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2. Inducing cancer indolence by targeting mitochondrial Complex I is potentiated by blocking macrophage-mediated adaptive responses

Author

Kurelac, Ivana, Iommarini, Luisa, Vatrinet, Renaud, Amato, Laura Benedetta, De Luise, Monica, Leone, Giulia, Girolimetti, Giulia, Umesh Ganesh, Nikkitha, Bridgeman, Victoria Louise, Ombrato, Luigi, Columbaro, Marta, Ragazzi, Moira, Gibellini, Lara, Sollazzo, Manuela, Feichtinger, Rene Gunther, Vidali, Silvia, Baldassarre, Maurizio, Foriel, Sarah, Vidone, Michele, Cossarizza, Andrea, Grifoni, Daniela, Kofler, Barbara, Malanchi, Ilaria, Porcelli, Anna Maria, and Gasparre, Giuseppe

Published
2019
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3. Oncocytic glioblastoma: a glioblastoma showing oncocytic changes and increased mitochondrial DNA copy number

Author

Marucci, Gianluca, Maresca, Alessandra, Caporali, Leonardo, Farnedi, Anna, Betts, Christine Margaret, Morandi, Luca, de Biase, Dario, Cerasoli, Serenella, Foschini, Maria Pia, Bonora, Elena, Vidone, Michele, Romeo, Giovanni, Perli, Elena, Giordano, Carla, d'Amati, Giulia, Gasparre, Giuseppe, Baruzzi, Agostino, Carelli, Valerio, and Eusebi, Vincenzo

Published
2013
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4. Detecting Variants in the NBN Gene While Testing for Hereditary Breast Cancer: What to Do Next?

Author

Zuntini, Roberta, primary, Bonora, Elena, additional, Pradella, Laura Maria, additional, Amato, Laura Benedetta, additional, Vidone, Michele, additional, De Fanti, Sara, additional, Catucci, Irene, additional, Cortesi, Laura, additional, Medici, Veronica, additional, Ferrari, Simona, additional, Gasparre, Giuseppe, additional, Peterlongo, Paolo, additional, Sazzini, Marco, additional, and Turchetti, Daniela, additional

Published
2021
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6. Platinum-induced mitochondrial DNA mutations confer lower sensitivity to paclitaxel by impairing tubulin cytoskeletal organization

Author

Girolimetti, Giulia, primary, Guerra, Flora, additional, Iommarini, Luisa, additional, Kurelac, Ivana, additional, Vergara, Daniele, additional, Maffia, Michele, additional, Vidone, Michele, additional, Amato, Laura Benedetta, additional, Leone, Giulia, additional, Dusi, Sabrina, additional, Tiranti, Valeria, additional, Perrone, Anna Myriam, additional, Bucci, Cecilia, additional, Porcelli, Anna Maria, additional, and Gasparre, Giuseppe, additional

Published
2017
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8. Detection of human Papilloma virus DNA in a subset of glioblastoma samples

Author

GASPARRE, GIUSEPPE, VIDONE, MICHELE, CRICCA, MONICA, Savini C, Trevisan E, Soffietti R, Faccani G, Leone M, Morra I., Gasparre G, Vidone M, Cricca M, Savini C, Trevisan E, Soffietti R, Faccani G, Leone M, and Morra I

Subjects
HPV, GLIOBLASTOMA
Abstract

BACKGROUND: Glioblastoma Multiforme (GBM) is the most common malignant brain tumor in adults, but its aetiology remains unknown. Recent reports have demonstrated the presence of neurotropic viruses in glioma samples, leading to the hypothesis that viral infection could be involved in tumorigenesis. AIM OF THE STUDY: To assess the burden of HPV infection in a cohort of malignant gliomas. MATERIALS AND METHODS: Seventy-one fresh frozen tumour samples of 62 glioblastomas and 9 grade III astrocytomas have been retrospectively analyzed. The presence of HPV genome in tumour DNA was assessed by MY/GP nested PCR. PCR products were sequenced with Sanger technology in order to define the viral genotype involved in the infection. A PCR with genotype-specific primer sets was carried out as confirmation of the infection. RESULTS: Viral DNA was detected after PCR in 8 (11%) cases. According to our previous studies both low- and high risk genotypes were isolated. Sequencing analysis showed that HPV16 genome was present in 4 (50%) infected samples whereas the remaining 4 resulted positive to HPV6. All positive cases were diagnosed as primary glioblastomas, and no positivity was found in lower grade glioma samples. Median overall survival did not significantly differ between HPV-positive and HPV-negative patients. CONCLUSIONS: The presence of HPV in high grade glioma specimens deserves further investigation. The analysis of a large cohort of tumors, along with in vitro studies on glioblastoma cell lines, will allow to better clarify the role of HPV in gliomagenesis and assess its potential use as a prognostic factor.

