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178 results on '"Massimino, L."'

1. Idiopathic erythrocytosis: a germline disease?

Author

Elli, E. M., Mauri, M., D’Aliberti, D., Crespiatico, I., Fontana, D., Redaelli, S., Pelucchi, S., Spinelli, S., Manghisi, B., Cavalca, F., Aroldi, A., Ripamonti, A., Ferrari, S., Palamini, S., Mottadelli, F., Massimino, L., Ramazzotti, D., Cazzaniga, G., Piperno, A., Gambacorti-Passerini, C., and Piazza, R.

Published
2024
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2. Idiopathic erythrocytosis: a germline disease?

Author

Elli, E, Mauri, M, D’Aliberti, D, Crespiatico, I, Fontana, D, Redaelli, S, Pelucchi, S, Spinelli, S, Manghisi, B, Cavalca, F, Aroldi, A, Ripamonti, A, Ferrari, S, Palamini, S, Mottadelli, F, Massimino, L, Ramazzotti, D, Cazzaniga, G, Piperno, A, Gambacorti-Passerini, C, Piazza, R, Elli, E. M., Mauri, M., D’Aliberti, D., Crespiatico, I., Fontana, D., Redaelli, S., Pelucchi, S., Spinelli, S., Manghisi, B., Cavalca, F., Aroldi, A., Ripamonti, A., Ferrari, S., Palamini, S., Mottadelli, F., Massimino, L., Ramazzotti, D., Cazzaniga, G., Piperno, A., Gambacorti-Passerini, C., Piazza, R., Elli, E, Mauri, M, D’Aliberti, D, Crespiatico, I, Fontana, D, Redaelli, S, Pelucchi, S, Spinelli, S, Manghisi, B, Cavalca, F, Aroldi, A, Ripamonti, A, Ferrari, S, Palamini, S, Mottadelli, F, Massimino, L, Ramazzotti, D, Cazzaniga, G, Piperno, A, Gambacorti-Passerini, C, Piazza, R, Elli, E. M., Mauri, M., D’Aliberti, D., Crespiatico, I., Fontana, D., Redaelli, S., Pelucchi, S., Spinelli, S., Manghisi, B., Cavalca, F., Aroldi, A., Ripamonti, A., Ferrari, S., Palamini, S., Mottadelli, F., Massimino, L., Ramazzotti, D., Cazzaniga, G., Piperno, A., Gambacorti-Passerini, C., and Piazza, R.

Abstract

Polycythemia Vera (PV) is typically caused by V617F or exon 12 JAK2 mutations. Little is known about Polycythemia cases where no JAK2 variants can be detected, and no other causes identified. This condition is defined as idiopathic erythrocytosis (IE). We evaluated clinical-laboratory parameters of a cohort of 56 IE patients and we determined their molecular profile at diagnosis with paired blood/buccal-DNA exome-sequencing coupled with a high-depth targeted OncoPanel to identify a possible underling germline or somatic cause. We demonstrated that most of our cohort (40/56: 71.4%) showed no evidence of clonal hematopoiesis, suggesting that IE is, in large part, a germline disorder. We identified 20 low mutation burden somatic variants (Variant allelic fraction, VAF, < 10%) in only 14 (25%) patients, principally involving DNMT3A and TET2. Only 2 patients presented high mutation burden somatic variants, involving DNMT3A, TET2, ASXL1 and WT1. We identified recurrent germline variants in 42 (75%) patients occurring mainly in JAK/STAT, Hypoxia and Iron metabolism pathways, among them: JAK3-V722I and HIF1A-P582S; a high fraction of patients (48.2%) resulted also mutated in homeostatic iron regulatory gene HFE-H63D or C282Y. By generating cellular models, we showed that JAK3-V722I causes activation of the JAK-STAT5 axis and upregulation of EPAS1/HIF2A, while HIF1A-P582S causes suppression of hepcidin mRNA synthesis, suggesting a major role for these variants in the onset of IE.

Published
2024

9. P1036 Persistence of biologics and advanced small molecules in 4th, 5th and 6th line of therapy for inflammatory bowel disease: a cross-sectional retrospective study

Author

Parigi, T L, primary, Massimino, L, additional, Carini, A, additional, Allocca, M, additional, D'Amico, F, additional, Furfaro, F, additional, Zilli, A, additional, Cagliani, S, additional, Errico, C, additional, Facoetti, A, additional, Nicolò, S, additional, Peyrin-Biroulet, L, additional, and Danese, S, additional

Published
2024
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10. Aberrant L-Fucose Accumulation and Increased Core Fucosylation Are Metabolic Liabilities in Mesenchymal Glioblastoma

Author

Pieri, V, Gallotti, A, Drago, D, Cominelli, M, Pagano, I, Conti, V, Valtorta, S, Coliva, A, Lago, S, Michelatti, D, Massimino, L, Ungaro, F, Perani, L, Spinelli, A, Castellano, A, Falini, A, Zippo, A, Poliani, P, Moresco, R, Andolfo, A, Galli, R, Pieri V., Gallotti A. L., Drago D., Cominelli M., Pagano I., Conti V., Valtorta S., Coliva A., Lago S., Michelatti D., Massimino L., Ungaro F., Perani L., Spinelli A., Castellano A., Falini A., Zippo A., Poliani P. L., Moresco R. M., Andolfo A., Galli R., Pieri, V, Gallotti, A, Drago, D, Cominelli, M, Pagano, I, Conti, V, Valtorta, S, Coliva, A, Lago, S, Michelatti, D, Massimino, L, Ungaro, F, Perani, L, Spinelli, A, Castellano, A, Falini, A, Zippo, A, Poliani, P, Moresco, R, Andolfo, A, Galli, R, Pieri V., Gallotti A. L., Drago D., Cominelli M., Pagano I., Conti V., Valtorta S., Coliva A., Lago S., Michelatti D., Massimino L., Ungaro F., Perani L., Spinelli A., Castellano A., Falini A., Zippo A., Poliani P. L., Moresco R. M., Andolfo A., and Galli R.

Abstract

Glioblastoma (GBM) is a common and deadly form of brain tumor in adults. Dysregulated metabolism in GBM offers an opportunity to deploy metabolic interventions as precise therapeutic strategies. To identify the molecular drivers and the modalities by which different molecular subgroups of GBM exploit metabolic rewiring to sustain tumor progression, we interrogated the transcriptome, the metabolome, and the glycoproteome of human subgroup-specific GBM sphere-forming cells (GSC). L-fucose abundance and core fucosylation activation were elevated in mesenchymal (MES) compared with proneural GSCs; this pattern was retained in subgroup-specific xenografts and in subgroup-affiliated human patient samples. Genetic and pharmacological inhibition of core fucosylation significantly reduced tumor growth in MES GBM preclinical models. Liquid chromatography-mass spectrometry (LC-MS)–based glycoproteomic screening indicated that most MES-restricted core-fucosylated proteins are involved in therapeutically relevant GBM pathological processes, such as extracellular matrix interaction, cell adhesion, and integrin-mediated signaling. Selective L-fucose accumulation in MES GBMs was observed using preclinical minimally invasive PET, implicating this metabolite as a potential subgroup-restricted biomarker. Overall, these findings indicate that L-fucose pathway activation in MES GBM is a subgroup-specific dependency that could provide diagnostic markers and actionable therapeutic targets.

Published
2023

11. Propofol-based sedation managed by gastroenterologist versus deep sedation during endoscopic procedures in low anesthesiological risk patients (ASA I-II): a propensity score-matched comparison in a single tertiary center

Author

Mandarino, F. V., additional, Biamonte, P., additional, Salmeri, N., additional, Barchi, A., additional, Massimino, L., additional, Azzolini, F., additional, Fanti, L., additional, Viale, E., additional, Esposito, D., additional, Agostoni, M., additional, and Danese, S., additional

Published
2023
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12. Gut virome-colonising Orthohepadnavirus genus is associated with ulcerative colitis pathogenesis and induces intestinal inflammation in vivo

