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Your search keyword '"Federica Morisi"' showing total 3 results
Start Over Author "Federica Morisi" Topic cancer research
3 results on '"Federica Morisi"'

1. Iron Induces Cell Death and Strengthens the Efficacy of Antiandrogen Therapy in Prostate Cancer Models

Author

Jessica Bordini, Alessia Pagani, Paolo Ghia, Vito Cucchiara, Matteo Bellone, Alberto Briganti, Alessandro Campanella, Paolo Santambrogio, Federica Morisi, Clara Camaschella, Angela Elia, Bordini, Jessica, Morisi, Federica, Elia, Angela Rita, Santambrogio, Paolo, Pagani, Alessia, Cucchiara, Vito, Ghia, Paolo, Bellone, Matteo, Briganti, Alberto, Camaschella, Clara, and Campanella, Alessandro

Subjects
0301 basic medicine, Male, Cancer Research, Bicalutamide, Iron, Apoptosis, urologic and male genital diseases, medicine.disease_cause, Protein oxidation, Tosyl Compounds, 03 medical and health sciences, Prostate cancer, Mice, 0302 clinical medicine, LNCaP, Nitriles, medicine, Tumor Cells, Cultured, Animals, Humans, Anilides, Viability assay, Antiandrogen Therapy, Cell Proliferation, Chemistry, Prostatic Neoplasms, Androgen Antagonists, Drug Synergism, medicine.disease, Xenograft Model Antitumor Assays, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Oxidative stress, medicine.drug
Abstract

Purpose: In search of novel strategies to improve the outcome of advanced prostate cancer, we considered that prostate cancer cells rearrange iron homeostasis, favoring iron uptake and proliferation. We exploited this adaptation by exposing prostate cancer preclinical models to high-dose iron to induce toxicity and disrupt adaptation to androgen starvation. Experimental Design: We analyzed markers of cell viability and mechanisms underlying iron toxicity in androgen receptor–positive VCaP and LNCaP, castration-resistant DU-145 and PC-3, and murine TRAMP-C2 cells treated with iron and/or the antiandrogen bicalutamide. We validated the results in vivo in VCaP and PC-3 xenografts and in TRAMP-C2 injected mice treated with iron and/or bicalutamide. Results: Iron was toxic for all prostate cancer cells. In particular, VCaP, LNCaP, and TRAMP-C2 were highly iron sensitive. Toxicity was mediated by oxidative stress, which primarily affected lipids, promoting ferroptosis. In highly sensitive cells, iron additionally caused protein damage. High-basal iron content and oxidative status defined high iron sensitivity. Bicalutamide–iron combination exacerbated oxidative damage and cell death, triggering protein oxidation also in poorly iron-sensitive DU-145 and PC-3 cells. In vivo, iron reduced tumor growth in TRAMP-C2 and VCaP mice. In PC-3 xenografts, bicalutamide–iron combination caused protein oxidation and successfully impaired tumor expansion while single compounds were ineffective. Macrophages influenced body iron distribution but did not limit the iron effect on tumor expansion. Conclusions: Our models allow us to dissect the direct iron effect on cancer cells. We demonstrate the proof of principle that iron toxicity inhibits prostate cancer cell proliferation, proposing a novel tool to strengthen antiandrogen treatment efficacy.

Published
2020

2. Iron Causes Lipid Oxidation and Inhibits Proteasome Function in Multiple Myeloma Cells: A Proof of Concept for Novel Combination Therapies

Author

Paolo Ghia, Federica Morisi, Fulvia Cerruti, Paolo Cascio, Alessandro Campanella, Jessica Bordini, Clara Camaschella, Bordini, J., Morisi, F., Cerruti, F., Cascio, P., Camaschella, C., Ghia, P., and Campanella, A.

Subjects
0301 basic medicine, Cancer Research, Iron, Pharmacology, lcsh:RC254-282, Article, Lipid peroxidation, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, iron, Ferroptosis, Multiple myeloma, Proteasome, Lipid oxidation, medicine, Chemistry, Bortezomib, Cell growth, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, ferroptosis, multiple myeloma, 030104 developmental biology, proteasome, Oncology, 030220 oncology & carcinogenesis, Cancer cell, Proteasome inhibitor, Ferric, medicine.drug
Abstract

Adaptation to import iron for proliferation makes cancer cells potentially sensitive to iron toxicity. Iron loading impairs multiple myeloma (MM) cell proliferation and increases the efficacy of the proteasome inhibitor bortezomib. Here, we defined the mechanisms of iron toxicity in MM.1S, U266, H929, and OPM-2 MM cell lines, and validated this strategy in preclinical studies using Vk*MYC mice as MM model. High-dose ferric ammonium citrate triggered cell death in all cell lines tested, increasing malondialdehyde levels, the by-product of lipid peroxidation and index of ferroptosis. In addition, iron exposure caused dose-dependent accumulation of polyubiquitinated proteins in highly iron-sensitive MM.1S and H929 cells, suggesting that proteasome workload contributes to iron sensitivity. Accordingly, high iron concentrations inhibited the proteasomal chymotrypsin-like activity of 26S particles and of MM cellular extracts in vitro. In all MM cells, bortezomib-iron combination induced persistent lipid damage, exacerbated bortezomib-induced polyubiquitinated proteins accumulation, and triggered cell death more efficiently than individual treatments. In Vk*MYC mice, addition of iron dextran or ferric carboxymaltose to the bortezomib-melphalan-prednisone (VMP) regimen increased the therapeutic response and prolonged remission without causing evident toxicity. We conclude that iron loading interferes both with redox and protein homeostasis, a property that can be exploited to design novel combination strategies including iron supplementation, to increase the efficacy of current MM therapies.

Published
2020

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