Your search keyword '"Alessandro, Bulfone"' showing total 12 results

1. Supplementary Figure 4 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 213K, Gene signatures distinguishing the different MB CSC populations segregate distinct human MB molecular subgroups, with MB1_EXCLUSIVE gene signature distinguishing the WNT molecular subgroup

Published

2023

2. Supplementary Figure 2 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 183K, Long term-cultured hindbrain- and forebrain-derived NSCs are Sonic Hedgehog (Shh) pathway-independent, as cyclopamine treatment negatively affects the survival/proliferation of short-term cultured but not of long term-cultured NSCs

Published

2023

3. Supplementary Figure 7 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 155K, Enforced expression of Ebf3 in CB WM and SVZ NSCs results in premature neuronal differentiation, under proliferative and differentiative conditions

Published

2023

4. Supplementary Figure 3 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 157K, MB CSC lines are Sonic Hedgehog (Shh) pathway-independent, as their survival/proliferation is not affected by cyclopamine treatment and Smo silencing

Published

2023

5. Supplementary Methods from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 104K, Details on experimental and bioinformatics procedures.

Published

2023

6. Supplementary Tables 1-5 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 134K, Table S1 A. Lineage-specific differentiation of region-specific clonally derived NSCs is summarized as frequency of neurons, astrocytes and oligodendrocytes. B. Electrophysiological characteristics of neurons derived from the differentiation of region-specific NSCs. C. Analysis of the engraftment of region-specific clonally derived NSCs after transplantation in the early postnatal mouse cerebellum. Table S2 - Statistical analysis of GSEA for gene signatures generated by DEGs up regulated in hindbrain (CB/IVv) or forebrain (SVZ) NSCs. Table S3 - Lineage-specific differentiation of clonally derived MB CSCs is summarized as frequency of neuron-, astrocyte- and oligodendrocyte-like cells. Table S4 - Statistical analysis of GSEA for gene signatures generated by DEGs up regulated in tumorigenic Ptch+/- p53-/- MB CSCs vs. hindbrain NSCs (MB1_EXCLUSIVE), in non-tumorigenic Ptch+/- p53+/+ MB CSCs vs. hindbrain NSCs (MB2_EXCLUSIVE), and commonly expressed in both tumorigenic and non-tumorigenic CSCs vs. hindbrain NSCs (MB1_MB2 COMMON). Table S5 - Expression of EBF proteins in a collection of 33 human MB specimens as determined by immunohistochemistry.

Published

2023

7. Supplementary Figure 6 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 130K, EBF3 expression can be retrieved in silico in human MBs by exploiting publicly available human data sets

Published

2023

8. Supplementary Figure 1 from Gene Signatures Associated with Mouse Postnatal Hindbrain Neural Stem Cells and Medulloblastoma Cancer Stem Cells Identify Novel Molecular Mediators and Predict Human Medulloblastoma Molecular Classification

Author

Rossella Galli, Pietro Luigi Poliani, Gian Giacomo Consalez, Ferdinando Rossi, Paola Rossi, Alessandro Bulfone, Lorenzo Piemonti, Letterio Salvatore Politi, Lucia Sergi Sergi, Alessandra Di Gregorio, Raffaella Melzi, Federico Brandalise, Valeria Barili, Laura Croci, Ketty Leto, Barbara Cipelletti, Manuela Cominelli, Mauro Pala, and Daniela Corno

Abstract

PDF file - 132K, The gene signature containing the 297 genes differentially expressed between hindbrain- vs. forebrain-derived NSCs distinguishes the SHH molecular subgroup of human MBs

Published

2023

9. Supplementary Figures 1-9, Tables 1-4, Methods and Materials from Epidermal Growth Factor Receptor Expression Identifies Functionally and Molecularly Distinct Tumor-Initiating Cells in Human Glioblastoma Multiforme and Is Required for Gliomagenesis

Author

Rossella Galli, Pietro L. Poliani, Alessandro Bulfone, Michele De Palma, Andrea Falini, Lucia Sergi Sergi, Alberto Franzin, Manuela Cominelli, Mauro Pala, Letterio S. Politi, and Stefania Mazzoleni

Abstract

Supplementary Figures 1-9, Tables 1-4, Methods and Materials from Epidermal Growth Factor Receptor Expression Identifies Functionally and Molecularly Distinct Tumor-Initiating Cells in Human Glioblastoma Multiforme and Is Required for Gliomagenesis

Published

2023

10. Abstract 3169: Lentiviral vector-based insertional mutagenesis identifies new clinically relevant liver cancer genes

Author

Daniela Cesana, Giovanni Tonon, Michela Riba, Claudio Doglioni, Pierangela Gallina, Alessandro Bulfone, Stefania Merella, Luigi Naldini, Elia Stupka, Fabrizio Benedicenti, Cynthia C. Bartholomä, Manfred G. Schmidt, Yoon Jun Kim, Lucia Sergi Sergi, Christof von Kalle, Eugenio Montini, Mauro Pala, Francesca Sanvito, Stefano Annunziato, and Marco Ranzani

