Your search keyword '"De Luise, Monica"' showing total 38 results

1. Inducing respiratory complex I impairment elicits an increase in PGC1α in ovarian cancer

Author

De Luise, Monica, Sollazzo, Manuela, Lama, Eleonora, Coadă, Camelia Alexandra, Bressi, Licia, Iorio, Maria, Cavina, Beatrice, D’Angelo, Luigi, Milioni, Sara, Marchio, Lorena, Miglietta, Stefano, Coluccelli, Sara, Tedesco, Greta, Ghelli, Anna, Lemma, Silvia, Perrone, Anna Myriam, Kurelac, Ivana, Iommarini, Luisa, Porcelli, Anna Maria, and Gasparre, Giuseppe

Published

2022

2. mtDNA mutations in cancer

Author

Girolimetti, Giulia, primary, De Luise, Monica, additional, Porcelli, Anna Maria, additional, Gasparre, Giuseppe, additional, and Kurelac, Ivana, additional

Published

2020

3. List of Contributors

Author

Achilli, Alessandro, primary, Attimonelli, Marcella, additional, Bacman, Sandra R., additional, Barrientos, Antoni, additional, Berridge, Michael V., additional, Burr, Stephen P., additional, Calabrese, Claudia, additional, Calabrese, Francesco Maria, additional, Chinnery, Patrick F., additional, De Luise, Monica, additional, Diaz, Francisca, additional, Doimo, Mara, additional, Fontanesi, Flavia, additional, Fu, Yi, additional, Gammage, Payam A., additional, Garone, Caterina, additional, Gasparre, Giuseppe, additional, Ghelli, Anna, additional, Girolimetti, Giulia, additional, Glasgow, Ruth I.C., additional, Gomez-Duran, Aurora, additional, Grasso, Carole, additional, Herst, Patries M., additional, Holt, Ian James, additional, Iommarini, Luisa, additional, Kang, Dongchon, additional, Kurelac, Ivana, additional, Lim, Albert Z., additional, Lott, Marie T., additional, Matsuda, Shigeru, additional, McFarland, Robert, additional, Minczuk, Michal, additional, Moraes, Carlos T., additional, Nicholls, Thomas J., additional, Oláhová, Monika, additional, Olivieri, Anna, additional, Pfeiffer, Annika, additional, Pinheiro, Pedro, additional, Pitceathly, Robert D.S., additional, Porcelli, Anna Maria, additional, Preste, Roberto, additional, Procaccio, Vincent, additional, Quadalti, Corinne, additional, Rahman, Shamima, additional, Reyes, Aurelio, additional, Semino, Ornella, additional, Sfeir, Agnel, additional, Shiping, Zhang, additional, Sia, Elaine Ayres, additional, Spinazzola, Antonella, additional, Stein, Alexis, additional, Szczepanowska, Karolina, additional, Tagliabracci, Adriano, additional, Taylor, Robert W., additional, Tigano, Marco, additional, Torroni, Antonio, additional, Trifunovic, Aleksandra, additional, Turchi, Chiara, additional, Vitale, Ornella, additional, Wallace, Douglas C., additional, Wanrooij, Paulina H., additional, Wanrooij, Sjoerd, additional, and Yasukawa, Takehiro, additional

Published

2020

4. Update of penetrance estimates in Birt-Hogg-Dubé syndrome

Author

Bruinsma, Fiona Jane, Dowty, James G., Win, Aung Ko, Goddard, Laura C., Agrawal, Prachi, Attina', Domenico, Bissada, Nabil, De Luise, Monica, Eisen, Daniel B., Furuya, Mitsuko, Gasparre, Giuseppe, Genuardi, Maurizio, Gerdes, Anne Marie, Hansen, Thomas Van Overeem, Houweling, Arjan C., Johannesma, Paul Christiaan, Lencastre, André, Lim, Derek, Lindor, Noralane M., Luzzi, Valentina, Lynch, Maeve, Maffé, Antonella, Menko, Fred H., Michels, Guido, Pulido, Jose S., Ryu, Jay H., Sattler, Elke C., Steinlein, Ortrud K., Tomassetti, Sara, Tucker, Kathy, Turchetti, Daniela, Van De Beek, Irma, Van Riel, Lore, Van Steensel, Maurice, Zenone, Thierry, Zompatori, Maurizo, Walsh, Jennifer, Bondavalli, Davide, Maher, Eamonn R., Winship, Ingrid M., Bruinsma, Fiona Jane, Dowty, James G., Win, Aung Ko, Goddard, Laura C., Agrawal, Prachi, Attina', Domenico, Bissada, Nabil, De Luise, Monica, Eisen, Daniel B., Furuya, Mitsuko, Gasparre, Giuseppe, Genuardi, Maurizio, Gerdes, Anne Marie, Hansen, Thomas Van Overeem, Houweling, Arjan C., Johannesma, Paul Christiaan, Lencastre, André, Lim, Derek, Lindor, Noralane M., Luzzi, Valentina, Lynch, Maeve, Maffé, Antonella, Menko, Fred H., Michels, Guido, Pulido, Jose S., Ryu, Jay H., Sattler, Elke C., Steinlein, Ortrud K., Tomassetti, Sara, Tucker, Kathy, Turchetti, Daniela, Van De Beek, Irma, Van Riel, Lore, Van Steensel, Maurice, Zenone, Thierry, Zompatori, Maurizo, Walsh, Jennifer, Bondavalli, Davide, Maher, Eamonn R., and Winship, Ingrid M.

Abstract

Background Birt-Hogg-Dubé (BHD) syndrome is a rare genetic syndrome caused by pathogenic or likely pathogenic germline variants in the FLCN gene. Patients with BHD syndrome have an increased risk of fibrofolliculomas, pulmonary cysts, pneumothorax and renal cell carcinoma. There is debate regarding whether colonic polyps should be added to the criteria. Previous risk estimates have mostly been based on small clinical case series. Methods A comprehensive review was conducted to identify studies that had recruited families carrying pathogenic or likely pathogenic variants in FLCN. Pedigree data were requested from these studies and pooled. Segregation analysis was used to estimate the cumulative risk of each manifestation for carriers of FLCN pathogenic variants. Results Our final dataset contained 204 families that were informative for at least one manifestation of BHD (67 families informative for skin manifestations, 63 for lung, 88 for renal carcinoma and 29 for polyps). By age 70 years, male carriers of the FLCN variant have an estimated 19% (95% CI 12% to 31%) risk of renal tumours, 87% (95% CI 80% to 92%) of lung involvement and 87% (95% CI 78% to 93%) of skin lesions, while female carriers had an estimated 21% (95% CI 13% to 32%) risk of renal tumours, 82% (95% CI 73% to 88%) of lung involvement and 78% (95% CI 67% to 85%) of skin lesions. The cumulative risk of colonic polyps by age 70 years old was 21% (95% CI 8% to 45%) for male carriers and 32% (95% CI 16% to 53%) for female carriers. Conclusions These updated penetrance estimates, based on a large number of families, are important for the genetic counselling and clinical management of BHD syndrome.