Published
2014

9. Targeting respiratory Complex I: A metabolic strategy to prevent tumor progression

Author

Vatrinet, Renaud, primary, Kurelac, Ivana, additional, Iommarini, Luisa, additional, Amato, Laura, additional, Leone, Giulia, additional, Girolimetti, Giulia, additional, Vidone, Michele, additional, De Luise, Monica, additional, Vidali, Silvia, additional, Columbaro, Marta, additional, Calabrese, Claudia, additional, Tullo, Apollonia, additional, Kofler, Barbara, additional, Gasparre, Giuseppe, additional, and Porcelli, Anna Maria, additional

Published
2016
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10. Abstract LB-236: Self-renewal of CD133hi cells by IL6/Notch3 signaling regulates endocrine resistance in metastatic breast cancers

Author

Sansone, Pasquale, primary, Claudio, Ceccarelli, additional, Berishaj, Marjan, additional, Chang, Qing, additional, Vinagolu, Rajasekhar, additional, Perna, Fabiana, additional, Bowman, Robert, additional, Vidone, Michele, additional, Daly, Laura, additional, Nnoli, Jennifer, additional, Santini, Donatella, additional, Mario, Taffurelli, additional, Shih, Natalie, additional, Feldman, Michael, additional, Mao, Jun James, additional, Colameco, Christopher, additional, Chen, Jinbo, additional, DeMichele, Angela, additional, Fabbri, Nicola, additional, Healey, John, additional, Cricca, Monica, additional, Gasparre, Giuseppe, additional, Lyden, David, additional, Bonafe, Massimiliano, additional, and Bromberg, Jacqueline F., additional

Published
2016
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11. Self-renewal of CD133hi cells by IL6/Notch3 signalling regulates endocrine resistance in metastatic breast cancer

Author

Sansone, Pasquale, primary, Ceccarelli, Claudio, additional, Berishaj, Marjan, additional, Chang, Qing, additional, Rajasekhar, Vinagolu K., additional, Perna, Fabiana, additional, Bowman, Robert L., additional, Vidone, Michele, additional, Daly, Laura, additional, Nnoli, Jennifer, additional, Santini, Donatella, additional, Taffurelli, Mario, additional, Shih, Natalie N. C., additional, Feldman, Michael, additional, Mao, Jun J., additional, Colameco, Christopher, additional, Chen, Jinbo, additional, DeMichele, Angela, additional, Fabbri, Nicola, additional, Healey, John H., additional, Cricca, Monica, additional, Gasparre, Giuseppe, additional, Lyden, David, additional, Bonafé, Massimiliano, additional, and Bromberg, Jacqueline, additional

Published
2016
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12. A comprehensive characterization of mitochondrial DNA mutations in glioblastoma multiforme

Author

Vidone, Michele, primary, Clima, Rosanna, additional, Santorsola, Mariangela, additional, Calabrese, Claudia, additional, Girolimetti, Giulia, additional, Kurelac, Ivana, additional, Amato, Laura Benedetta, additional, Iommarini, Luisa, additional, Trevisan, Elisa, additional, Leone, Marco, additional, Soffietti, Riccardo, additional, Morra, Isabella, additional, Faccani, Giuliano, additional, Attimonelli, Marcella, additional, Porcelli, Anna Maria, additional, and Gasparre, Giuseppe, additional

Published
2015
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15. Inducing cancer indolence by targeting mitochondrial Complex I is potentiated by blocking macrophage-mediated adaptive responses

Author

Kurelac, Ivana, Iommarini, Luisa, Vatrinet, Renaud, Amato, Laura Benedetta, Luise, Monica De, Leone, Giulia, Girolimetti, Giulia, Nikkitha Umesh Ganesh, Bridgeman, Victoria Louise, Ombrato, Luigi, Columbaro, Marta, Ragazzi, Moira, Gibellini, Lara, Sollazzo, Manuela, Feichtinger, Rene Gunther, Vidali, Silvia, Baldassarre, Maurizio, Foriel, Sarah, Vidone, Michele, Cossarizza, Andrea, Grifoni, Daniela, Kofler, Barbara, Malanchi, Ilaria, Porcelli, Anna Maria, and Gasparre, Giuseppe

