYCIN ANALOGS, ANTIBODY, DESIGN, UNIT, 317 Pharmacy, PAYLOADS, small molecule drug conjugates, BIOLOGICAL EVALUATION, DRUG-DELIVERY, LY355703, octreotide

Abstract

Tumor targeting has emerged as an advantageous approach to improving the efficacy and safety of cytotoxic agents or radiolabeled ligands that do not preferentially accumulate in the tumor tissue. The somatostatin receptors (SSTRs) belong to the G-protein-coupled receptor superfamily and they are overexpressed in many neuroendocrine tumors (NETs). SSTRs can be efficiently targeted with octreotide, a cyclic octapeptide that is derived from native somatostatin. The conjugation of cargoes to octreotide represents an attractive approach for effective tumor targeting. In this study, we conjugated octreotide to cryptophycin, which is a highly cytotoxic depsipeptide, through the protease cleavable Val-Cit dipeptide linker using two different self-immolative moieties. The biological activity was investigated in vitro and the self-immolative part largely influenced the stability of the conjugates. Replacement of cryptophycin by the infrared cyanine dye Cy5.5 was exploited to elucidate the tumor targeting properties of the conjugates in vitro and in vivo. The compound efficiently and selectively internalized in cells overexpressing SSTR2 and accumulated in xenografts for a prolonged time. Our results on the in vivo properties indicate that octreotide may serve as an efficient delivery vehicle for tumor targeting.

Published

2019

7. Synthesis and Biological Evaluation of RGD–Cryptophycin Conjugates for Targeted Drug Delivery

Author

Borbély, Adina Noémi, Figueras Agustí, Eduard, Martins, Ana, Esposito, Simone, Auciello, Giulio, Monteagudo, Edith, Di Marco, Annalise, Summa, Vincenzo, Cordella, Paola, Perego, Raffaella, Kemker, Isabell, Frese, Marcel, Gallinari, Paola, Steinkühler, Christian, and Sewald, Norbert

Subjects

lcsh:Pharmacy and materia medica, drug delivery, lcsh:RS1-441, Article, antitumor agents, small molecule–drug conjugates, RGD peptides

Abstract

Cryptophycins are potent tubulin polymerization inhibitors with picomolar antiproliferative potency in vitro and activity against multidrug-resistant (MDR) cancer cells. Because of neurotoxic side effects and limited efficacy in vivo, cryptophycin-52 failed as a clinical candidate in cancer treatment. However, this class of compounds has emerged as attractive payloads for tumor-targeting applications. In this study, cryptophycin was conjugated to the cyclopeptide c(RGDfK), targeting integrin &alpha, v&beta, 3, across the protease-cleavable Val-Cit linker and two different self-immolative spacers. Plasma metabolic stability studies in vitro showed that our selected payload displays an improved stability compared to the parent compound, while the stability of the conjugates is strongly influenced by the self-immolative moiety. Cathepsin B cleavage assays revealed that modifications in the linker lead to different drug release profiles. Antiproliferative effects of Arg-Gly-Asp (RGD)&ndash, cryptophycin conjugates were evaluated on M21 and M21-L human melanoma cell lines. The low nanomolar in vitro activity of the novel conjugates was associated with inferior selectivity for cell lines with different integrin &alpha, 3 expression levels. To elucidate the drug delivery process, cryptophycin was replaced by an infrared dye and the obtained conjugates were studied by confocal microscopy.

Published

2019

8. Novel Benzohydroxamate-Based Potent and Selective Histone Deacetylase 6 (HDAC6) Inhibitors Bearing a Pentaheterocyclic Scaffold: Design, Synthesis, and Biological Evaluation.

Author

Vergani, Barbara, Sandrone, Giovanni, Marchini, Mattia, Ripamonti, Chiara, Cellupica, Edoardo, Galbiati, Elisabetta, Caprini, Gianluca, Pavich, Gianfranco, Porro, Giulia, Rocchio, Ilaria, Lattanzio, Maria, Pezzuto, Marcello, Skorupska, Malgorzata, Cordella, Paola, Pagani, Paolo, Pozzi, Pietro, Pomarico, Roberta, Modena, Daniela, Leoni, Flavio, and Perego, Raffaella

Published

2019

9. Synthesis and Biological Evaluation of RGD⁻Cryptophycin Conjugates for Targeted Drug Delivery.

Author

Borbély A, Figueras E, Martins A, Esposito S, Auciello G, Monteagudo E, Di Marco A, Summa V, Cordella P, Perego R, Kemker I, Frese M, Gallinari P, Steinkühler C, and Sewald N

Abstract

Cryptophycins are potent tubulin polymerization inhibitors with picomolar antiproliferative potency in vitro and activity against multidrug-resistant (MDR) cancer cells. Because of neurotoxic side effects and limited efficacy in vivo, cryptophycin-52 failed as a clinical candidate in cancer treatment. However, this class of compounds has emerged as attractive payloads for tumor-targeting applications. In this study, cryptophycin was conjugated to the cyclopeptide c (RGDfK), targeting integrin α v β₃, across the protease-cleavable Val-Cit linker and two different self-immolative spacers. Plasma metabolic stability studies in vitro showed that our selected payload displays an improved stability compared to the parent compound, while the stability of the conjugates is strongly influenced by the self-immolative moiety. Cathepsin B cleavage assays revealed that modifications in the linker lead to different drug release profiles. Antiproliferative effects of Arg-Gly-Asp (RGD)⁻cryptophycin conjugates were evaluated on M21 and M21-L human melanoma cell lines. The low nanomolar in vitro activity of the novel conjugates was associated with inferior selectivity for cell lines with different integrin α v β₃ expression levels. To elucidate the drug delivery process, cryptophycin was replaced by an infrared dye and the obtained conjugates were studied by confocal microscopy.

Published

2019