Published

2023

5. 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

6. NDUFS3 knockout cancer cells and molecular docking reveal specificity and mode of action of anti-cancer respiratory complex I inhibitors

Author

Kurelac, Ivana, primary, Cavina, Beatrice, additional, Sollazzo, Manuela, additional, Miglietta, Stefano, additional, Fornasa, Agnese, additional, De Luise, Monica, additional, Iorio, Maria, additional, Lama, Eleonora, additional, Traversa, Daniele, additional, Nasiri, Hamid Razi, additional, Ghelli, Anna, additional, Musiani, Francesco, additional, Porcelli, Anna Maria, additional, Iommarini, Luisa, additional, and Gasparre, Giuseppe, additional

Published

2022

7. Respiratory complex I null cancer cells and molecular docking reveal specificity and mode of action inhibitors with anticancer activity

Author

Iommarini, Luisa, primary, Kurelac, Ivana, additional, Cavina, Beatrice, additional, Fornasa, Agnese, additional, Traversa, Daniele, additional, Iorio, Maria, additional, Sollazzo, Manuela, additional, De Luise, Monica, additional, Lama, Eleonora, additional, Nasiri, Hamid Razi, additional, Ghelli, Anna, additional, Musiani, Francesco, additional, Gasparre, Giuseppe, additional, and Porcelli, Anna Maria, additional

Published

2022

8. Respiratory Complex I dysfunction in cancer: from a maze of cellular adaptive responses to potential therapeutic strategies.

Author

Sollazzo, Manuela, De Luise, Monica, Lemma, Silvia, Bressi, Licia, Iorio, Maria, Miglietta, Stefano, Milioni, Sara, Kurelac, Ivana, Iommarini, Luisa, Gasparre, Giuseppe, and Porcelli, Anna Maria

Subjects

*CELL survival, *BIOENERGETICS, *MAZE tests, *MAZE puzzles, *CELL proliferation, *MITOCHONDRIA, *CANCER cells

Abstract

Mitochondria act as key organelles in cellular bioenergetics and biosynthetic processes producing signals that regulate different molecular networks for proliferation and cell death. This ability is also preserved in pathologic contexts such as tumorigenesis, during which bioenergetic changes and metabolic reprogramming confer flexibility favoring cancer cell survival in a hostile microenvironment. Although different studies epitomize mitochondrial dysfunction as a protumorigenic hit, genetic ablation or pharmacological inhibition of respiratory complex I causing a severe impairment is associated with a low‐proliferative phenotype. In this scenario, it must be considered that despite the initial delay in growth, cancer cells may become able to resume proliferation exploiting molecular mechanisms to overcome growth arrest. Here, we highlight the current knowledge on molecular responses activated by complex I‐defective cancer cells to bypass physiological control systems and to re‐adapt their fitness during microenvironment changes. Such adaptive mechanisms could reveal possible novel molecular players in synthetic lethality with complex I impairment, thus providing new synergistic strategies for mitochondrial‐based anticancer therapy. [ABSTRACT FROM AUTHOR]

Published

2022

9. Papillary thyroid carcinoma tall cell variant shares accumulation of mitochondria, mitochondrial DNA mutations, and loss of oxidative phosphorylation complex I integrity with oncocytic tumors

Author

Tsybrovskyy, Oleksiy, primary, De Luise, Monica, additional, Biase, Dario, additional, Caporali, Leonardo, additional, Fiorini, Claudio, additional, Gasparre, Giuseppe, additional, Carelli, Valerio, additional, Hackl, Dominik, additional, Imamovic, Larisa, additional, Haim, Silke, additional, Sobrinho‐Simões, Manuel, additional, and Tallini, Giovanni, additional

Published

2021

10. Lung tumor growth promotion by tobacco-specific nitrosamines involves the β2-adrenergic receptors-dependent stimulation of mitochondrial REDOX signaling

Author

SARLAK, Saharnaz, primary, Lalou, Claude, additional, Bastos Sant'Anna-Silva, Ana Carolina, additional, MAHFOUF, Walid, additional, De Luise, Monica, additional, ROUSSEAU, Benoît, additional, IZOTTE, Julien, additional, CLAVEROL, Stephane, additional, Lacombe, Didier, additional, Nikitopoulou, Efterpi, additional, Yang, Ming, additional, Oliveira, Marcus, additional, Frezza, Christian, additional, Gasparre, Guiseppe, additional, REZVANI, Hamid Reza, additional, AMOEDO, Nivea Dias, additional, and ROSSIGNOL, Rodrigue, additional

Published

2021

11. The Neglected Liaison: Targeting Cancer Cell Metabolic Reprogramming Modifies the Composition of Non-Malignant Populations of the Tumor Microenvironment

Author

Iorio, Maria, primary, Umesh Ganesh, Nikkitha, additional, De Luise, Monica, additional, Porcelli, Anna Maria, additional, Gasparre, Giuseppe, additional, and Kurelac, Ivana, additional

Published

2021

12. Pathogenic Mitochondrial DNA Mutation Load Inversely Correlates with Malignant Features in Familial Oncocytic Parathyroid Tumors Associated with Hyperparathyroidism-Jaw Tumor Syndrome

Author

De Luise, Monica, primary, Iommarini, Luisa, additional, Marchio, Lorena, additional, Tedesco, Greta, additional, Coadă, Camelia Alexandra, additional, Repaci, Andrea, additional, Turchetti, Daniela, additional, Tardio, Maria Lucia, additional, Salfi, Nunzio, additional, Pagotto, Uberto, additional, Kurelac, Ivana, additional, Porcelli, Anna Maria, additional, and Gasparre, Giuseppe, additional

Published

2021

13. Respiratory Complex I dysfunction in cancer: from a maze of cellular adaptive responses to potential therapeutic strategies

Author

Sollazzo, Manuela, primary, De Luise, Monica, additional, Lemma, Silvia, additional, Bressi, Licia, additional, Iorio, Maria, additional, Miglietta, Stefano, additional, Milioni, Sara, additional, Kurelac, Ivana, additional, Iommarini, Luisa, additional, Gasparre, Giuseppe, additional, and Porcelli, Anna Maria, additional

Published

2021

14. Contribution of ultrarare variants in mTOR pathway genes to sporadic focal epilepsies

Author

Pippucci, Tommaso, Licchetta, Laura, Baldassari, Sara, Marconi, Caterina, De Luise, Monica, Myers, Candace, Nardi, Elena, Provini, Federica, Cameli, Cinzia, Minardi, Raffaella, Bacchelli, Elena, Giordano, Lucio, Crichiutti, Giovanni, D'Orsi, Giuseppe, Seri, Marco, Gasparre, Giuseppe, Mefford, Heather C., Tinuper, Paolo, Bisulli, Francesca, Bianchi, Amedeo, Striano, Pasquale, Gambardella, Antonio, Meletti, Stefano, Dilena, Roberto, Santucci, Margherita, Marini, Carla, Vignoli, Aglaia, Gobbi, Giuseppe, Briatore, Eleonora, Mastrangelo, Massimo, Pippucci, Tommaso, Licchetta, Laura, Baldassari, Sara, Marconi, Caterina, De Luise, Monica, Myers, Candace, Nardi, Elena, Provini, Federica, Cameli, Cinzia, Minardi, Raffaella, Bacchelli, Elena, Giordano, Lucio, Crichiutti, Giovanni, d'Orsi, Giuseppe, Seri, Marco, Gasparre, Giuseppe, Mefford, Heather C., Tinuper, Paolo, Bisulli, Francesca, and Santucci, Margherita