Author

Massimino, L, Palmieri, O, Facoetti, A, Fuggetta, D, Spanò, S, Lamparelli, L, D'Alessio, S, Cagliani, S, Furfaro, F, D'Amico, F, Zilli, A, Fiorino, G, Parigi, T, Noviello, D, Latiano, A, Bossa, F, Latiano, T, Pirola, A, Mologni, L, Piazza, R, Abbati, D, Perri, F, Bonini, C, Peyrin-Biroulet, L, Malesci, A, Jairath, V, Danese, S, Ungaro, F, Massimino, Luca, Palmieri, Orazio, Facoetti, Amanda, Fuggetta, Davide, Spanò, Salvatore, Lamparelli, Luigi Antonio, D'Alessio, Silvia, Cagliani, Stefania, Furfaro, Federica, D'Amico, Ferdinando, Zilli, Alessandra, Fiorino, Gionata, Parigi, Tommaso Lorenzo, Noviello, Daniele, Latiano, Anna, Bossa, Fabrizio, Latiano, Tiziana, Pirola, Alessandra, Mologni, Luca, Piazza, Rocco Giovanni, Abbati, Danilo, Perri, Francesco, Bonini, Chiara, Peyrin-Biroulet, Laurent, Malesci, Alberto, Jairath, Vipul, Danese, Silvio, Ungaro, Federica, Massimino, L, Palmieri, O, Facoetti, A, Fuggetta, D, Spanò, S, Lamparelli, L, D'Alessio, S, Cagliani, S, Furfaro, F, D'Amico, F, Zilli, A, Fiorino, G, Parigi, T, Noviello, D, Latiano, A, Bossa, F, Latiano, T, Pirola, A, Mologni, L, Piazza, R, Abbati, D, Perri, F, Bonini, C, Peyrin-Biroulet, L, Malesci, A, Jairath, V, Danese, S, Ungaro, F, Massimino, Luca, Palmieri, Orazio, Facoetti, Amanda, Fuggetta, Davide, Spanò, Salvatore, Lamparelli, Luigi Antonio, D'Alessio, Silvia, Cagliani, Stefania, Furfaro, Federica, D'Amico, Ferdinando, Zilli, Alessandra, Fiorino, Gionata, Parigi, Tommaso Lorenzo, Noviello, Daniele, Latiano, Anna, Bossa, Fabrizio, Latiano, Tiziana, Pirola, Alessandra, Mologni, Luca, Piazza, Rocco Giovanni, Abbati, Danilo, Perri, Francesco, Bonini, Chiara, Peyrin-Biroulet, Laurent, Malesci, Alberto, Jairath, Vipul, Danese, Silvio, and Ungaro, Federica

Abstract

Objectives: Ulcerative colitis (UC) is a chronic inflammatory disorder of unknown aetiology. Gut virome dysbiosis is fundamental in UC progression, although its role in the early phases of the disease is far from fully understood. Therefore, we sought to investigate the role of a virome-associated protein encoded by the Orthohepadnavirus genus, the hepatitis B virus X protein (HBx), in UC aetiopathogenesis. Design: HBx positivity of UC patient-derived blood and gut mucosa was assessed by RT-PCR and Sanger sequencing and correlated with clinical characteristics by multivariate analysis. Transcriptomics was performed on HBx-overexpressing endoscopic biopsies from healthy donors. C57BL/6 mice underwent intramucosal injections of liposome-conjugated HBx-encoding plasmids or the control, with or without antibiotic treatment. Multidimensional flow cytometry analysis was performed on colonic samples from HBx-treated and control animals. Transepithelial electrical resistance measurement, proliferation assay, chromatin immunoprecipitation assay with sequencing and RNA-sequencing were performed on in vitro models of the gut barrier. HBx-silencing experiments were performed in vitro and in vivo. Results: HBx was detected in about 45% of patients with UC and found to induce colonic inflammation in mice, while its silencing reverted the colitis phenotype in vivo. HBx acted as a transcriptional regulator in epithelial cells, provoking barrier leakage and altering both innate and adaptive mucosal immunity ex vivo and in vivo. Conclusion: This study described HBx as a contributor to the UC pathogenesis and provides a new perspective on the virome as a target for tailored treatments.

Published
2023

13. Balanced SET levels favor the correct enhancer repertoire during cell fate acquisition

Author

Zaghi, M, Banfi, F, Massimino, L, Volpin, M, Bellini, E, Brusco, S, Merelli, I, Barone, C, Bruni, M, Bossini, L, Lamparelli, L, Pintado, L, D'Aliberti, D, Spinelli, S, Mologni, L, Colasante, G, Ungaro, F, Cioni, J, Azzoni, E, Piazza, R, Montini, E, Broccoli, V, Sessa, A, Zaghi, Mattia, Banfi, Federica, Massimino, Luca, Volpin, Monica, Bellini, Edoardo, Brusco, Simone, Merelli, Ivan, Barone, Cristiana, Bruni, Michela, Bossini, Linda, Lamparelli, Luigi Antonio, Pintado, Laura, D'Aliberti, Deborah, Spinelli, Silvia, Mologni, Luca, Colasante, Gaia, Ungaro, Federica, Cioni, Jean-Michel, Azzoni, Emanuele, Piazza, Rocco, Montini, Eugenio, Broccoli, Vania, Sessa, Alessandro, Zaghi, M, Banfi, F, Massimino, L, Volpin, M, Bellini, E, Brusco, S, Merelli, I, Barone, C, Bruni, M, Bossini, L, Lamparelli, L, Pintado, L, D'Aliberti, D, Spinelli, S, Mologni, L, Colasante, G, Ungaro, F, Cioni, J, Azzoni, E, Piazza, R, Montini, E, Broccoli, V, Sessa, A, Zaghi, Mattia, Banfi, Federica, Massimino, Luca, Volpin, Monica, Bellini, Edoardo, Brusco, Simone, Merelli, Ivan, Barone, Cristiana, Bruni, Michela, Bossini, Linda, Lamparelli, Luigi Antonio, Pintado, Laura, D'Aliberti, Deborah, Spinelli, Silvia, Mologni, Luca, Colasante, Gaia, Ungaro, Federica, Cioni, Jean-Michel, Azzoni, Emanuele, Piazza, Rocco, Montini, Eugenio, Broccoli, Vania, and Sessa, Alessandro

Abstract

Within the chromatin, distal elements interact with promoters to regulate specific transcriptional programs. Histone acetylation, interfering with the net charges of the nucleosomes, is a key player in this regulation. Here, we report that the oncoprotein SET is a critical determinant for the levels of histone acetylation within enhancers. We disclose that a condition in which SET is accumulated, the severe Schinzel-Giedion Syndrome (SGS), is characterized by a failure in the usage of the distal regulatory regions typically employed during fate commitment. This is accompanied by the usage of alternative enhancers leading to a massive rewiring of the distal control of the gene transcription. This represents a (mal)adaptive mechanism that, on one side, allows to achieve a certain degree of differentiation, while on the other affects the fine and corrected maturation of the cells. Thus, we propose the differential in cis-regulation as a contributing factor to the pathological basis of SGS and possibly other the SET-related disorders in humans.

Published
2023

14. T.08.9 PROPOFOL-BASED SEDATION MANAGED BY GASTROENTEROLOGIST VERSUS DEEP SEDATION DURING ENDOSCOPIC PROCEDURES IN LOW ANESTHESIOLOGICAL RISK PATIENTS (ASA I-II): A PROPENSITY SCORE-MATCHED COMPARISON IN A SINGLE TERTIARY CENTER

Author

Mandarino, F.V., primary, Biamonte, P., additional, Salmeri, N., additional, Massimino, L., additional, Barchi, A., additional, Azzolini, F., additional, Fanti, L., additional, Viale, E., additional, Esposito, D., additional, Agostoni, M., additional, and Danese, S., additional

Published
2023
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16. OP32 The gut virome-colonizing Orthohepadnavirus genus is associated with ulcerative colitis pathogenesis and induces intestinal inflammation in vivo

Author

Facoetti, A, primary, Massimino, L, additional, Palmieri, O, additional, Fuggetta, D, additional, Spanò, S, additional, D'Alessio, S, additional, Furfaro, F, additional, D'Amico, F, additional, ZIlli, A, additional, Fiorino, G, additional, Noviello, D, additional, Latiano, A, additional, Bossa, F, additional, Pirola, A, additional, Mologni, L, additional, Piazza, R, additional, Abbati, D, additional, Perri, F, additional, Bonini, C, additional, Peyrin-Biroulet, L, additional, Malesci, A, additional, Danese, S, additional, and Ungaro, F, additional

Published
2023
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17. SETBP1 accumulation induces P53 inhibition and genotoxic stress in neural progenitors underlying neurodegeneration in Schinzel-Giedion syndrome

Author

Banfi, F, Rubio, A, Zaghi, M, Massimino, L, Fagnocchi, G, Bellini, E, Luoni, M, Cancellieri, C, Bagliani, A, Di Resta, C, Maffezzini, C, Ianielli, A, Ferrari, M, Piazza, R, Mologni, L, Broccoli, V, Sessa, A, Banfi F., Rubio A., Zaghi M., Massimino L., Fagnocchi G., Bellini E., Luoni M., Cancellieri C., Bagliani A., Di Resta C., Maffezzini C., Ianielli A., Ferrari M., Piazza R., Mologni L., Broccoli V., Sessa A., Banfi, F, Rubio, A, Zaghi, M, Massimino, L, Fagnocchi, G, Bellini, E, Luoni, M, Cancellieri, C, Bagliani, A, Di Resta, C, Maffezzini, C, Ianielli, A, Ferrari, M, Piazza, R, Mologni, L, Broccoli, V, Sessa, A, Banfi F., Rubio A., Zaghi M., Massimino L., Fagnocchi G., Bellini E., Luoni M., Cancellieri C., Bagliani A., Di Resta C., Maffezzini C., Ianielli A., Ferrari M., Piazza R., Mologni L., Broccoli V., and Sessa A.