Subjects
Model organisms, Stem Cells, Tumour Biology, Genetics & Genomics, 3. Good health
Abstract

Converting carcinomas in benign oncocytomas has been suggested as a potential anti-cancer strategy. One of the oncocytoma hallmarks is the lack of respiratory complex I (CI). Here we use genetic ablation of this enzyme to induce indolence in two cancer types, and show this is reversed by allowing the stabilization of Hypoxia Inducible Factor-1 alpha (HIF-1α). We further show that on the long run CI-deficient tumors re-adapt to their inability to respond to hypoxia, concordantly with the persistence of human oncocytomas. We demonstrate that CI-deficient tumors survive and carry out angiogenesis, despite their inability to stabilize HIF-1α. Such adaptive response is mediated by tumor associated macrophages, whose blockage improves the effect of CI ablation. Additionally, the simultaneous pharmacological inhibition of CI function through metformin and macrophage infiltration through PLX-3397 impairs tumor growth in vivo in a synergistic manner, setting the basis for an efficient combinatorial adjuvant therapy in clinical trials.

16. Inducing cancer indolence by targeting mitochondrial Complex I is potentiated by blocking macrophage-mediated adaptive responses

Author

Kurelac, Ivana, Iommarini, Luisa, Vatrinet, Renaud, Amato, Laura Benedetta, Luise, Monica De, Leone, Giulia, Girolimetti, Giulia, Nikkitha Umesh Ganesh, Bridgeman, Victoria Louise, Ombrato, Luigi, Columbaro, Marta, Ragazzi, Moira, Gibellini, Lara, Sollazzo, Manuela, Feichtinger, Rene Gunther, Vidali, Silvia, Baldassarre, Maurizio, Foriel, Sarah, Vidone, Michele, Cossarizza, Andrea, Grifoni, Daniela, Kofler, Barbara, Malanchi, Ilaria, Porcelli, Anna Maria, and Gasparre, Giuseppe

Subjects
Model organisms, Stem Cells, Tumour Biology, Genetics & Genomics, 3. Good health
Abstract

Converting carcinomas in benign oncocytomas has been suggested as a potential anti-cancer strategy. One of the oncocytoma hallmarks is the lack of respiratory complex I (CI). Here we use genetic ablation of this enzyme to induce indolence in two cancer types, and show this is reversed by allowing the stabilization of Hypoxia Inducible Factor-1 alpha (HIF-1α). We further show that on the long run CI-deficient tumors re-adapt to their inability to respond to hypoxia, concordantly with the persistence of human oncocytomas. We demonstrate that CI-deficient tumors survive and carry out angiogenesis, despite their inability to stabilize HIF-1α. Such adaptive response is mediated by tumor associated macrophages, whose blockage improves the effect of CI ablation. Additionally, the simultaneous pharmacological inhibition of CI function through metformin and macrophage infiltration through PLX-3397 impairs tumor growth in vivo in a synergistic manner, setting the basis for an efficient combinatorial adjuvant therapy in clinical trials.

17. Self-renewal of CD133hi cells by IL6/Notch3 signalling regulates endocrine resistance in metastatic breast cancer.

Author

Sansone, Pasquale, Ceccarelli, Claudio, Berishaj, Marjan, Chang, Qing, Rajasekhar, Vinagolu K., Perna, Fabiana, Bowman, Robert L., Vidone, Michele, Daly, Laura, Nnoli, Jennifer, Santini, Donatella, Taffurelli, Mario, Shih, Natalie N. C., Feldman, Michael, Mao, Jun J., Colameco, Christopher, Chen, Jinbo, DeMichele, Angela, Fabbri, Nicola, and Healey, John H.

Published
2016
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18. Detecting Variants in the NBN Gene While Testing for Hereditary Breast Cancer: What to Do Next?