Subjects

focal epilepsy, 0301 basic medicine, Male, Epilepsies, Tuberous Sclerosis Complex 1 Protein, Whole Exome Sequencing, 0302 clinical medicine, Neuroscience (all), Neurology (clinical), Medicine, Child, Exome sequencing, Research Articles, Genetics, biology, General Neuroscience, GTPase-Activating Proteins, Middle Aged, DEPDC5, Child, Preschool, mTOR, symbols, Female, Research Article, Partial, Signal Transduction, Adult, Adolescent, Mechanistic Target of Rapamycin Complex 1, 03 medical and health sciences, symbols.namesake, Exome Sequencing, Tuberous Sclerosis Complex 2 Protein, Humans, Genetic Predisposition to Disease, Preschool, Mechanistic target of rapamycin, Gene, PI3K/AKT/mTOR pathway, Loss function, business.industry, Infant, 030104 developmental biology, Multiprotein Complexes, Genomic Structural Variation, Mendelian inheritance, biology.protein, Epilepsies, Partial, TSC2, business, 030217 neurology & neurosurgery

Abstract

Objective We investigated the contribution to sporadic focal epilepsies (FE) of ultrarare variants in genes coding for the components of complexes regulating mechanistic Target Of Rapamycin (mTOR)complex 1 (mTORC1). Methods We collected genetic data of 121 Italian isolated FE cases and 512 controls by Whole Exome Sequencing (WES) and single‐molecule Molecular Inversion Probes (smMIPs) targeting 10 genes of the GATOR1, GATOR2, and TSC complexes. We collapsed “qualifying” variants (ultrarare and predicted to be deleterious or loss of function) across the examined genes and sought to identify their enrichment in cases compared to controls. Results We found eight qualifying variants in cases and nine in controls, demonstrating enrichment in FE patients (P = 0.006; exact unconditional test, one‐tailed). Pathogenic variants were identified in DEPDC5 and TSC2, both major genes for Mendelian FE syndromes. Interpretation Our findings support the contribution of ultrarare variants in genes in the mTOR pathway complexes GATOR and TSC to the risk of sporadic FE and a shared genetic basis between rare and common epilepsies. The identification of a monogenic etiology in isolated cases, most typically encountered in clinical practice, may offer to a broader community of patients the perspective of precision therapies directed by the underlying genetic cause.

Published

2019

15. NDUFS3 depletion permits complex I maturation and reveals TMEM126A/OPA7 as an assembly factor binding the ND4-module intermediate

Author

D’Angelo, Luigi, primary, Astro, Elisa, additional, De Luise, Monica, additional, Kurelac, Ivana, additional, Umesh-Ganesh, Nikkitha, additional, Ding, Shujing, additional, Fearnley, Ian M., additional, Gasparre, Giuseppe, additional, Zeviani, Massimo, additional, Porcelli, Anna Maria, additional, Fernandez-Vizarra, Erika, additional, and Iommarini, Luisa, additional

Published

2021

16. Lung Tumor Growth Promotion by Tobacco-Specific Nitrosamines Involves the β2-Adrenergic Receptors-Dependent Stimulation of Mitochondrial REDOX Signaling.

Author

Sarlak, Saharnaz, Lalou, Claude, Sant'Anna-Silva, Ana Carolina B., Mafhouf, Walid, De Luise, Monica, Rousseau, Benoît, Izotte, Julien, Claverol, Stéphane, Lacombe, Didier, Nikitopoulou, Efterpi, Yang, Ming, Oliveira, Marcus, Frezza, Christian, Gasparre, Giuseppe, Rezvani, Hamid Reza, Amoedo, Nivea Dias, and Rossignol, Rodrigue

Published

2022

17. Papillary thyroid carcinoma tall cell variant shares accumulation of mitochondria, mitochondrial DNA mutations, and loss of oxidative phosphorylation complex I integrity with oncocytic tumors.

Author

Tsybrovskyy, Oleksiy, De Luise, Monica, de Biase, Dario, Caporali, Leonardo, Fiorini, Claudio, Gasparre, Giuseppe, Carelli, Valerio, Hackl, Dominik, Imamovic, Larisa, Haim, Silke, Sobrinho‐Simões, Manuel, and Tallini, Giovanni

Subjects

MITOCHONDRIAL DNA, PAPILLARY carcinoma, THYROID cancer, OXIDATIVE phosphorylation, MITOCHONDRIA, THYROID gland tumors

Abstract

Papillary thyroid carcinoma tall cell variant (PTC‐TCV), a form of PTC regarded as an aggressive subtype, shares several morphologic features with oncocytic tumors. Pathogenic homoplasmic/highly heteroplasmic somatic mitochondrial DNA (mtDNA) mutations, usually affecting oxidative phosphorylation (OXPHOS) complex I subunits, are hallmarks of oncocytic cells. To clarify the relationship between PTC‐TCV and oncocytic thyroid tumors, 17 PTC‐TCV and 16 PTC non‐TCV controls (cPTC) were subjected to: (1) transmission electron microscopy (TEM) to assess mitochondria accumulation, (2) next‐generation sequencing to analyze mtDNA and nuclear genes frequently mutated in thyroid carcinoma, and (3) immunohistochemistry (IHC) for prohibitin and complex I subunit NDUFS4 to evaluate OXPHOS integrity. TEM showed replacement of cytoplasm by mitochondria in PTC‐TCV but not in cPTC cells. All 17 PTC‐TCV had at least one mtDNA mutation, totaling 21 mutations; 3/16 cPTC (19%) had mtDNA mutations (p < 0.001). PTC‐TCV mtDNA mutations were homoplasmic/highly heteroplasmic, 16/21 (76%) mapping within mtDNA‐encoded complex I subunits. MtDNA mutations in cPTC were homoplasmic in 2 cases and at low heteroplasmy in the third case, 2/3 mapping to mtDNA‐encoded complex I subunits; 2/3 cPTC with mtDNA mutations had small tall cell subpopulations. PTC‐TCV showed strong prohibitin expression and cPTC low‐level expression, consistent with massive and limited mitochondrial content, respectively. All 17 PTC‐TCV showed NDUFS4 loss (partial or complete) and 3 of 16 cPTC (19%) had (partial) NDUFS4 loss, consistent with lack of complex I integrity in PTC‐TCV (p < 0.001). IHC loss of NDUFS4 was associated with mtDNA mutations (p < 0.001). Four BRAF V600E mutated PTCs had loss of NDUSF4 expression limited to neoplastic cell subpopulations with tall cell features, indicating that PTCs first acquire BRAF V600E and then mtDNA mutations. Similar to oncocytic thyroid tumors, PTC‐TCV is characterized by mtDNA mutations, massive accumulation of mitochondria, and loss of OXPHOS integrity. IHC loss of NDUFS‐4 can be used as a surrogate marker for OXPHOS disruption and to reliably diagnose PTC‐TCV. [ABSTRACT FROM AUTHOR]