Abstract

The investigation of genetic forms of juvenile neurodegeneration could shed light on the causative mechanisms of neuronal loss. Schinzel-Giedion syndrome (SGS) is a fatal developmental syndrome caused by mutations in the SETBP1 gene, inducing the accumulation of its protein product. SGS features multi-organ involvement with severe intellectual and physical deficits due, at least in part, to early neurodegeneration. Here we introduce a human SGS model that displays disease-relevant phenotypes. We show that SGS neural progenitors exhibit aberrant proliferation, deregulation of oncogenes and suppressors, unresolved DNA damage, and resistance to apoptosis. Mechanistically, we demonstrate that high SETBP1 levels inhibit P53 function through the stabilization of SET, which in turn hinders P53 acetylation. We find that the inheritance of unresolved DNA damage in SGS neurons triggers the neurodegenerative process that can be alleviated either by PARP-1 inhibition or by NAD + supplementation. These results implicate that neuronal death in SGS originates from developmental alterations mainly in safeguarding cell identity and homeostasis.

Published
2021

19. Systemic exposure to air pollution induces oxidative stress and inflammation in mouse brain, contributing to neurodegeneration onset

Author

Milani, C, Farina, F, Botto, L, Massimino, L, Lonati, E, Donzelli, E, Ballarini, E, Crippa, L, Marmiroli, P, Bulbarelli, A, Palestini, P, Milani C., Farina F., Botto L., Massimino L., Lonati E., Donzelli E., Ballarini E., Crippa L., Marmiroli P., Bulbarelli A., Palestini P., Milani, C, Farina, F, Botto, L, Massimino, L, Lonati, E, Donzelli, E, Ballarini, E, Crippa, L, Marmiroli, P, Bulbarelli, A, Palestini, P, Milani C., Farina F., Botto L., Massimino L., Lonati E., Donzelli E., Ballarini E., Crippa L., Marmiroli P., Bulbarelli A., and Palestini P.

Abstract

In northern Italy, biomass burning-derived (BB) particles and diesel exhaust particles (DEP) are considered the most significant contributors to ultrafine particle (UFP) emission. However, a comparison between their impact on different brain regions was not investigated until now. Therefore, male BALB/c mice were treated with a single or three consecutive intratracheal instillations using 50 µg of UFPs in 100 µL of isotonic saline solution or 100 µL of isotonic saline solution alone, and brains were collected and analyzed. Proteins related to oxidative stress and inflammation, as well as Alzheimer’s disease markers, were examined in the hippocampus, cerebellum, and the rest of the brain (RoB). Histopathological examination of the brain was also performed. Moreover, correlations among different brain, pulmonary, and cardiovascular markers were performed, allowing us to identify the potentially most stressful UFP source. Although both acute exposures induced inflammatory pathways in mouse brain, only DEP showed strong oxidative stress. The sub-acute exposure also induced the modulation of APP and BACE1 protein levels for both UFPs. We observed that DEP exposure is more harmful than BB, and this different response could be explained by this UFP’s different chemical composition and reactivity.

Published
2020

20. Changes in body composition during neoadjuvant therapy can affect prognosis in rectal cancer patients: An exploratory study

Author

De Nardi, P, Salandini, M, Chiari, D, Pecorelli, N, Cristel, G, Damascelli, A, Ronzoni, M, Massimino, L, De Cobelli, F, Braga, M, De Nardi P., Salandini M., Chiari D., Pecorelli N., Cristel G., Damascelli A., Ronzoni M., Massimino L., De Cobelli F., Braga M., De Nardi, P, Salandini, M, Chiari, D, Pecorelli, N, Cristel, G, Damascelli, A, Ronzoni, M, Massimino, L, De Cobelli, F, Braga, M, De Nardi P., Salandini M., Chiari D., Pecorelli N., Cristel G., Damascelli A., Ronzoni M., Massimino L., De Cobelli F., and Braga M.

Abstract

Aim: To establish the correlation between changes in body composition after neoadjuvant chemoradiotherapy (nCRT) and postoperative outcomes, in patients with advanced low rectal cancer. Methods: Patients with clinical stage T≥3 or N+ rectal cancer who underwent nCRT and surgical resection were studied. Skeletal muscle, visceral, and subcutaneous fat cross-sectional area were measured by computed tomography before and after nCRT. Postoperative morbidity, pathologic response to nCRT, overall and disease-free survival was assessed. Results: Fifty-two patients, median age 62 (range 32-79) were studied. A skeletal muscle loss >2% significantly correlated with a shorter disease-free survival both in the overall population (P = 0.048) and in the subgroup of N0 patients (P = 0.048). A subcutaneous fat loss >5% was also associated with a shorter disease-free survival (P = 0.012) in the whole population. Conclusions: Skeletal muscle loss, after neoadjuvant chemoradiotherapy, negatively impacts on disease-free survival in surgically treated rectal cancer patients.

Published
2020

21. ETNK1 mutations induce a mutator phenotype that can be reverted with phosphoethanolamine

Author

Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Gambacorti-Passerini, C, Piazza, R, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Gambacorti-Passerini C., Piazza R., Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Gambacorti-Passerini, C, Piazza, R, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Gambacorti-Passerini C., and Piazza R.

Abstract

Recurrent somatic mutations in ETNK1 (Ethanolamine-Kinase-1) were identified in several myeloid malignancies and are responsible for a reduced enzymatic activity. Here, we demonstrate in primary leukemic cells and in cell lines that mutated ETNK1 causes a significant increase in mitochondrial activity, ROS production, and Histone H2AX phosphorylation, ultimately driving the increased accumulation of new mutations. We also show that phosphoethanolamine, the metabolic product of ETNK1, negatively controls mitochondrial activity through a direct competition with succinate at mitochondrial complex II. Hence, reduced intracellular phosphoethanolamine causes mitochondria hyperactivation, ROS production, and DNA damage. Treatment with phosphoethanolamine is able to counteract complex II hyperactivation and to restore a normal phenotype.

Published
2020

22. ETNK1 mutations in atypical chronic myeloid leukemia induce a mutator phenotype that can be reverted with phosphoethanolamine

Author

Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Piazza, R, Gambacorti-Passerini, C, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Piazza R., Gambacorti-Passerini C., Fontana, D, Mauri, M, Renso, R, Docci, M, Crespiatico, I, Rost, L, Jang, M, Niro, A, D'Aliberti, D, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Fanelli, F, Cassina, V, Corti, R, Salerno, D, Nardo, L, Chinello, C, Mantegazza, F, Mecucci, C, Magni, F, Cavaletti, G, Bruheim, P, Rea, D, Larsen, S, Piazza, R, Gambacorti-Passerini, C, Fontana D., Mauri M., Renso R., Docci M., Crespiatico I., Rost L. M., Jang M., Niro A., D'Aliberti D., Massimino L., Bertagna M., Zambrotta G., Bossi M., Citterio S., Crescenzi B., Fanelli F., Cassina V., Corti R., Salerno D., Nardo L., Chinello C., Mantegazza F., Mecucci C., Magni F., Cavaletti G., Bruheim P., Rea D., Larsen S., Piazza R., and Gambacorti-Passerini C.

Published
2020

23. LSEA Evaluation of Lipid Mediators of Inflammation in Lung and Cortex of Mice Exposed to Diesel Air Pollution

Author

Massimino, L, Bulbarelli, A, Corsetto, P, Milani, C, Botto, L, Farina, F, Lamparelli, L, Lonati, E, Ungaro, F, Maddipati, K, Palestini, P, Rizzo, A, Corsetto, PA, Lamparelli, LA, Maddipati, KR, Rizzo, AM, Massimino, L, Bulbarelli, A, Corsetto, P, Milani, C, Botto, L, Farina, F, Lamparelli, L, Lonati, E, Ungaro, F, Maddipati, K, Palestini, P, Rizzo, A, Corsetto, PA, Lamparelli, LA, Maddipati, KR, and Rizzo, AM

Abstract

Airborne ultrafine particle (UFP) exposure is a great concern as they have been correlated to increased cardiovascular mortality, neurodegenerative diseases and morbidity in occupational and environmental settings. The ultrafine components of diesel exhaust particles (DEPs) represent about 25% of the emission mass; these particles have a great surface area and consequently high capacity to adsorb toxic molecules, then transported throughout the body. Previous in-vivo studies indicated that DEP exposure increases pro- and antioxidant protein levels and activates inflammatory response both in respiratory and cardiovascular systems. In cells, DEPs can cause additional reactive oxygen species (ROS) production, which attacks surrounding molecules, such as lipids. The cell membrane provides lipid mediators (LMs) that modulate cell-cell communication, inflammation, and resolution processes, suggesting the importance of understanding lipid modifications induced by DEPs. In this study, with a lipidomic approach, we evaluated in the mouse lung and cortex how DEP acute and subacute treatments impact polyunsaturated fatty acid-derived LMs. To analyze the data, we designed an ad hoc bioinformatic pipeline to evaluate the functional enrichment of lipid sets belonging to the specific biological processes (Lipid Set Enrichment Analysis-LSEA). Moreover, the data obtained correlate tissue LMs and proteins associated with inflammatory process (COX-2, MPO), oxidative stress (HO-1, iNOS, and Hsp70), involved in the activation of many xenobiotics as well as PAH metabolism (Cyp1B1), suggesting a crucial role of lipids in the process of DEP-induced tissue damage.