Author

Laura Benedetta Amato, Daniela Turchetti, Michele Vidone, Elena Bonora, Irene Catucci, Roberta Zuntini, Giuseppe Gasparre, Laura Maria Pradella, Veronica Medici, Sara De Fanti, Simona Ferrari, Marco Sazzini, Laura Cortesi, Paolo Peterlongo, Zuntini, Roberta, Bonora, Elena, Pradella, Laura Maria, Amato, Laura Benedetta, Vidone, Michele, De Fanti, Sara, Catucci, Irene, Cortesi, Laura, Medici, Veronica, Ferrari, Simona, Gasparre, Giuseppe, Peterlongo, Paolo, Sazzini, Marco, and Turchetti, Daniela

Subjects
DNA Mutational Analysis, Cell Cycle Proteins, 0302 clinical medicine, NBN, 030212 general & internal medicine, Biology (General), Spectroscopy, Likely pathogenic, Genetics, variants, Nuclear Proteins, hereditary breast cancer, General Medicine, Phenotype, Pedigree, Computer Science Applications, Gene Expression Regulation, Neoplastic, Chemistry, 030220 oncology & carcinogenesis, Female, Hereditary Breast Cancer, Adult, Genotype, QH301-705.5, In silico, Breast Neoplasms, Biology, Article, Catalysis, Frameshift mutation, Inorganic Chemistry, 03 medical and health sciences, Breast cancer, medicine, Humans, Genetic Predisposition to Disease, Genetic Testing, Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Gene, Alleles, Genetic Association Studies, Organic Chemistry, Genetic Variation, medicine.disease, Nibrin, Haplotypes, Case-Control Studies, nibrin
Abstract

The NBN gene has been included in breast cancer (BC) multigene panels based on early studies suggesting an increased BC risk for carriers, though not confirmed by recent research. To evaluate the impact of NBN analysis, we assessed the results of NBN sequencing in 116 BRCA-negative BC patients and reviewed the literature. Three patients (2.6%) carried potentially relevant variants: two, apparently unrelated, carried the frameshift variant c.156_157delTT and another one the c.628G&gt, T variant. The latter was subsequently found in 4/1390 (0.3%) BC cases and 8/1580 (0.5%) controls in an independent sample, which, together with in silico predictions, provided evidence against its pathogenicity. Conversely, the rare c.156_157delTT variant was absent in the case-control set, moreover, a 50% reduction of NBN expression was demonstrated in one carrier. However, in one family it failed to co-segregate with BC, while the other carrier was found to harbor also a probably pathogenic TP53 variant that may explain her phenotype. Therefore, the c.156_157delTT, although functionally deleterious, was not supported as a cancer-predisposing defect. Pathogenic/likely pathogenic NBN variants were detected by multigene panels in 31/12314 (0.25%) patients included in 15 studies. The risk of misinterpretation of such findings is substantial and supports the exclusion of NBN from multigene panels.

Published
2021
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19. Inducing cancer indolence by targeting mitochondrial Complex I is potentiated by blocking macrophage-mediated adaptive responses

Author

Laura Benedetta Amato, Ilaria Malanchi, Giulia Girolimetti, Nikkitha Umesh Ganesh, Anna Maria Porcelli, Silvia Vidali, Michele Vidone, Marta Columbaro, Andrea Cossarizza, Giulia Leone, Moira Ragazzi, Renaud Vatrinet, Luigi Ombrato, Giuseppe Gasparre, Manuela Sollazzo, Luisa Iommarini, Victoria L. Bridgeman, Monica De Luise, Lara Gibellini, Ivana Kurelac, Maurizio Baldassarre, René G. Feichtinger, Barbara Kofler, Sarah Foriel, Daniela Grifoni, Kurelac, Ivana, Iommarini, Luisa, Vatrinet, Renaud, Amato, Laura Benedetta, De Luise, Monica, Leone, Giulia, Girolimetti, Giulia, Umesh Ganesh, Nikkitha, Bridgeman, Victoria Louise, Ombrato, Luigi, Columbaro, Marta, Ragazzi, Moira, Gibellini, Lara, Sollazzo, Manuela, Feichtinger, Rene Gunther, Vidali, Silvia, Baldassarre, Maurizio, Foriel, Sarah, Vidone, Michele, Cossarizza, Andrea, Grifoni, Daniela, Kofler, Barbara, Malanchi, Ilaria, Porcelli, Anna Maria, and Gasparre, Giuseppe