Published

2022

18. Biogenesis of NDUFS3-less complex I indicates TMEM126A/OPA7 as an assembly factor of the ND4-module

Author

D’Angelo, Luigi, primary, Astro, Elisa, additional, De Luise, Monica, additional, Kurelac, Ivana, additional, Umesh-Ganesh, Nikkitha, additional, Ding, Shujing, additional, Fearnley, Ian M., additional, Zeviani, Massimo, additional, Gasparre, Giuseppe, additional, Porcelli, Anna Maria, additional, Fernandez-Vizarra, Erika, additional, and Iommarini, Luisa, additional

Published

2020

19. Biogenesis of NDUFS3-Less Complex I Indicates TMEM126A/OPA7 as an Assembly Factor of the ND4-Module

Author

D'Angelo, Luigi, primary, Astro, Elisa, additional, De Luise, Monica, additional, Kurelac, Ivana, additional, Umesh-Ganesh, Nikkitha, additional, Ding, Shujing, additional, Fearnley, Ian M., additional, Zeviani, Massimo, additional, Gasparre, Giuseppe, additional, Porcelli, Anna Maria, additional, Fernandez-Vizarra, Erika, additional, and Iommarini, Luisa, additional

Published

2020

20. A Nonsense Mitochondrial DNA Mutation Associates with Dysfunction of HIF1α in a Von Hippel-Lindau Renal Oncocytoma

Author

De Luise, Monica, primary, Guarnieri, Vito, additional, Ceccarelli, Claudio, additional, D’Agruma, Leonardo, additional, Porcelli, Anna Maria, additional, and Gasparre, Giuseppe, additional

Published

2019

21. Molecular and metabolic features of oncocytomas: Seeking the blueprints of indolent cancers

Author

De Luise, Monica, primary, Girolimetti, Giulia, additional, Okere, Bernard, additional, Porcelli, Anna Maria, additional, Kurelac, Ivana, additional, and Gasparre, Giuseppe, additional

Published

2017

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

Author

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

Published

2017

23. 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

24. Targeting respiratory complex I to prevent the Warburg effect

Author

Vatrinet, Renaud, primary, Iommarini, Luisa, additional, Kurelac, Ivana, additional, De Luise, Monica, additional, Gasparre, Giuseppe, additional, and Porcelli, Anna Maria, additional

Published

2015

25. NDUFS3 depletion permits complex I maturation and reveals TMEM126A/OPA7 as an assembly factor binding the ND4-module intermediate.

Author

D'Angelo, Luigi, Astro, Elisa, De Luise, Monica, Kurelac, Ivana, Umesh-Ganesh, Nikkitha, Ding, Shujing, Fearnley, Ian M., Gasparre, Giuseppe, Zeviani, Massimo, Porcelli, Anna Maria, Fernandez-Vizarra, Erika, and Iommarini, Luisa

Abstract

Complex I (CI) is the largest enzyme of the mitochondrial respiratory chain, and its defects are the main cause of mitochondrial disease. To understand the mechanisms regulating the extremely intricate biogenesis of this fundamental bioenergetic machine, we analyze the structural and functional consequences of the ablation of NDUFS3, a non-catalytic core subunit. We show that, in diverse mammalian cell types, a small amount of functional CI can still be detected in the complete absence of NDUFS3. In addition, we determine the dynamics of CI disassembly when the amount of NDUFS3 is gradually decreased. The process of degradation of the complex occurs in a hierarchical and modular fashion in which the ND4 module remains stable and bound to TMEM126A. We, thus, uncover the function of TMEM126A, the product of a disease gene causing recessive optic atrophy as a factor necessary for the correct assembly and function of CI. [Display omitted] • A fraction of functional complex I assembles without the core subunit NDUFS3 • Complex I disassembly differentially affects its submodules • With NDUFS3 absent, the ND4-module of the P-distal domain remains mostly stable • The TMEM126A/OPA7 factor interacts with the ND4-module and is necessary for CI maturation D'Angelo et al. show that eliminating NDUFS3 does not completely abolish respiratory complex I maturation. Differential degradation of complex I subunits belonging to different structural/functional modules is triggered by NDUFS3 repression. The ND4 module remains stable and is bound to TMEM126A, which is, here, identified as a complex I assembly factor. [ABSTRACT FROM AUTHOR]

Published

2021

26. Papillary thyroid carcinoma tall cell variant shares accumulation of mitochondria, mitochondrial DNA mutations, and loss of oxidative phosphorylation complex I integrity with oncocytic tumors

Author

Manuel Sobrinho-Simões, Silke Haim, Leonardo Caporali, Monica De Luise, Oleksiy Tsybrovskyy, Dario de Biase, Giuseppe Gasparre, Valerio Carelli, Dominik Hackl, Claudio Fiorini, Giovanni Tallini, Larisa Imamovic, Tsybrovskyy, Oleksiy, De Luise, Monica, Biase, Dario, Caporali, Leonardo, Fiorini, Claudio, Gasparre, Giuseppe, Carelli, Valerio, Hackl, Dominik, Imamovic, Larisa, Haim, Silke, Sobrinho‐Simões, Manuel, and Tallini, Giovanni

Subjects

Mitochondrial DNA, endocrine system diseases, tall cell variant papillary carcinoma, oncocytic tumor, oncocytic tumors, Biology, Mitochondrion, medicine.disease_cause, DNA, Mitochondrial, Oxidative Phosphorylation, Pathology and Forensic Medicine, Thyroid carcinoma, medicine, Pathology, Humans, RB1-214, Thyroid Neoplasms, Prohibitin, mitochondrial DNA mutations, thyroid tumor diagnosis, Mutation, BRAF V600E, NDUFS4, Molecular biology, Carcinoma, Papillary, Heteroplasmy, mitochondria, mitochondrial DNA mutation, Thyroid Cancer, Papillary, papillary thyroid carcinoma, Neoplastic cell