Published
2022

27. Synergistic drug combinations prevent resistance in ALK+ anaplastic large cell lymphoma

Author

Arosio, G, Sharma, G, Villa, M, Mauri, M, Crespiatico, I, Fontana, D, Manfroni, C, Mastini, C, Zappa, M, Magistroni, V, Ceccon, M, Redaelli, S, Massimino, L, Garbin, A, Lovisa, F, Mussolin, L, Piazza, R, Gambacorti Passerini, C, Mologni, L, Sharma, GG, Arosio, G, Sharma, G, Villa, M, Mauri, M, Crespiatico, I, Fontana, D, Manfroni, C, Mastini, C, Zappa, M, Magistroni, V, Ceccon, M, Redaelli, S, Massimino, L, Garbin, A, Lovisa, F, Mussolin, L, Piazza, R, Gambacorti Passerini, C, Mologni, L, and Sharma, GG

Abstract

Anaplastic lymphoma kinase‐positive (ALK+) anaplastic large‐cell lymphoma (ALCL) is a subtype of non‐Hodgkin lymphoma characterized by expression of the oncogenic NPM/ALK fusion protein. When resistant or relapsed to front‐line chemotherapy, ALK+ ALCL prognosis is very poor. In these patients, the ALK inhibitor crizotinib achieves high response rates, however 30–40% of them develop further resistance to crizotinib monotherapy, indicating that new therapeutic approaches are needed in this population. We here investigated the efficacy of upfront rational drug combinations to prevent the rise of resistant ALCL, in vitro and in vivo. Different combinations of crizotinib with CHOP chemotherapy, decitabine and trametinib, or with second‐generation ALK inhibitors, were investigated. We found that in most cases combined treatments completely suppressed the emergence of resistant cells and were more effective than single drugs in the long‐term control of lymphoma cells expansion, by inducing deeper inhibition of oncogenic signaling and higher rates of apoptosis. Combinations showed strong synergism in different ALK‐dependent cell lines and better tumor growth inhibition in mice. We propose that drug combinations that include an ALK inhibitor should be considered for first‐line treatments in ALK+ ALCL.

Published
2021

28. Paired Exome Sequencing Reveals Recurrent Germline Variants in Patients with Idiopathic Erythrocytosis

Author

Mauri, M, Elli, E, D'Aliberti, D, Crespiatico, I, Nava, M, Massimino, L, Sharma, G, Fontana, D, Redaelli, S, Bombelli, S, Pelucchi, S, Perego, R, Piperno, A, Gambacorti Passerini, C, Piazza, R, Mauri, M, Elli, E, D'Aliberti, D, Crespiatico, I, Nava, M, Massimino, L, Sharma, G, Fontana, D, Redaelli, S, Bombelli, S, Pelucchi, S, Perego, R, Piperno, A, Gambacorti Passerini, C, and Piazza, R

Subjects
Idiopathic Erythrocytosis
Published
2019

29. Whole brain delivery of an instability-prone Mecp2 transgene improves behavioral and molecular pathological defects in mouse models of Rett syndrome

Author

Luoni, M, Giannelli, S, Indrigo, M, Niro, A, Massimino, L, Iannielli, A, Passeri, L, Russo, F, Morabito, G, Calamita, P, Gregori, S, Deverman, B, Broccoli, V, Indrigo, MT, Luoni, M, Giannelli, S, Indrigo, M, Niro, A, Massimino, L, Iannielli, A, Passeri, L, Russo, F, Morabito, G, Calamita, P, Gregori, S, Deverman, B, Broccoli, V, and Indrigo, MT

Abstract

Rett syndrome is an incurable neurodevelopmental disorder caused by mutations in the gene encoding for methyl-CpG binding-protein 2 (MeCP2). Gene therapy for this disease presents inherent hurdles since MECP2 is expressed throughout the brain and its duplication leads to severe neurological conditions as well. Herein, we use the AAV-PHP.eB to deliver an instability-prone Mecp2 (iMecp2) transgene cassette which, increasing RNA destabilization and inefficient protein translation of the viral Mecp2 transgene, limits supraphysiological Mecp2 protein levels. Intravenous injections of the PHP.eB-iMecp2 virus in symptomatic Mecp2 mutant mice significantly improved locomotor activity, lifespan and gene expression normalization. Remarkably, PHP.eBi-Mecp2 administration was well tolerated in female Mecp2 mutant or in wild-type animals. In contrast, we observed a strong immune response to the transgene in treated male Mecp2 mutant mice that was overcome by immunosuppression. Overall, PHP.eB-mediated delivery of iMecp2 provided widespread and efficient gene transfer maintaining physiological Mecp2 protein levels in the brain.

Published
2020

30. dCas9-based Scn1a gene activation restores inhibitory interneuron excitability and attenuates seizures in Dravet Syndrome mice

Author

Colasante, G, Lignani, G, Brusco, S, Di Berardino, C, Carpenter, J, Giannelli, S, Valassina, N, Bido, S, Ricci, R, Castoldi, V, Marenna, S, Church, T, Massimino, L, Morabito, G, Benfenati, F, Schorge, S, Leocani, L, Kullmann, D, Vania Broccoli, A, Gaia Colasante, Gabriele Lignani, Simone Brusco, Claudia Di Berardino, Jenna Carpenter, Serena Giannelli, Nicholas Valassina, Simone Bido, Raffaele Ricci, Valerio Castoldi, Silvia Marenna, Timothy Church, Luca Massimino, Giuseppe Morabito, Fabio Benfenati, Stephanie Schorge, Letizia Leocani, Dimitri M. Kullmann, and Vania Broccoli, Colasante, G, Lignani, G, Brusco, S, Di Berardino, C, Carpenter, J, Giannelli, S, Valassina, N, Bido, S, Ricci, R, Castoldi, V, Marenna, S, Church, T, Massimino, L, Morabito, G, Benfenati, F, Schorge, S, Leocani, L, Kullmann, D, Vania Broccoli, A, Gaia Colasante, Gabriele Lignani, Simone Brusco, Claudia Di Berardino, Jenna Carpenter, Serena Giannelli, Nicholas Valassina, Simone Bido, Raffaele Ricci, Valerio Castoldi, Silvia Marenna, Timothy Church, Luca Massimino, Giuseppe Morabito, Fabio Benfenati, Stephanie Schorge, Letizia Leocani, Dimitri M. Kullmann, and and Vania Broccoli

Abstract

Dravet syndrome (DS) is a severe epileptic encephalopathy caused mainly by heterozygous loss-of-function mutations of the SCN1A gene, indicating haploinsufficiency as the pathogenic mechanism. Here we tested whether catalytically dead Cas9 (dCas9)-mediated Scn1a gene activation can rescue Scn1a haploinsufficiency in a mouse DS model and restore physiological levels of its gene product, the Nav1.1 voltage gated sodium channel. We screened single guide RNAs (sgRNAs) for their ability to stimulate Scn1a transcription in association with the dCas9 activation system. We identified a specific sgRNA that increases Scn1a gene expression levels in cell lines and primary neurons with high specificity. Nav1.1 protein levels were augmented, as was the ability of wild-type immature GABAergic interneurons to fire action potentials. A similar enhancement of Scn1a transcription was achieved in mature DS interneurons, rescuing their ability to fire. To test the therapeutic potential of this approach, we delivered the Scn1a-dCas9 activation system to DS pups using adenoassociated viruses. Parvalbumin interneurons recovered their firing ability, and febrile seizures were significantly attenuated. Our results pave the way for exploiting dCas9-based gene activation as an effective and targeted approach to DS and other disorders resulting from altered gene dosage.