Subjects
0301 basic medicine, Angiogenesis, Adenoma, Oxyphilic, Aminopyridines, Animals, Antineoplastic Agents, Cell Line, Tumor, Cell Proliferation, Drosophila, Electron Transport Complex I, Female, Gene Knockout Techniques, HCT116 Cells, Humans, Hypoxia-Inducible Factor 1, alpha Subunit, Macrophages, Metformin, Mice, Mice, Knockout, Mice, Nude, NADH Dehydrogenase, Neovascularization, Pathologic, Pyrroles, Xenograft Model Antitumor Assays, Nude, General Physics and Astronomy, 02 engineering and technology, urologic and male genital diseases, Neovascularization, Medicine, Oncocytoma, lcsh:Science, Multidisciplinary, Tumor, 021001 nanoscience & nanotechnology, 3. Good health, macrophages, Hypoxia-Inducible Factor 1, medicine.symptom, 0210 nano-technology, Mitochondrial Complex I, Adenoma, combinatorial therapy, Science, Knockout, alpha Subunit, General Biochemistry, Genetics and Molecular Biology, Article, Cell Line, 03 medical and health sciences, In vivo, Adjuvant therapy, cancer, Pathologic, business.industry, Cell growth, Oxyphilic, General Chemistry, Hypoxia (medical), medicine.disease, 030104 developmental biology, Cell culture, Cancer research, lcsh:Q, business
Abstract

Converting carcinomas in benign oncocytomas has been suggested as a potential anti-cancer strategy. One of the oncocytoma hallmarks is the lack of respiratory complex I (CI). Here we use genetic ablation of this enzyme to induce indolence in two cancer types, and show this is reversed by allowing the stabilization of Hypoxia Inducible Factor-1 alpha (HIF-1α). We further show that on the long run CI-deficient tumors re-adapt to their inability to respond to hypoxia, concordantly with the persistence of human oncocytomas. We demonstrate that CI-deficient tumors survive and carry out angiogenesis, despite their inability to stabilize HIF-1α. Such adaptive response is mediated by tumor associated macrophages, whose blockage improves the effect of CI ablation. Additionally, the simultaneous pharmacological inhibition of CI function through metformin and macrophage infiltration through PLX-3397 impairs tumor growth in vivo in a synergistic manner, setting the basis for an efficient combinatorial adjuvant therapy in clinical trials., Lack of respiratory complex I is a hallmark of oncocytomas. Here the authors show that inactivation of this complex via knockout of the NDUFS3 subunit or using metformin, converts tumors from an aggressive phenotype into low-proliferative oncocytomas, which can be further inhibited by targeting pro-tumorigenic macrophages.

Published
2019

20. The α-ketoglutarate dehydrogenase complex in cancer metabolic plasticity

Author

Anna Maria Porcelli, Michele Vidone, Renaud Vatrinet, Monica De Luise, Giuseppe Gasparre, Giulia Girolimetti, Giulia Leone, Vatrinet, Renaud, Leone, Giulia, De Luise, Monica, Girolimetti, Giulia, Vidone, Michele, Gasparre, Giuseppe, and Porcelli, Anna Maria

Subjects
0301 basic medicine, Cell signaling, α-Ketoglutarate dehydrogenase complex, Dehydrogenase, Review, Biology, 03 medical and health sciences, medicine, chemistry.chemical_classification, Cancer plasticity, α-Ketoglutarate dehydrogenase complex, α-Ketoglutarate, Mitochondrial function, Metabolic stresses, Cancer plasticity, Cell signaling, Oncometabolite, Epigenetics, Cancer, Metabolism, medicine.disease, Cell biology, Citric acid cycle, Psychiatry and Mental health, Metabolic pathway, α-Ketoglutarate, 030104 developmental biology, Enzyme, Biochemistry, chemistry, Oncometabolite, Cancer cell, Metabolic stresses, Epigenetics, Mitochondrial function, Flux (metabolism)
Abstract

Deregulated metabolism is a well-established hallmark of cancer. At the hub of various metabolic pathways deeply integrated within mitochondrial functions, the α-ketoglutarate dehydrogenase complex represents a major modulator of electron transport chain activity and tricarboxylic acid cycle (TCA) flux, and is a pivotal enzyme in the metabolic reprogramming following a cancer cell’s change in bioenergetic requirements. By contributing to the control of α-ketoglutarate levels, dynamics, and oxidation state, the α-ketoglutarate dehydrogenase is also essential in modulating the epigenetic landscape of cancer cells. In this review, we will discuss the manifold roles that this TCA enzyme and its substrate play in cancer.