Abstract

Papillary thyroid carcinoma tall cell variant (PTC-TCV), a form of PTC regarded as an aggressive subtype, shares several morphologic features with oncocytic tumors. Pathogenic homoplasmic/highly heteroplasmic somatic mitochondrial DNA (mtDNA) mutations, usually affecting oxidative phosphorylation (OXPHOS) complex I subunits, are hallmarks of oncocytic cells. To clarify the relationship between PTC-TCV and oncocytic thyroid tumors, 17 PTC-TCV and 16 PTC non-TCV controls (cPTC) were subjected to: (1) transmission electron microscopy (TEM) to assess mitochondria accumulation, (2) next-generation sequencing to analyze mtDNA and nuclear genes frequently mutated in thyroid carcinoma, and (3) immunohistochemistry (IHC) for prohibitin and complex I subunit NDUFS4 to evaluate OXPHOS integrity. TEM showed replacement of cytoplasm by mitochondria in PTC-TCV but not in cPTC cells. All 17 PTC-TCV had at least one mtDNA mutation, totaling 21 mutations; 3/16 cPTC (19%) had mtDNA mutations (p < 0.001). PTC-TCV mtDNA mutations were homoplasmic/highly heteroplasmic, 16/21 (76%) mapping within mtDNA-encoded complex I subunits. MtDNA mutations in cPTC were homoplasmic in 2 cases and at low heteroplasmy in the third case, 2/3 mapping to mtDNA-encoded complex I subunits; 2/3 cPTC with mtDNA mutations had small tall cell subpopulations. PTC-TCV showed strong prohibitin expression and cPTC low-level expression, consistent with massive and limited mitochondrial content, respectively. All 17 PTC-TCV showed NDUFS4 loss (partial or complete) and 3 of 16 cPTC (19%) had (partial) NDUFS4 loss, consistent with lack of complex I integrity in PTC-TCV (p < 0.001). IHC loss of NDUFS4 was associated with mtDNA mutations (p < 0.001). Four BRAF V600E mutated PTCs had loss of NDUSF4 expression limited to neoplastic cell subpopulations with tall cell features, indicating that PTCs first acquire BRAF V600E and then mtDNA mutations. Similar to oncocytic thyroid tumors, PTC-TCV is characterized by mtDNA mutations, massive accumulation of mitochondria, and loss of OXPHOS integrity. IHC loss of NDUFS-4 can be used as a surrogate marker for OXPHOS disruption and to reliably diagnose PTC-TCV.

Published

2022

27. NDUFS3 knockout cancer cells and molecular docking reveal specificity and mode of action of anti-cancer respiratory complex I inhibitors

Author

Ivana Kurelac, Beatrice Cavina, Manuela Sollazzo, Stefano Miglietta, Agnese Fornasa, Monica De Luise, Maria Iorio, Eleonora Lama, Daniele Traversa, Hamid Razi Nasiri, Anna Ghelli, Francesco Musiani, Anna Maria Porcelli, Luisa Iommarini, Giuseppe Gasparre, Kurelac, Ivana, Cavina, Beatrice, Sollazzo, Manuela, Miglietta, Stefano, Fornasa, Agnese, De Luise, Monica, Iorio, Maria, Lama, Eleonora, Traversa, Daniele, Nasiri, Hamid Razi, Ghelli, Anna, Musiani, Francesco, Porcelli, Anna Maria, Iommarini, Luisa, and Gasparre, Giuseppe

Subjects

complex I inhibitors, Electron Transport Complex I, General Neuroscience, Immunology, NADH Dehydrogenase, respiratory complex I, General Biochemistry, Genetics and Molecular Biology, Metformin, IACS-010759, Molecular Docking Simulation, BAY 87-2243, Neoplasms, Respiratory complex I, metformin, BAY 87-2243,EVP 4593, IACS-010759, complex I inhibitors,cancer therapy, Quinazolines, cancer therapy, Humans, EVP 4593

Abstract

Inhibition of respiratory complex I (CI) is becoming a promising anti-cancer strategy, encouraging the design and the use of inhibitors, whose mechanism of action, efficacy and specificity remain elusive. As CI is a central player of cellular bioenergetics, a finely tuned dosing of targeting drugs is required to avoid side effects. We compared the specificity and mode of action of CI inhibitors metformin, BAY 87-2243 and EVP 4593 using cancer cell models devoid of CI. Here we show that both BAY 87-2243 and EVP 4593 were selective, while the antiproliferative effects of metformin were considerably independent from CI inhibition. Molecular docking predictions indicated that the high efficiency of BAY 87-2243 and EVP 4593 may derive from the tight network of bonds in the quinone binding pocket, although in different sites. Most of the amino acids involved in such interactions are conserved across species and only rarely found mutated in human. Our data make a case for caution when referring to metformin as a CI-targeting compound, and highlight the need for dosage optimization and careful evaluation of molecular interactions between inhibitors and the holoenzyme. ispartof: OPEN BIOLOGY vol:12 issue:11 ispartof: location:England status: published

Published

2022

28. Inducing respiratory complex I impairment elicits an increase in PGC1α in ovarian cancer

Author

Monica De Luise, Manuela Sollazzo, Eleonora Lama, Camelia Alexandra Coadă, Licia Bressi, Maria Iorio, Beatrice Cavina, Luigi D’Angelo, Sara Milioni, Lorena Marchio, Stefano Miglietta, Sara Coluccelli, Greta Tedesco, Anna Ghelli, Silvia Lemma, Anna Myriam Perrone, Ivana Kurelac, Luisa Iommarini, Anna Maria Porcelli, Giuseppe Gasparre, De Luise, Monica, Sollazzo, Manuela, Lama, Eleonora, Coadă, Camelia Alexandra, Bressi, Licia, Iorio, Maria, Cavina, Beatrice, D’Angelo, Luigi, Milioni, Sara, Marchio, Lorena, Miglietta, Stefano, Coluccelli, Sara, Tedesco, Greta, Ghelli, Anna, Lemma, Silvia, Perrone, Anna Myriam, Kurelac, Ivana, Iommarini, Luisa, Porcelli, Anna Maria, and Gasparre, Giuseppe

Subjects

EXPRESSION, Ovarian Neoplasms, Science & Technology, Multidisciplinary, Electron Transport Complex I, Organelle Biogenesis, PGC-1-ALPHA, PGC1a, MITOCHONDRIAL BIOGENESIS, METABOLISM, Carcinoma, Ovarian Epithelial, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Oxidative Phosphorylation, Multidisciplinary Sciences, ALPHA, ovarian cancer, OXIDATIVE-PHOSPHORYLATION, CELLS, METASTASIS, REVEALS, Complex I, Science & Technology - Other Topics, Humans, Female

Abstract

Anticancer strategies aimed at inhibiting Complex I of the mitochondrial respiratory chain are increasingly being attempted in solid tumors, as functional oxidative phosphorylation is vital for cancer cells. Using ovarian cancer as a model, we show that a compensatory response to an energy crisis induced by Complex I genetic ablation or pharmacological inhibition is an increase in the mitochondrial biogenesis master regulator PGC1α, a pleiotropic coactivator of transcription regulating diverse biological processes within the cell. We associate this compensatory response to the increase in PGC1α target gene expression, setting the basis for the comprehension of the molecular pathways triggered by Complex I inhibition that may need attention as drawbacks before these approaches are implemented in ovarian cancer care. ispartof: SCIENTIFIC REPORTS vol:12 issue:1 ispartof: location:England status: published

Published

2022

29. Lung Tumor Growth Promotion by Tobacco-Specific Nitrosamines Involves the β2-Adrenergic Receptors-Dependent Stimulation of Mitochondrial REDOX Signaling

Author

Julien Izotte, Efterpi Nikitopoulou, Christian Frezza, Claude Lalou, Hamid Reza Rezvani, Stéphane Claverol, Rodrigue Rossignol, Saharnaz Sarlak, Monica De Luise, Ming Yang, Walid Mahfouf, Nivea Dias Amoedo, Benoit Rousseau, Marcus F. Oliveira, Didier Lacombe, Guiseppe Gasparre, Ana Carolina Bastos Sant'Anna-Silva, Sarlak, Saharnaz, Lalou, Claude, Sant'Anna-Silva, Ana Carolina B, Mafhouf, Walid, De Luise, Monica, Rousseau, Benoît, Izotte, Julien, Claverol, Stéphane, Lacombe, Didier, Nikitopoulou, Efterpi, Yang, Ming, Oliveira, Marcu, Frezza, Christian, Gasparre, Giuseppe, Rezvani, Hamid Reza, Amoedo, Nivea Dia, and Rossignol, Rodrigue