Published
2020

31. Integrated Genomic, Functional, and Prognostic Characterization of Atypical Chronic Myeloid Leukemia

Author

Fontana, D, Ramazzotti, D, Aroldi, A, Redaelli, S, Magistroni, V, Pirola, A, Niro, A, Massimino, L, Mastini, C, Brambilla, V, Bombelli, S, Bungaro, S, Morotti, A, Rea, D, Stagno, F, Martino, B, Campiotti, L, Caocci, G, Usala, E, Merli, M, Onida, F, Bregni, M, Elli, E, Fumagalli, M, Ciceri, F, Perego, R, Pagni, F, Mologni, L, Piazza, R, Gambacorti-Passerini, C, Fontana, Diletta, Ramazzotti, Daniele, Aroldi, Andrea, Redaelli, Sara, Magistroni, Vera, Pirola, Alessandra, Niro, Antonio, Massimino, Luca, Mastini, Cristina, Brambilla, Virginia, Bombelli, Silvia, Bungaro, Silvia, Morotti, Alessandro, Rea, Delphine, Stagno, Fabio, Martino, Bruno, Campiotti, Leonardo, Caocci, Giovanni, Usala, Emilio, Merli, Michele, Onida, Francesco, Bregni, Marco, Elli, Elena Maria, Fumagalli, Monica, Ciceri, Fabio, Perego, Roberto A, Pagni, Fabio, Mologni, Luca, Piazza, Rocco, Gambacorti-Passerini, Carlo, Fontana, D, Ramazzotti, D, Aroldi, A, Redaelli, S, Magistroni, V, Pirola, A, Niro, A, Massimino, L, Mastini, C, Brambilla, V, Bombelli, S, Bungaro, S, Morotti, A, Rea, D, Stagno, F, Martino, B, Campiotti, L, Caocci, G, Usala, E, Merli, M, Onida, F, Bregni, M, Elli, E, Fumagalli, M, Ciceri, F, Perego, R, Pagni, F, Mologni, L, Piazza, R, Gambacorti-Passerini, C, Fontana, Diletta, Ramazzotti, Daniele, Aroldi, Andrea, Redaelli, Sara, Magistroni, Vera, Pirola, Alessandra, Niro, Antonio, Massimino, Luca, Mastini, Cristina, Brambilla, Virginia, Bombelli, Silvia, Bungaro, Silvia, Morotti, Alessandro, Rea, Delphine, Stagno, Fabio, Martino, Bruno, Campiotti, Leonardo, Caocci, Giovanni, Usala, Emilio, Merli, Michele, Onida, Francesco, Bregni, Marco, Elli, Elena Maria, Fumagalli, Monica, Ciceri, Fabio, Perego, Roberto A, Pagni, Fabio, Mologni, Luca, Piazza, Rocco, and Gambacorti-Passerini, Carlo

Abstract

Atypical chronic myeloid leukemia (aCML) is a BCR-ABL1-negative clonal disorder, which belongs to the myelodysplastic/myeloproliferative group. This disease is characterized by recurrent somatic mutations in SETBP1, ASXL1 and ETNK1 genes, as well as high genetic heterogeneity, thus posing a great therapeutic challenge. To provide a comprehensive genomic characterization of aCML we applied a high-throughput sequencing strategy to 43 aCML samples, including both whole-exome and RNA-sequencing data. Our dataset identifies ASXL1, SETBP1, and ETNK1 as the most frequently mutated genes with a total of 43.2%, 29.7 and 16.2%, respectively. We characterized the clonal architecture of 7 aCML patients by means of colony assays and targeted resequencing. The results indicate that ETNK1 variants occur early in the clonal evolution history of aCML, while SETBP1 mutations often represent a late event. The presence of actionable mutations conferred both ex vivo and in vivo sensitivity to specific inhibitors with evidence of strong in vitro synergism in case of multiple targeting. In one patient, a clinical response was obtained. Stratification based on RNA-sequencing identified two different populations in terms of overall survival, and differential gene expression analysis identified 38 significantly overexpressed genes in the worse outcome group. Three genes correctly classified patients for overall survival.

Published
2020

32. ETNK1 mutations promote ROS production and DNA damage through increased mitochondrial activity

Author

Fontana, D, Mauri, M, Niro, A, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, CITTERIO, STEFANIA, Crescenzi, B, Signore, G, Piazza, V, Mecucci, C, Cavaletti, G, Rea, D, Gambacorti-Passerini, C, Piazza, R, Fontana, D, Mauri, M, Niro, A, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Signore, G, Piazza, V, Mecucci, C, Cavaletti, G, Rea, D, Gambacorti-Passerini, C, and Piazza, R

Subjects
ETNK1, ROS
Abstract

Atypical chronic myeloid leukemia (aCML) is a clonal disorder belonging to the myelodysplastic/myeloproliferative syndromes. About 13% of aCML cases carry somatic mutations in ETNK1 gene, encoding for H243Y, N244S, and G245V substitutions. We previously showed that ETNK1 mutations cause a decreased catalytic activity of the enzyme. Despite this evidence however, their oncogenic role remained largely unexplained. Since ETNK1 activity is essential for the synthesis of phosphatidylethanolamine (PE) and given that PE is one of the most abundant phospholipids in the inner membrane of mitochondria, we focused our attention on mitochondrial activity. In order to characterize the oncogenic effect of ETNK1 variants we generated CRISPR/Cas9 clones carrying heterozygous N244S mutation and homozygous ETNK1 deletion (KO cells) on the 293 Flp-In™ cell-line. Both N244S and KO cells showed a significant increase in mitochondrial activity (1.78 and 2.13 fold increase, respectively; p= 0.0096 and p=0.0050) compared to WT, as assessed by MitoTracker™ Red. In line with this finding, electron microscopy revealed a significant modification in mitochondria morphology for N244S and KO cells, changing from an elongated, tubular shape to a round, swollen one. ATP (1.67 and 1.68 fold; p

Published
2018

33. ETNK1 mutations increase mitochondrial activity and promote DNA damage through ROS production

Author

Fontana, D, Mauri, M, Niro, A, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Signore, G, Piazza, V, Fanelli, F, Mecucci, C, Cavaletti, G, Rea, D, Gambacorti Passerini, C, Piazza, R, Fontana, D, Mauri, M, Niro, A, Massimino, L, Bertagna, M, Zambrotta, G, Bossi, M, Citterio, S, Crescenzi, B, Signore, G, Piazza, V, Fanelli, F, Mecucci, C, Cavaletti, G, Rea, D, Gambacorti Passerini, C, and Piazza, R

Subjects
atypical chronic myeloid leukemia, mitochondrial activity
Published
2018

34. In vivo comparative study on acute and sub-acute biological e_ects induced by ultrafine particles of different anthropogenic sources in balb/c mice

Author

Farina, F, Lonati, E, Milani, C, Massimino, L, Ballarini, E, Donzelli, E, Crippa, L, Marmiroli, P, Botto, L, Corsetto, P, Sancini, G, Bulbarelli, A, Palestini, P, Corsetto, PA, Farina, F, Lonati, E, Milani, C, Massimino, L, Ballarini, E, Donzelli, E, Crippa, L, Marmiroli, P, Botto, L, Corsetto, P, Sancini, G, Bulbarelli, A, Palestini, P, and Corsetto, PA

Abstract

Exposure to ultrafine particles (UFPs) leads to adverse e_ects on health caused by an unbalanced ratio between UFPs deposition and clearance e_cacy. Since air pollution toxicity is first direct to cardiorespiratory system, we compared the acute and sub-acute e_ects of diesel exhaust particles (DEP) and biomass burning-derived particles (BB) on bronchoalveolar Lavage Fluid (BALf), lung and heart parenchyma. Markers of cytotoxicity, oxidative stress and inflammation were analysed in male BALB/c mice submitted to single and repeated intra-tracheal instillations of 50µg UFPs. This in-vivo study showed the activation of inflammatory response (COX-2 and MPO) after exposure to UFPs, both in respiratory and cardiovascular systems. Exposure to DEP results also in pro- and anti-oxidant (HO-1, iNOS, Cyp1b1, Hsp70) protein levels increase, although, stress persist only in cardiac tissue under repeated instillations. Statistical correlations suggest that stress marker variation was probably due to soluble components and/or mediators translocation of from first deposition site. This mechanism, appears more important after repeated instillations, since inflammation and oxidative stress endure only in heart. In summary, chemical composition of UFPs influenced the activation of di_erent responses mediated by their components or pro-inflammatory and pro-oxidative molecules, indicating DEP as the most damaging pollutant in the comparison.