Published
2017

21. Self-renewal of CD133(hi) cells by IL6/Notch3 signalling regulates endocrine resistance in metastatic breast cancer

Author

Monica Cricca, Jennifer Nnoli, John H. Healey, Claudio Ceccarelli, Angela DeMichele, Michele Vidone, Jun J. Mao, Jacqueline Bromberg, Christopher Colameco, Marjan Berishaj, Michael Feldman, Vinagolu K. Rajasekhar, Nicola Fabbri, Natalie N. C. Shih, David Lyden, Laura Daly, Pasquale Sansone, Robert L. Bowman, Massimiliano Bonafè, Giuseppe Gasparre, Fabiana Perna, Mario Taffurelli, Qing Chang, Donatella Santini, Jinbo Chen, Sansone, Pasquale, Ceccarelli, Claudio, Berishaj, Marjan, Chang, Qing, Rajasekhar, Vinagolu K, Perna, Fabiana, Bowman, Robert L, Vidone, Michele, Daly, Laura, Nnoli, Jennifer, Santini, Donatella, Taffurelli, Mario, Shih, Natalie N C, Feldman, Michael, Mao, Jun J, Colameco, Christopher, Chen, Jinbo, Demichele, Angela, Fabbri, Nicola, Healey, John H, Cricca, Monica, Gasparre, Giuseppe, Lyden, David, Bonafé, Massimiliano, and Bromberg, Jacqueline

Subjects
0301 basic medicine, medicine.medical_treatment, General Physics and Astronomy, Mice, SCID, self-renewal, Oxidative Phosphorylation, Targeted therapy, 0302 clinical medicine, Mice, Inbred NOD, Medicine, AC133 Antigen, CD133, Cell Self Renewal, Neoplasm Metastasis, Fulvestrant, Receptor, Notch3, Multidisciplinary, Estradiol, Receptors, Notch, Carcinoma, Ductal, Breast, Flow Cytometry, Metastatic breast cancer, 3. Good health, Gene Expression Regulation, Neoplastic, Receptors, Estrogen, 030220 oncology & carcinogenesis, Letrozole, MCF-7 Cells, Neoplastic Stem Cells, Hormonal therapy, Female, metastatic breast cancer, Signal Transduction, medicine.drug, medicine.medical_specialty, Notch, Antineoplastic Agents, Hormonal, Science, Bone Neoplasms, Breast Neoplasms, Anastrozole, In Vitro Techniques, Real-Time Polymerase Chain Reaction, Article, General Biochemistry, Genetics and Molecular Biology, resistance, 03 medical and health sciences, Breast cancer, Antigens, CD, Cancer stem cell, Cell Line, Tumor, Internal medicine, Nitriles, Animals, Humans, Glycoproteins, Interleukin-6, business.industry, General Chemistry, Triazoles, medicine.disease, IL6, Androstadienes, Carcinoma, Lobular, Tamoxifen, 030104 developmental biology, Endocrinology, Drug Resistance, Neoplasm, Cancer cell, Cancer research, Leuprolide, Peptides, business, Neoplasm Transplantation
Abstract

The mechanisms of metastatic progression from hormonal therapy (HT) are largely unknown in luminal breast cancer. Here we demonstrate the enrichment of CD133hi/ERlo cancer cells in clinical specimens following neoadjuvant endocrine therapy and in HT refractory metastatic disease. We develop experimental models of metastatic luminal breast cancer and demonstrate that HT can promote the generation of HT-resistant, self-renewing CD133hi/ERlo/IL6hi cancer stem cells (CSCs). HT initially abrogates oxidative phosphorylation (OXPHOS) generating self-renewal-deficient cancer cells, CD133hi/ERlo/OXPHOSlo. These cells exit metabolic dormancy via an IL6-driven feed-forward ERlo-IL6hi-Notchhi loop, activating OXPHOS, in the absence of ER activity. The inhibition of IL6R/IL6-Notch pathways switches the self-renewal of CD133hi CSCs, from an IL6/Notch-dependent one to an ER-dependent one, through the re-expression of ER. Thus, HT induces an OXPHOS metabolic editing of luminal breast cancers, paradoxically establishing HT-driven self-renewal of dormant CD133hi/ERlo cells mediating metastatic progression, which is sensitive to dual targeted therapy., ER+ breast cancer patients treated with endocrine therapies often acquire resistance and develop metastasis. In this study, the authors demonstrate that endocrine therapies can promote the self-renewal of CD133hi/ERlo drug resistant cells with metastatic potential driven through the IL6-Notch3 axis activation.