Subjects

Proteomics, Lung Neoplasms, Nitrosamines, Physiology, Clinical Biochemistry, Mitochondrion, medicine.disease_cause, Biochemistry, tobacco, lung, medicine, Humans, cancer, Tobacco-specific nitrosamines, Lung cancer, Molecular Biology, General Environmental Science, Chemistry, Cancer, bioenergetic, Cell Biology, TFAM, medicine.disease, Receptors, Adrenergic, mitochondria, Mitochondrial biogenesis, redox, Cancer research, Carcinogens, General Earth and Planetary Sciences, Signal transduction, Carcinogenesis, Oxidation-Reduction, Signal Transduction

Abstract

Aims: Lung cancer is the leading cause of cancer death worldwide, and tobacco smoking is a recognized major risk factor for lung tumor development. We analyzed the effect of tobacco-specific nitrosamines (TSNAs) on human lung adenocarcinoma metabolic reprogramming, an emergent hallmark of carcinogenesis. Results: A series of in vitro and in vivo bioenergetic, proteomic, metabolomic, and tumor biology studies were performed to analyze changes in lung cancer cell metabolism and the consequences for hallmarks of cancer, including tumor growth, cancer cell invasion, and redox signaling. The findings revealed that nicotine-derived nitrosamine ketone (NNK) stimulates mitochondrial function and promotes lung tumor growth in vivo. These malignant properties were acquired from the induction of mitochondrial biogenesis induced by the upregulation and activation of the beta-2 adrenergic receptors (β2-AR)-cholinergic receptor nicotinic alpha 7 subunit (CHRNAα7)-dependent nitrosamine canonical signaling pathway. The observed NNK metabolic effects were mediated by TFAM overexpression and revealed a key role for mitochondrial reactive oxygen species and Annexin A1 in tumor growth promotion. Conversely, ectopic expression of the mitochondrial antioxidant enzyme manganese superoxide dismutase rescued the reprogramming and malignant metabolic effects of exposure to NNK and overexpression of TFAM, underlining the link between NNK and mitochondrial redox signaling in lung cancer. Innovation: Our findings describe the metabolic changes caused by NNK in a mechanistic framework for understanding how cigarette smoking causes lung cancer. Conclusion: Mitochondria play a role in the promotion of lung cancer induced by tobacco-specific nitrosamines. Antioxid. Redox Signal. 36, 525-549.

Published

2022

30. Pathogenic Mitochondrial DNA Mutation Load Inversely Correlates with Malignant Features in Familial Oncocytic Parathyroid Tumors Associated with Hyperparathyroidism-Jaw Tumor Syndrome

Author

Nunzio Salfi, Daniela Turchetti, Ivana Kurelac, Lorena Marchio, Monica De Luise, Andrea Repaci, Uberto Pagotto, Greta Tedesco, Maria Lucia Tardio, Camelia Alexandra Coadă, Anna Maria Porcelli, Giuseppe Gasparre, Luisa Iommarini, De Luise, Monica, Iommarini, Luisa, Marchio, Lorena, Tedesco, Greta, Coadă, Camelia Alexandra, Repaci, Andrea, Turchetti, Daniela, Tardio, Maria Lucia, Salfi, Nunzio, Pagotto, Uberto, Kurelac, Ivana, Porcelli, Anna Maria, and Gasparre, Giuseppe

Subjects

Adenoma, Mitochondrial DNA, QH301-705.5, Somatic cell, Respiratory chain, Fibroma, Biology, medicine.disease_cause, respiratory complexe, DNA, Mitochondrial, Germline, Article, familial oncocytic tumors, respiratory complexes, medicine, Carcinoma, Humans, Biology (General), mitochondrial DNA mutations, parathyroid cancer, Mutation, Base Sequence, Hyperparathyroidism, Cancer, General Medicine, medicine.disease, Jaw Neoplasms, Hyperparathyroidism-Jaw Tumor Syndrome, familial oncocytic tumor, Parathyroid Neoplasms, Phenotype, mitochondrial DNA mutation, Cancer research, Ribosomes, hyperparathyroidism-jaw tumor syndrome

Abstract

While somatic disruptive mitochondrial DNA (mtDNA) mutations that severely affect the respiratory chain are counter-selected in most human neoplasms, they are the genetic hallmark of indolent oncocytomas, where they appear to contribute to reduce tumorigenic potential. A correlation between mtDNA mutation type and load, and the clinical outcome of a tumor, corroborated by functional studies, is currently lacking. Recurrent familial oncocytomas are extremely rare entities, and they offer the chance to investigate the determinants of oncocytic transformation and the role of both germline and somatic mtDNA mutations in cancer. We here report the first family with Hyperparathyroidism-Jaw Tumor (HPT-JT) syndrome showing the inherited predisposition of four individuals to develop parathyroid oncocytic tumors. MtDNA sequencing revealed a rare ribosomal RNA mutation in the germline of all HPT-JT affected individuals whose pathogenicity was functionally evaluated via cybridization technique, and which was counter-selected in the most aggressive infiltrating carcinoma, but positively selected in adenomas. In all tumors different somatic mutations accumulated on this genetic background, with an inverse clear-cut correlation between the load of pathogenic mtDNA mutations and the indolent behavior of neoplasms, highlighting the importance of the former both as modifiers of cancer fate and as prognostic markers.

Published

2021

31. NDUFS3 depletion permits complex I maturation and reveals TMEM126A/OPA7 as an assembly factor binding the ND4-module intermediate

Author

Anna Maria Porcelli, Giuseppe Gasparre, Ivana Kurelac, Erika Fernandez-Vizarra, Luigi D'Angelo, Shujing Ding, Nikkitha Umesh-Ganesh, Monica De Luise, Massimo Zeviani, Elisa Astro, Luisa Iommarini, Ian M. Fearnley, D’Angelo, Luigi, Astro, Elisa, De Luise, Monica, Kurelac, Ivana, Umesh-Ganesh, Nikkitha, Ding, Shujing, Fearnley, Ian M., Gasparre, Giuseppe, Zeviani, Massimo, Porcelli, Anna Maria, Fernandez-Vizarra, Erika, and Iommarini, Luisa

Subjects

Models, Molecular, Proteomics, 0301 basic medicine, Bioenergetics, Protein Conformation, NDUFS3, SILAC, Gene Knockout Techniques, Mice, 0302 clinical medicine, Models, Stable isotope labeling by amino acids in cell culture, Biology (General), Gene Editing, Disease gene, Tumor, Chemistry, CI, optic atrophy type 7, respiratory complex I CI NDUFS3 CI modules assembly factor TMEM126A SILAC optic atrophy type 7, Mitochondria, Cell biology, CI modules, TMEM126A, assembly factor, respiratory complex I, Animals, Binding Sites, CRISPR-Cas Systems, Cell Line, Tumor, Electron Transport Complex I, Gene Expression Regulation, HCT116 Cells, Humans, Melanocytes, Membrane Proteins, Mitochondrial Membranes, NADH Dehydrogenase, Optic Atrophy, Osteoblasts, Protein Binding, Mitochondrial respiratory chain, QH301-705.5, Protein subunit, Mitochondrial disease, Article, General Biochemistry, Genetics and Molecular Biology, Cell Line, 03 medical and health sciences, medicine, Molecular, medicine.disease, 030104 developmental biology, 030217 neurology & neurosurgery, Function (biology), Biogenesis