Published
2019

35. De novo UBE2A mutations are recurrently acquired during chronic myeloid leukemia progression and interfere with myeloid differentiation pathways

Author

Magistroni, V, Mauri, M, D'Aliberti, D, Mezzatesta, C, Crespiatico, I, Nava, M, Fontana, D, Sharma, N, Parker, W, Schreiber, A, Yeung, D, Pirola, A, Redaelli, S, Massimino, L, Wang, P, Khandelwal, P, Citterio, S, Viltadi, M, Bombelli, S, Rigolio, R, Perego, R, Boultwood, J, Morotti, A, Saglio, G, Dong-Wook, K, Branford, S, Gambacorti Passerini, C, Piazza, R, Magistroni, V, Mauri, M, D'Aliberti, D, Mezzatesta, C, Crespiatico, I, Nava, M, Fontana, D, Sharma, N, Parker, W, Schreiber, A, Yeung, D, Pirola, A, Redaelli, S, Massimino, L, Wang, P, Khandelwal, P, Citterio, S, Viltadi, M, Bombelli, S, Rigolio, R, Perego, R, Boultwood, J, Morotti, A, Saglio, G, Dong-Wook, K, Branford, S, Gambacorti Passerini, C, and Piazza, R

Abstract

Despite the advent of tyrosine kinase inhibitors, a proportion of chronic myeloid leukemia patients in chronic phase fail to respond to imatinib or to second-generation inhibitors and progress to blast crisis. Until now, improvements in the understanding of the m olecular mechanism s res ponsib l e for c hronic myeloid leukemia transformation from chronic phase to the aggressive blast crisis remain limited. Here we present a large parallel sequencing analysis of 10 blast crisis samples and of the corresponding autologous chronic phase controls that reveals, for the first time, recurrent mutations affecting the ubiquitin-conjugating enzyme E2A gene (UBE2A, formerly RAD6A). Additional analyses on a cohort of 24 blast crisis, 41 chronic phase as well as 40 acute myeloid leukemia and 38 atypical chronic myeloid leukemia patients at onset confirmed that UBE2A mutations are specifically acquired during chronic myeloid leukemia progression, with a frequency of 16.7% in advanced phases. In vitro studies show that the mutations here described cause a decrease in UBE2A activity, leading to an impairment of myeloid differentiation in chronic myeloid leukemia cells.

Published
2019

36. Integrated Genomic, Functional and Prognostic Characterization of Atypical Chronic Myeloid Leukemia (aCML) in a Cohort of 43 Patients

Author

Fontana, D, Ramazzotti, D, Aroldi, A, Niro, A, Massimino, L, Rea, D, Stagno, F, Martino, B, Campiotti, L, Caocci, G, Elli, E, Fumagalli, M, Ciceri, F, Piazza, R, GAMBACORTI PASSERINI, C, Diletta Fontana, Daniele Ramazzotti, Andrea Aroldi, Antonio Niro, Luca Massimino, Delphine Rea, Fabio Stagno, Bruno Martino, Leonardo Campiotti, Giovanni Caocci, Elena Maria Elli, Monica Fumagalli, Fabio Ciceri, Rocco Piazza, Carlo Gambacorti-Passerini, Fontana, D, Ramazzotti, D, Aroldi, A, Niro, A, Massimino, L, Rea, D, Stagno, F, Martino, B, Campiotti, L, Caocci, G, Elli, E, Fumagalli, M, Ciceri, F, Piazza, R, GAMBACORTI PASSERINI, C, Diletta Fontana, Daniele Ramazzotti, Andrea Aroldi, Antonio Niro, Luca Massimino, Delphine Rea, Fabio Stagno, Bruno Martino, Leonardo Campiotti, Giovanni Caocci, Elena Maria Elli, Monica Fumagalli, Fabio Ciceri, Rocco Piazza, and Carlo Gambacorti-Passerini

Abstract

Atypical chronic myeloid leukemia (aCML) is a rare BCR-ABL1 negative clonal disorder, which belongs to the myelodysplastic/myeloproliferative group. This disease is characterized by recurrent somatic mutations in several genes including SETBP1, ASXL1 and ETNK1, as well as high genetic heterogeneity, thus posing a great therapeutic challenge. The clinical prognosis for aCML is poor, with a median overall survival of 18 months after diagnosis, and no established standards of care exist for its treatment. The dissection of the molecular processes underlying aCML leukemogenesis could therefore result decisive in ameliorating the prognosis for aCML. With the aim to provide a comprehensive genomic characterization of aCML and to link the detected alterations with the clinical course of the disease, we applied a high-throughput sequencing strategy to 43 aCML samples, including whole-exome sequencing and RNA sequencing. Our study confirms ASXL1 and SETBP1 as the most frequently mutated genes with a total of 43.2% and 30.2%, respectively; ETNK1 mutations are observed in 14% of patients. An average of 2 mutations per patient was observed [range: 0-5]. We characterized the clonal architecture in a subset of 8 aCML patients by means of colony assays and targeted resequencing. The results indicate that ETNK1 variants occur very early in the clonal evolution history of aCML, while SETBP1 mutations represent a late event; interestingly, in the two cases where ASXL1 was mutated together with SETBP1, its mutations occupied an intermediate hierarchical position. CBL mutations, when present, showed a tendency toward reaching homozygosity through somatic uniparental disomy. Stratification based on RNA-sequencing gene expression data (Ramazzotti, Daniele, et al. Nature communications 9.1 (2018): 4453) identified two clearly different populations (26 and 17 patients) in terms of Overall Survival (OS), with 2 year OS of 69.23% [95% IC: 48.21%-86.67%] and 35.29% [95% IC: 14.21%-61.67%] res

Published
2019

37. TNF-Stimulated Gene-6 Is a Key Regulator in Switching Stemness and Biological Properties of Mesenchymal Stem Cells

Author

Romano, Benedetta, Elangovan, S., Erreni, M., Sala, Elisabetta, Petti, Livia, Kunderfranco, P., Massimino, L., Restelli, S., Sinha, S., Lucchetti, Donatella, Anselmo, Anna, Colombo, F. S., Stravalaci, M., Arena, Vincenzo, D'Alessio, S., Ungaro, Francesco, Inforzato, A., Izzo, A. A., Sgambato, Alessandro, Day, A. J., Vetrano, S., Romano B., Sala E., Petti L., Lucchetti D. (ORCID:0000-0001-8147-0079), Anselmo A., Arena V. (ORCID:0000-0002-7562-223X), Ungaro F., Sgambato A. (ORCID:0000-0002-9487-4563), Romano, Benedetta, Elangovan, S., Erreni, M., Sala, Elisabetta, Petti, Livia, Kunderfranco, P., Massimino, L., Restelli, S., Sinha, S., Lucchetti, Donatella, Anselmo, Anna, Colombo, F. S., Stravalaci, M., Arena, Vincenzo, D'Alessio, S., Ungaro, Francesco, Inforzato, A., Izzo, A. A., Sgambato, Alessandro, Day, A. J., Vetrano, S., Romano B., Sala E., Petti L., Lucchetti D. (ORCID:0000-0001-8147-0079), Anselmo A., Arena V. (ORCID:0000-0002-7562-223X), Ungaro F., and Sgambato A. (ORCID:0000-0002-9487-4563)

Abstract

Mesenchymal stem cells (MSCs) are well established to have promising therapeutic properties. TNF-stimulated gene-6 (TSG-6), a potent tissue-protective and anti-inflammatory factor, has been demonstrated to be responsible for a significant part of the tissue-protecting properties mediated by MSCs. Nevertheless, current knowledge about the biological function of TSG-6 in MSCs is limited. Here, we demonstrated that TSG-6 is a crucial factor that influences many functional properties of MSCs. The transcriptomic sequencing analysis of wild-type (WT) and TSG-6−/−-MSCs shows that the loss of TSG-6 expression leads to the perturbation of several transcription factors, cytokines, and other key biological pathways. TSG-6−/−-MSCs appeared morphologically different with dissimilar cytoskeleton organization, significantly reduced size of extracellular vesicles, decreased cell proliferative rate, and loss of differentiation abilities compared with the WT cells. These cellular effects may be due to TSG-6-mediated changes in the extracellular matrix (ECM) environment. The supplementation of ECM with exogenous TSG-6, in fact, rescued cell proliferation and changes in morphology. Importantly, TSG-6-deficient MSCs displayed an increased capacity to release interleukin-6 conferring pro-inflammatory and pro-tumorigenic properties to the MSCs. Overall, our data provide strong evidence that TSG-6 is crucial for the maintenance of stemness and other biological properties of murine MSCs.