Published
2016

22. Abstract LB-236: Self-renewal of CD133hi cells by IL6/Notch3 signaling regulates endocrine resistance in metastatic breast cancers

Author

Monica Cricca, Marjan Berishaj, John H. Healey, Giuseppe Gasparre, Jennifer Nnoli, Angela DeMichele, Michele Vidone, Jun J. Mao, Natalie Shih, Fabiana Perna, Ceccarelli Claudio, Nicola Fabbri, Jacqueline Bromberg, Jinbo Chen, Robert L. Bowman, Laura Daly, Rajasekhar Vinagolu, David Lyden, Taffurelli Mario, Donatella Santini, Michael Feldman, Christopher Colameco, Massimiliano Bonafè, Qing Chang, Pasquale Sansone, Sansone, Pasquale, Claudio, Ceccarelli, Berishaj, Marjan, Chang, Qing, Vinagolu, Rajasekhar, Perna, Fabiana, Bowman, Robert, Vidone, Michele, Daly, Laura, Nnoli, Jennifer, Santini, Donatella, Mario, Taffurelli, Shih, Natalie, Feldman, Michael, Mao, Jun Jame, Colameco, Christopher, Chen, Jinbo, Demichele, Angela, Fabbri, Nicola, Healey, John, Cricca, Monica, Gasparre, Giuseppe, Lyden, David, Bonafe, Massimiliano, and Bromberg, Jacqueline F.

Subjects
Oncology, Cancer Research, medicine.medical_specialty, business.industry, medicine.medical_treatment, Cancer, Bone metastasis, medicine.disease, Targeted therapy, Breast cancer, Cancer stem cell, Internal medicine, Cancer cell, medicine, Endocrine system, Hormonal therapy, Breast cancer, dormancy, IL6, Notch, stmeness, mitochondria, business
Abstract

The mechanisms of metastatic progression from hormonal therapy (HT)-induced tumour dormancy to hormonal therapy resistance is largely unknown in luminal breast cancer. Analysis of clinical specimens revealed the enrichment of CD133hi/ERlo cancer cells in primary tumours following neo-adjuvant endocrine therapy and in HT refractory metastatic disease. We developed spontaneous experimental models of metastatic luminal breast cancer and determined that endocrine therapy can promote the generation of HT- resistant, self-renewing CD133hi/ERlo/IL6hicells. Dual pharmacological inhibition of IL6R-IL6 (tocilizumab) and ER (HT) abrogated the establishment of CD133hi/ERlo/IL6hi cancer stem cells (CSCs), restoring endocrine sensitivity to hormone-refractory metastatic disease, in both experimental and patient-derived endocrine-resistant bone metastasis. Hormonal therapy, initially abrogated oxidative phosphorylation (OXPHOS) generating dormant (self-renewal deficient-CD133hi/ERlo/OXPHOSlo) cancer cells, These cells exited metabolic dormancy via an IL6 driven feed-forward ERlo-IL6hi-Notchhi loop, activating OXPHOS, in the absence of ER activity. Importantly, the inhibition of IL6R/IL6-Notch pathways switched the self-renewal of CD133hi CSCs, from an IL6/Notch-dependent one to an ER-dependent one, through the re-expression of ER. Thus, HT induces an OXPHOS metabolic editing of luminal breast cancers, paradoxically establishing HT-driven self-renewal of dormant CD133hi/ERlo cells mediating metastatic progression, which is sensitive to dual targeted therapy. Citation Format: Pasquale Sansone, Ceccarelli Claudio, Marjan Berishaj, Qing Chang, Rajasekhar Vinagolu, Fabiana Perna, Robert Bowman, Michele Vidone, Laura Daly, Jennifer Nnoli, Donatella Santini, Taffurelli Mario, Natalie Shih, Michael Feldman, Jun James Mao, Christopher Colameco, Jinbo Chen, Angela DeMichele, Nicola Fabbri, John Healey, Monica Cricca, Giuseppe Gasparre, David Lyden, Massimiliano Bonafe, Jacqueline F. Bromberg. Self-renewal of CD133hi cells by IL6/Notch3 signaling regulates endocrine resistance in metastatic breast cancers. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr LB-236.

Published
2016

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