Abstract

Summary Complex I (CI) is the largest enzyme of the mitochondrial respiratory chain, and its defects are the main cause of mitochondrial disease. To understand the mechanisms regulating the extremely intricate biogenesis of this fundamental bioenergetic machine, we analyze the structural and functional consequences of the ablation of NDUFS3, a non-catalytic core subunit. We show that, in diverse mammalian cell types, a small amount of functional CI can still be detected in the complete absence of NDUFS3. In addition, we determine the dynamics of CI disassembly when the amount of NDUFS3 is gradually decreased. The process of degradation of the complex occurs in a hierarchical and modular fashion in which the ND4 module remains stable and bound to TMEM126A. We, thus, uncover the function of TMEM126A, the product of a disease gene causing recessive optic atrophy as a factor necessary for the correct assembly and function of CI., Graphical abstract, Highlights • A fraction of functional complex I assembles without the core subunit NDUFS3 • Complex I disassembly differentially affects its submodules • With NDUFS3 absent, the ND4-module of the P-distal domain remains mostly stable • The TMEM126A/OPA7 factor interacts with the ND4-module and is necessary for CI maturation, D’Angelo et al. show that eliminating NDUFS3 does not completely abolish respiratory complex I maturation. Differential degradation of complex I subunits belonging to different structural/functional modules is triggered by NDUFS3 repression. The ND4 module remains stable and is bound to TMEM126A, which is, here, identified as a complex I assembly factor.

Published

2021

32. Molecular and metabolic features of oncocytomas: Seeking the blueprints of indolent cancers

Author

Giulia Girolimetti, Anna Maria Porcelli, Monica De Luise, Giuseppe Gasparre, Bernard Okere, Ivana Kurelac, De Luise, Monica, Girolimetti, Giulia, Okere, Bernard, Porcelli, Anna Maria, Kurelac, Ivana, and Gasparre, Giuseppe

Subjects

0301 basic medicine, Biophysics, Mitochondrial DNA mutation, Translational research, Respiratory complex I, Biology, DNA, Mitochondrial, Models, Biological, Biochemistry, Mitochondrial Proteins, 03 medical and health sciences, 0302 clinical medicine, Oncocytic tumor, Respiratory Complex I, Mitophagy, Autophagy, Adenoma, Oxyphilic, Humans, Molecular Targeted Therapy, Benign neoplasms, Mitochondrial protein, Respiratory capacity, Genetics, Electron Transport Complex I, Organelle Biogenesis, Disease progression, Neoplasms, Second Primary, Cell Biology, Mitochondrial biogenesi, Mitochondria, Neoplasm Proteins, 3. Good health, Phenotype, 030104 developmental biology, 030220 oncology & carcinogenesis, Mutation, Disease Progression, Energy Metabolism, Neuroscience, METABOLIC FEATURES, Genes, Neoplasm

Abstract

Oncocytic tumors are a peculiar subset of human neoplasms in which mitochondria have been proven to have a prominent role. A number of paradoxes render these clinical entities interesting from the translational research point of view. Most oncocytic tumors are generally metabolically constrained due to the impaired respiratory capacity and lack of the ability to respond to hypoxia, yet they maintain features that allow them to strive and persist in an indolent form. Their unique molecular and metabolic characteristics are an object of investigation that may reveal novel ways for therapeutic strategies based on metabolic targeting. With this aim in mind, we here examine the current knowledge on oncocytomas and delve into the molecular causes and consequences that revolve around the oncocytic phenotype, to understand whether we can learn to design therapies from the dissection of benign neoplasms. This article is part of a Special Issue entitled Mitochondria in Cancer, edited by Giuseppe Gasparre, Rodrigue Rossignol and Pierre Sonveaux.

Published

2017

33. 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

34. A Nonsense Mitochondrial DNA Mutation Associates with Dysfunction of HIF1α in a Von Hippel-Lindau Renal Oncocytoma

Author

Vito Guarnieri, Monica De Luise, Giuseppe Gasparre, Anna Maria Porcelli, Claudio Ceccarelli, Leonardo D'Agruma, De Luise, Monica, Guarnieri, Vito, Ceccarelli, Claudio, D’Agruma, Leonardo, Porcelli, Anna Maria, and Gasparre, Giuseppe

Subjects

Adenoma, Adult, Male, Aging, Mitochondrial DNA, von Hippel-Lindau Disease, Article Subject, Respiratory chain, medicine.disease_cause, alpha Subunit, urologic and male genital diseases, Biochemistry, VHL, medicine, Cytochrome c oxidase, Neoplasm, Humans, lcsh:QH573-671, Renal oncocytoma, Codon, mtDNA mutations, HIF1a, hypoxia, Mutation, biology, Chemistry, lcsh:Cytology, Oxyphilic, Glucose transporter, Cell Biology, General Medicine, DNA, medicine.disease, Kidney Neoplasms, Mitochondrial, Nonsense, Adenoma, Oxyphilic, Codon, Nonsense, DNA, Mitochondrial, Hypoxia-Inducible Factor 1, alpha Subunit, biology.protein, Cancer research, GLUT1, Hypoxia-Inducible Factor 1, renal oncocytoma

Abstract

The Von Hippel-Lindau (VHL) syndrome has been rarely associated with renal oncocytomas, and tumors usually show HIF1α chronic stabilization. By contrast, oncocytomas mainly associated with respiratory chain (RC) defects due to severe mitochondrial DNA (mtDNA) mutations are incapable of stabilizing HIF1α, since oxygen consumption by the RC is dramatically diminished and prolylhydroxylase activity is increased by α-ketoglutarate accumulation following Krebs cycle slowdown. Here, we investigate the cooccurrence of a pseudohypoxic condition with oncocytic transformation in a case of VHL-associated renal oncocytoma. While HIF1α was abundant in nuclei concordantly with defects in VHL, negative staining of its targets carbonic anhydrase IX (CAIX) and glucose transporter GLUT1, usually overexpressed in VHL-associated neoplasms, suggested HIF1α to be present in its inactive (hydroxylated) form. MtDNA sequencing and immunohistochemistry analyses revealed a MT-CO1 stop-gain mutation and cytochrome c oxidase loss. We suggest that a mitochondrial respiration impairment may lead to hyperhydroxylation of the transcription factor, which we confirmed by specific staining of hydroxylated HIF1α. Such inactive form hence accumulated in the VHL-deficient tumor, where it may contribute to the benign nature of the neoplasm. We propose that the protumorigenic role of HIF1α in VHL cancers may be blunted through drugs inhibiting mitochondrial respiratory complexes, such as metformin.