Published
2019

38. Activation of the VEGFC/VEGFR3 Pathway Induces Tumor Immune Escape in Colorectal Cancer

Author

Tacconi, C, Ungaro, Francesco, Correale, C, Arena, Vincenzo, Massimino, L, Detmar, M, Spinelli, Adriano, Carvello, M, Mazzone, Marinella, Oliveira, Ai, Rubbino, F, Garlatti, V, Spano, S, Lugli, E, Colombo, F, Malesci, A, Peyrin-Biroulet, L, Vetrano, S, Danese, Silvio, D'Alessio, S, Ungaro, F, Arena, V (ORCID:0000-0002-7562-223X), Spinelli, A, Mazzone, M, Danese, S, Tacconi, C, Ungaro, Francesco, Correale, C, Arena, Vincenzo, Massimino, L, Detmar, M, Spinelli, Adriano, Carvello, M, Mazzone, Marinella, Oliveira, Ai, Rubbino, F, Garlatti, V, Spano, S, Lugli, E, Colombo, F, Malesci, A, Peyrin-Biroulet, L, Vetrano, S, Danese, Silvio, D'Alessio, S, Ungaro, F, Arena, V (ORCID:0000-0002-7562-223X), Spinelli, A, Mazzone, M, and Danese, S

Abstract

Colorectal cancer is a major cause of cancer-related death in Western countries and is associated with increased numbers of lymphatic vessels (LV) and tumor-associated macrophages (TAM). The VEGFC/VEGFR3 pathway is regarded as the principal inducer of lymphangiogenesis and it contributes to metastases; however, no data are available regarding its role during primary colorectal cancer development. We found that both VEGFC and VEGFR3 were upregulated in human non-metastatic colorectal cancer, with VEGFR3 expressed on both LVs and TAMs. With the use of three different preclinical models of colorectal cancer, we also discovered that the VEGFC/VEGFR3 axis can shape both lymphatic endothelial cells and TAMs to synergistically inhibit antitumor immunity and promote primary colorectal cancer growth. Therefore, VEGFR3-directed therapy could be envisioned for the treatment of nonmetastatic colorectal cancer.Significance: The prolymphangiogenic factor VEGFC is abundant in colorectal cancer and activates VEGFR3 present on cancer-associated macrophages and lymphatic vessels; activation of VEGFR3 signaling fosters cancer immune escape, resulting in enhanced tumor growth.

Published
2019

39. SETBP1 induces transcription of a network of development genes by acting as an epigenetic hub

Author

Piazza, R, Magistroni, V, Redaelli, S, Mauri, M, Massimino, L, Sessa, A, Peronaci, M, Lalowski, M, Soliymani, R, Mezzatesta, C, Pirola, A, Banfi, F, Rubio, A, Rea, D, Stagno, F, Usala, E, Martino, B, Campiotti, L, Merli, M, Passamonti, F, Onida, F, Morotti, A, Pavesi, F, Bregni, M, Broccoli, V, Baumann, M, Gambacorti-Passerini, C, Piazza, Rocco, Magistroni, Vera, Redaelli, Sara, Mauri, Mario, Massimino, Luca, Sessa, Alessandro, Peronaci, Marco, Lalowski, MacIej, Soliymani, Rabah, Mezzatesta, Caterina, Pirola, Alessandra, Banfi, Federica, Rubio, Alicia, Rea, Delphine, Stagno, Fabio, Usala, Emilio, Martino, Bruno, Campiotti, Leonardo, Merli, Michele, Passamonti, Francesco, Onida, Francesco, Morotti, Alessandro, Pavesi, Francesca, Bregni, Marco, Broccoli, Vania, Baumann, Marc, Gambacorti-Passerini, Carlo, Piazza, R, Magistroni, V, Redaelli, S, Mauri, M, Massimino, L, Sessa, A, Peronaci, M, Lalowski, M, Soliymani, R, Mezzatesta, C, Pirola, A, Banfi, F, Rubio, A, Rea, D, Stagno, F, Usala, E, Martino, B, Campiotti, L, Merli, M, Passamonti, F, Onida, F, Morotti, A, Pavesi, F, Bregni, M, Broccoli, V, Baumann, M, Gambacorti-Passerini, C, Piazza, Rocco, Magistroni, Vera, Redaelli, Sara, Mauri, Mario, Massimino, Luca, Sessa, Alessandro, Peronaci, Marco, Lalowski, MacIej, Soliymani, Rabah, Mezzatesta, Caterina, Pirola, Alessandra, Banfi, Federica, Rubio, Alicia, Rea, Delphine, Stagno, Fabio, Usala, Emilio, Martino, Bruno, Campiotti, Leonardo, Merli, Michele, Passamonti, Francesco, Onida, Francesco, Morotti, Alessandro, Pavesi, Francesca, Bregni, Marco, Broccoli, Vania, Baumann, Marc, and Gambacorti-Passerini, Carlo

Abstract

SETBP1 variants occur as somatic mutations in several hematological malignancies such as atypical chronic myeloid leukemia and as de novo germline mutations in the Schinzel-Giedion syndrome. Here we show that SETBP1 binds to gDNA in AT-rich promoter regions, causing activation of gene expression through recruitment of a HCF1/KMT2A/PHF8 epigenetic complex. Deletion of two AT-hooks abrogates the binding of SETBP1 to gDNA and impairs target gene upregulation. Genes controlled by SETBP1 such as MECOM are significantly upregulated in leukemias containing SETBP1 mutations. Gene ontology analysis of deregulated SETBP1 target genes indicates that they are also key controllers of visceral organ development and brain morphogenesis. In line with these findings, in utero brain electroporation of mutated SETBP1 causes impairment of mouse neurogenesis with a profound delay in neuronal migration. In summary, this work unveils a SETBP1 function that directly affects gene transcription and clarifies the mechanism operating in myeloid malignancies and in the Schinzel-Giedion syndrome caused by SETBP1 mutations.

Published
2018

40. Lorlatinib treatment elicits multiple on- and off-target mechanisms of resistance in ALK-driven cancer

Author

Redaelli, S, Ceccon, M, Zappa, M, Geeta, G, Mastini, C, Mauri, M, Nigoghossian, M, Massimino, L, Cordani, N, Farina, F, Piazza, R, Gambacorti-Passerini, C, Mologni, L, Redaelli, Sara, Ceccon, Monica, Zappa, Marina, Sharma, Geeta G, Mastini, Cristina, Mauri, Mario, Nigoghossian, Marion, Massimino, Luca, Cordani, Nicoletta, Farina, Francesca, Piazza, Rocco, Gambacorti-Passerini, Carlo, Mologni, Luca, Redaelli, S, Ceccon, M, Zappa, M, Geeta, G, Mastini, C, Mauri, M, Nigoghossian, M, Massimino, L, Cordani, N, Farina, F, Piazza, R, Gambacorti-Passerini, C, Mologni, L, Redaelli, Sara, Ceccon, Monica, Zappa, Marina, Sharma, Geeta G, Mastini, Cristina, Mauri, Mario, Nigoghossian, Marion, Massimino, Luca, Cordani, Nicoletta, Farina, Francesca, Piazza, Rocco, Gambacorti-Passerini, Carlo, and Mologni, Luca

Abstract

Targeted therapy changed the standard of care in ALK-dependent tumors. However, resistance remains a major challenge. Lorlatinib is a third-generation ALK inhibitor that inhibits most ALK mutants resistant to current ALK inhibitors. In this study, we utilize lorlatinib-resistant anaplastic large cell lymphoma (ALCL), non–small cell lung cancer (NSCLC), and neuroblastoma cell lines in vitro and in vivo to investigate the acquisition of resistance and its underlying mechanisms. ALCL cells acquired compound ALK mutations G1202R/G1269A and C1156F/L1198F in vitro at high drug concentrations. ALCL xenografts selected in vivo showed recurrent N1178H (5/10 mice) and G1269A (4/10 mice) mutations. Interestingly, intracellular localization of NPM/ALKN1178H skewed toward the cytoplasm in human cells, possibly mimicking overexpression. RNA sequencing of resistant cells showed significant alteration of PI3K/AKT and RAS/MAPK pathways. Functional validation by small-molecule inhibitors confirmed the involvement of these pathways in resistance to lorlatinib. NSCLC cells exposed in vitro to lorlatinib acquired hyperactivation of EGFR, which was blocked by erlotinib to restore sensitivity to lorlatinib. In neuroblastoma, whole-exome sequencing and proteomic profiling of lorlatinib-resistant cells revealed a truncating NF1 mutation and hyperactivation of EGFR and ErbB4. These data provide an extensive characterization of resistance mechanisms that may arise in different ALK-positive cancers following lorlatinib treatment. Significance: High-throughput genomic, transcriptomic, and proteomic profiling reveals various mechanisms by which multiple tumor types acquire resistance to the third-generation ALK inhibitor lorlatinib.

Published
2018

41. Mitochondrial Hyperactivation and Enhanced ROS Production are Involved in Toxicity Induced by Oncogenic Kinases Over-Signaling

Author

Ceccon, M, Mauri, M, Massimino, L, Giudici, G, Piazza, R, Gambacorti-Passerini, C, Mologni, L, Ceccon, Monica, Mauri, Mario, Massimino, Luca, Giudici, Giovanni, Piazza, Rocco, Gambacorti-Passerini, Carlo, Mologni, Luca, Ceccon, M, Mauri, M, Massimino, L, Giudici, G, Piazza, R, Gambacorti-Passerini, C, Mologni, L, Ceccon, Monica, Mauri, Mario, Massimino, Luca, Giudici, Giovanni, Piazza, Rocco, Gambacorti-Passerini, Carlo, and Mologni, Luca

Abstract

Targeted therapy is an effective, rational, and safe approach to solid and hematological tumors treatment. Unfortunately, a significant fraction of patients treated with tyrosine kinase inhibitors (TKI) relapses mainly because of gene amplification, mutations, or other bypass mechanisms. Recently a growing number of papers showed how, in some cases, resistance due to oncogene overexpression may be associated with drug addiction: cells able to proliferate in the presence of high TKI doses become also TKI dependent, undergoing cellular stress, and apoptosis/death upon drug withdrawal. Notably, if a sub-cellular population survives TKI discontinuation it is also partially re-sensitized to the same drug. Thus, it is possible that a subset of patients relapsing upon TKI treatment may benefit from a discontinuous therapeutic schedule. We focused on two different hematologic malignancies, chronic myeloid leukemia (CML) and anaplastic large cell lymphoma (ALCL), both successfully treatable with TKIs. The two models utilized (LAMA and SUP-M2) differed in having oncogene overexpression as the sole cause of drug resistance (CML), or additionally carrying kinase domain mutations (ALCL). In both cases drug withdrawal caused a sudden overload of oncogenic signal, enhanced mitochondria activity, induced the release of a high amount of reactive oxygen species (ROS), and caused genotoxic stress and massive cell death. In LAMA cells (CML) we could rescue the cells from death by partially blocking downstream oncogenic signaling or lowering ROS detrimental effect by adding reduced glutathione

Published
2018

42. Concomitant BCORL1 and BRAF Mutations in Vemurafenib-Resistant Melanoma Cells

Author

Mologni, L, Costanza, M, Sharma, G, Viltadi, M, Massimino, L, Citterio, S, Purgante, S, Raman, H, Pirola, A, Zucchetti, M, Piazza, R, Gambacorti-Passerini, C, Sharma, GG, Mologni, L, Costanza, M, Sharma, G, Viltadi, M, Massimino, L, Citterio, S, Purgante, S, Raman, H, Pirola, A, Zucchetti, M, Piazza, R, Gambacorti-Passerini, C, and Sharma, GG

Abstract

BRAF is the most frequently mutated gene in melanoma. Constitutive activation of mutant BRAFV600E leads to aberrant Ras-independent MAPK signaling and cell transformation. Inhibition of mutant BRAF is a current frontline therapy for such cases, with improved survival compared with chemotherapy. Unfortunately, reactivation of MAPK signaling by several mechanisms has been shown to cause drug resistance and disease recurrence. In this work, we describe the co-occurrence of an in-frame deletion within an amplified BRAFV600E locus and a missense point mutation of the transcriptional repressor BCORL1 in vemurafenib-resistant A375 melanoma cells. Functional data confirmed that truncated p47BRAFV600E and mutant BCORL1Q1076H both contribute to resistance. Interestingly, either endogenous BCORL1 silencing or ectopic BCORL1Q1076H expression mimicked the effects of a CRISPR/Cas9-edited BCORL1Q1076H locus, suggesting a complex mixture of loss- and gain-of-function effects caused by the mutation. Transcriptomic data confirmed this hypothesis. Finally, we show that the pan-RAF inhibitor sorafenib is not affected by expression of BRAF deletion variant and effectively synergizes with vemurafenib to block resistant cells, suggesting a possible intervention for this class of mutants.

Published
2018

43. Oxidative stress and inflammation induced by acute and subacute ultrafine exposure: contrinbution to alzheimer's disease

Author

Milani, C, Lonati, E, Farina, F, Botto, L, Massimino, L, Donzelli, E, Chiorazzi, A, Crippa, L, Marmiroli, P, Ballarini, E, Cavaletti, G, Sancini, G, Bulbarelli, A, Palestini, P, MILANI, CHIARA, LONATI, ELENA RITA, FARINA, FRANCESCA, BOTTO, LAURA MARIA, MASSIMINO, LUCA, DONZELLI, ELISABETTA, CHIORAZZI, ALESSIA, BALLARINI, ELISA, CAVALETTI, GUIDO ANGELO, SANCINI, GIULIO ALFREDO, BULBARELLI, ALESSANDRA, PALESTINI, PAOLA NOVERINA ADA, MARMIROLI, PAOLA LORENA, Milani, C, Lonati, E, Farina, F, Botto, L, Massimino, L, Donzelli, E, Chiorazzi, A, Crippa, L, Marmiroli, P, Ballarini, E, Cavaletti, G, Sancini, G, Bulbarelli, A, Palestini, P, MILANI, CHIARA, LONATI, ELENA RITA, FARINA, FRANCESCA, BOTTO, LAURA MARIA, MASSIMINO, LUCA, DONZELLI, ELISABETTA, CHIORAZZI, ALESSIA, BALLARINI, ELISA, CAVALETTI, GUIDO ANGELO, SANCINI, GIULIO ALFREDO, BULBARELLI, ALESSANDRA, PALESTINI, PAOLA NOVERINA ADA, and MARMIROLI, PAOLA LORENA

Published
2017

45. Direct conversion of fibroblasts into functional astrocytes by defined transcription factors

Author

Caiazzo, M, Giannelli, S, Valente, P, Lignani, G, Carissimo, A, Sessa, A, Colasante, G, Bartolomeo, R, Massimino, L, Ferroni, S, Settembre, C, Benfenati, F, Broccoli, V, Broccoli, V., MASSIMINO, LUCA, Caiazzo, M, Giannelli, S, Valente, P, Lignani, G, Carissimo, A, Sessa, A, Colasante, G, Bartolomeo, R, Massimino, L, Ferroni, S, Settembre, C, Benfenati, F, Broccoli, V, Broccoli, V., and MASSIMINO, LUCA

Abstract

Direct cell reprogramming enables direct conversion of fibroblasts into functional neurons and oligodendrocytes using a minimal set of cell-lineage-specific transcription factors. This approach is rapid and simple, generating the cell types of interest in one step. However, it remains unknown whether this technology can be applied to convert fibroblasts into astrocytes, the third neural lineage. Astrocytes play crucial roles in neuronal homeostasis, and their dysfunctions contribute to the origin and progression of multiple human diseases. Herein, we carried out a screening using several transcription factors involved in defining the astroglial cell fate and identified NFIA, NFIB, and SOX9 to be sufficient to convert with high efficiency embryonic and postnatal mouse fibroblasts into astrocytes (iAstrocytes). We proved both by gene-expression profiling and functional tests that iAstrocytes are comparable to native brain astrocytes. This protocol can be then employed to generate functional iAstrocytes for a wide range of experimental applications.

Published
2015

48. Local insulin-like growth factor I expression is essential for Purkinje neuron survival at birth.

Author

Croci, L., Barili, V., Chia, D., Massimino, L., van Vugt, R., Masserdotti, G., Longhi, R., Rotwein, P., and Consalez, G. G.

Subjects
INSULIN, GROWTH factors, APOPTOSIS prevention, PURKINJE cells, LIVER cells, MUSCLE cells, CEREBELLUM
Abstract

IGF1, an anabolic and neuroprotective factor, promotes neuronal survival by blocking apoptosis. It is released into the bloodstream by the liver, or synthesized locally by muscles and neural cells, acting in an autocrine or paracrine fashion. Intriguingly, genetic studies conducted in invertebrate and murine models also suggest that an excess of IGF1 signaling may trigger neurodegeneration. This emphasizes the importance of gaining a better understanding of the mechanisms controlling IGF1 regulation and gene transcription. In the cerebellum, Igf1 expression is activated just before birth in a subset of Purkinje cells (PCs). Mice carrying a null mutation for HLH transcription factor EBF2 feature PC apoptosis at birth. We show that Igf1 is sharply downregulated in Ebf2 null PCs starting before the onset of PC death. In vitro, EBF2 binds a conserved distal Igf1 promoter region. The pro-survival PI3K signaling pathway is strongly inhibited in mutant cerebella. Finally, Ebf2 null organotypic cultures respond to IGF1 treatment by inhibiting PC apoptosis. Consistently, wild type slices treated with an IGF1 competitor feature a sharp increase in PC death. Our findings reveal that IGF1 is required for PC survival in the neonatal cerebellum, and identify a new mechanism regulating its local production in the CNS. [ABSTRACT FROM AUTHOR]

Published
2011
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49. Stimulation of CYP450-mediated omega-3 docosahexaenoic acid metabolism via MFSD2A as a novel therapy for inflammatory bowel disease

Author

Ungaro, F., Tacconi, C., Correale, C., Massimino, L., Corsetto, P., Piontini, A., Fonteyne, P., Calcaterra, F., Della Bella, S., Spinelli, A., Carvello, M., Rizzo, A., Vetrano, S., Fiorino, G., Furfaro, F., Krishna Rao Maddipati, D Alessio, S., Danese, S., Ungaro, F, Tacconi, C, Correale, C, Massimino, L, Corsetto, P, Piontini, A, Fonteyne, P, Calcaterra, F, Della Bella, S, Spinelli, A, Carvello, M, Rizzo, A, Vetrano, S, Fiorino, G, Furfaro, F, Maddipati, Kr, D'Alessio, S, and Danese, S

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