Published

2019

35. 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

36. Update of penetrance estimates in Birt-Hogg-Dubé syndrome.

Author

Bruinsma FJ, Dowty JG, Win AK, Goddard LC, Agrawal P, Attina' D, Bissada N, De Luise M, Eisen DB, Furuya M, Gasparre G, Genuardi M, Gerdes AM, Hansen TVO, Houweling AC, Johannesma PC, Lencastre A, Lim D, Lindor NM, Luzzi V, Lynch M, Maffé A, Menko FH, Michels G, Pulido JS, Ryu JH, Sattler EC, Steinlein OK, Tomassetti S, Tucker K, Turchetti D, van de Beek I, van Riel L, van Steensel M, Zenone T, Zompatori M, Walsh J, Bondavalli D, Maher ER, and Winship IM

Subjects

Humans, Male, Female, Aged, Penetrance, Proto-Oncogene Proteins genetics, Tumor Suppressor Proteins genetics, Birt-Hogg-Dube Syndrome genetics, Birt-Hogg-Dube Syndrome pathology, Colonic Polyps, Kidney Neoplasms epidemiology, Kidney Neoplasms genetics, Carcinoma, Renal Cell epidemiology, Carcinoma, Renal Cell genetics

Abstract

Background: Birt-Hogg-Dubé (BHD) syndrome is a rare genetic syndrome caused by pathogenic or likely pathogenic germline variants in the FLCN gene. Patients with BHD syndrome have an increased risk of fibrofolliculomas, pulmonary cysts, pneumothorax and renal cell carcinoma. There is debate regarding whether colonic polyps should be added to the criteria. Previous risk estimates have mostly been based on small clinical case series., Methods: A comprehensive review was conducted to identify studies that had recruited families carrying pathogenic or likely pathogenic variants in FLCN . Pedigree data were requested from these studies and pooled. Segregation analysis was used to estimate the cumulative risk of each manifestation for carriers of FLCN pathogenic variants., Results: Our final dataset contained 204 families that were informative for at least one manifestation of BHD (67 families informative for skin manifestations, 63 for lung, 88 for renal carcinoma and 29 for polyps). By age 70 years, male carriers of the FLCN variant have an estimated 19% (95% CI 12% to 31%) risk of renal tumours, 87% (95% CI 80% to 92%) of lung involvement and 87% (95% CI 78% to 93%) of skin lesions, while female carriers had an estimated 21% (95% CI 13% to 32%) risk of renal tumours, 82% (95% CI 73% to 88%) of lung involvement and 78% (95% CI 67% to 85%) of skin lesions. The cumulative risk of colonic polyps by age 70 years old was 21% (95% CI 8% to 45%) for male carriers and 32% (95% CI 16% to 53%) for female carriers., Conclusions: These updated penetrance estimates, based on a large number of families, are important for the genetic counselling and clinical management of BHD syndrome., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2023. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2023

37. Contribution of ultrarare variants in mTOR pathway genes to sporadic focal epilepsies.

Author

Pippucci T, Licchetta L, Baldassari S, Marconi C, De Luise M, Myers C, Nardi E, Provini F, Cameli C, Minardi R, Bacchelli E, Giordano L, Crichiutti G, d'Orsi G, Seri M, Gasparre G, Mefford HC, Tinuper P, and Bisulli F

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, GTPase-Activating Proteins genetics, Genetic Predisposition to Disease, Humans, Infant, Male, Middle Aged, Multiprotein Complexes genetics, Signal Transduction, Tuberous Sclerosis Complex 1 Protein genetics, Tuberous Sclerosis Complex 2 Protein genetics, Exome Sequencing, Epilepsies, Partial genetics, Genomic Structural Variation genetics, Mechanistic Target of Rapamycin Complex 1 genetics

Abstract

Objective: We investigated the contribution to sporadic focal epilepsies (FE) of ultrarare variants in genes coding for the components of complexes regulating mechanistic Target Of Rapamycin (mTOR)complex 1 (mTORC1)., Methods: We collected genetic data of 121 Italian isolated FE cases and 512 controls by Whole Exome Sequencing (WES) and single-molecule Molecular Inversion Probes (smMIPs) targeting 10 genes of the GATOR1, GATOR2, and TSC complexes. We collapsed "qualifying" variants (ultrarare and predicted to be deleterious or loss of function) across the examined genes and sought to identify their enrichment in cases compared to controls., Results: We found eight qualifying variants in cases and nine in controls, demonstrating enrichment in FE patients ( P  = 0.006; exact unconditional test, one-tailed). Pathogenic variants were identified in DEPDC5 and TSC2, both major genes for Mendelian FE syndromes., Interpretation: Our findings support the contribution of ultrarare variants in genes in the mTOR pathway complexes GATOR and TSC to the risk of sporadic FE and a shared genetic basis between rare and common epilepsies. The identification of a monogenic etiology in isolated cases, most typically encountered in clinical practice, may offer to a broader community of patients the perspective of precision therapies directed by the underlying genetic cause., Competing Interests: The authors report no disclosures.

Published

2019

38. A Nonsense Mitochondrial DNA Mutation Associates with Dysfunction of HIF1 α in a Von Hippel-Lindau Renal Oncocytoma.

Author

De Luise M, Guarnieri V, Ceccarelli C, D'Agruma L, Porcelli AM, and Gasparre G

Subjects

Adenoma, Oxyphilic pathology, Adult, Humans, Hypoxia-Inducible Factor 1, alpha Subunit genetics, Kidney Neoplasms pathology, Male, Mutation, von Hippel-Lindau Disease pathology, Adenoma, Oxyphilic genetics, Codon, Nonsense genetics, DNA, Mitochondrial genetics, Kidney Neoplasms genetics, von Hippel-Lindau Disease genetics

Abstract

The Von Hippel-Lindau (VHL) syndrome has been rarely associated with renal oncocytomas, and tumors usually show HIF1 α chronic stabilization. By contrast, oncocytomas mainly associated with respiratory chain (RC) defects due to severe mitochondrial DNA (mtDNA) mutations are incapable of stabilizing HIF1 α , since oxygen consumption by the RC is dramatically diminished and prolylhydroxylase activity is increased by α -ketoglutarate accumulation following Krebs cycle slowdown. Here, we investigate the cooccurrence of a pseudohypoxic condition with oncocytic transformation in a case of VHL-associated renal oncocytoma. While HIF1 α was abundant in nuclei concordantly with defects in VHL, negative staining of its targets carbonic anhydrase IX (CAIX) and glucose transporter GLUT1, usually overexpressed in VHL-associated neoplasms, suggested HIF1 α to be present in its inactive (hydroxylated) form. MtDNA sequencing and immunohistochemistry analyses revealed a MT-CO1 stop-gain mutation and cytochrome c oxidase loss. We suggest that a mitochondrial respiration impairment may lead to hyperhydroxylation of the transcription factor, which we confirmed by specific staining of hydroxylated HIF1 α . Such inactive form hence accumulated in the VHL-deficient tumor, where it may contribute to the benign nature of the neoplasm. We propose that the protumorigenic role of HIF1 α in VHL cancers may be blunted through drugs inhibiting mitochondrial respiratory complexes, such as metformin.

Published

2019