Subjects

Genetics, Cancer Research, Oncogene, Cancer, Biology, HCCS, medicine.disease, medicine.disease_cause, Forward genetics, Viral vector, Insertional mutagenesis, Oncology, CDKN2A, Cancer research, medicine, Carcinogenesis

Abstract

Next generation sequencing approaches are identifying a plethora of mutations in a variety of human cancers. However, the clinical implications of these new findings are still limited, since the identification of cancer driving mutations is hampered by the co-occurrence of several bystander and progression related events. Here we developed a forward genetics approach based on a new lentiviral vector-based insertional mutagen aimed at identifying cancer initiating genes that are relevant in human hepatocarcinogenesis. We generated a replication-defective lentiviral vector (LV) engineered with long terminal repeats carrying hepatospecific enhancers able to deregulate genes upon integration. Differently from retroviruses and transposons, our replication-defective LV provides a single round of integration shortly after the administration, thus tagging mainly early events in carcinogenesis. A single administration of LV in newborn mice was able to induce hepatocellular carcinoma (HCC) in 3 clinically relevant models of hepatocarcinogenesis: in 30% of Cdkn2a deficient mice (P=0.005 Vs untreated), in 27% of liver-specific Pten deficient mice (P=0.04) and in 75% of wild type mice coupled to CCl4 administration (P=0.002). From 30 LV-induced HCCs we retrieved 172 LV integrations that allowed the identification of Braf, Fign, Sos1 and Rtl1 as candidate cancer loci. The causative role of these 4 genes in HCC was experimentally validated in vivo by forced expression in the mouse liver. Whole transcriptome gene expression analysis allowed unveiling the molecular pathways deregulated by the newly identified cancer genes. HCC induced by integration at the paternally expressed gene Rtl1 (mapping within the imprinted Dlk1-Dio3 region) displayed the peculiar upregulation of oxidative phosphorylation genes. Conversely, LV-mediated upregulation of Braf and Fign caused the overexpression of the maternally expressed microRNAs encoded within the Dlk1-Dio3 region in HCCs which display the downregulation of oxidative phosphorylation genes. These findings highlighted a relevant role of Dlk1-Dio3 region in HCCs and in the regulation of metabolism. Additionally, we showed that WNT pathway may represent a target of the new enigmatic oncogene Fign. We then analyzed different human HCCs collections induced by HBV or HCV (N tot of HCC=221). We found that all the newly identified cancer genes were significantly upregulated and amplified or deleted in human HCCs. Moreover, we showed that the expression level of the new liver cancer genes or the specific gene expression signature caused by their upregulation can efficiently distinguish HCC patients characterized by poor survival. Overall, we developed a new insertional mutagen by which we identified new clinically relevant liver cancer genes that may provide novel prognostic markers and therapeutic targets for the diagnosis and treatment of human HCCs. Citation Format: Marco Ranzani, Daniela Cesana, Cynthia C. Bartholomä, Francesca Sanvito, Michela Riba, Mauro Pala, Fabrizio Benedicenti, Pierangela Gallina, Stefano Annunziato, Lucia Sergi Sergi, Stefania Merella, Alessandro Bulfone, Claudio Doglioni, Christof von Kalle, Yoon Jun Kim, Manfred Schmidt, Elia Stupka, Giovanni Tonon, Luigi Naldini, Eugenio Montini. Lentiviral vector-based insertional mutagenesis identifies new clinically relevant liver cancer genes. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 3169. doi:10.1158/1538-7445.AM2013-3169

Published

2013

11. Abstract 104: New liver cancer genes identified by lentiviral vector-based insertional mutagenesis in mice are associated to differential survival in hepatocellular carcinoma patients

Author

Lucia Sergi Sergi, Mauro Pala, Yoon Jun Kim, Alessandro Bulfone, Daniela Cesana, Pierangela Gallina, Marco Ranzani, Claudio Doglioni, Giovanni Tonon, Francesca Sanvito, Fabrizio Benedicenti, Luigi Naldini, Christof von Kalle, Eugenio Montini, Manfred G. Schmidt, Cynthia C. Bartholomae, and Stefania Merella

Subjects

Cancer Research, Cancer, HCCS, Biology, Bioinformatics, medicine.disease, digestive system diseases, Forward genetics, Viral vector, Transcriptome, Oncology, CDKN2A, Cancer research, biology.protein, medicine, PTEN, Liver cancer

Abstract

Next generation sequencing approaches are identifying a plethora of mutations in a variety of human cancers. However, the potential clinical implications of these new findings are still limited, since the identification of cancer driving mutations is hampered by the co-occurrence of several bystander and progression related events. Here we developed a forward genetics approach based on a new lentiviral vector-based insertional mutagen aimed at identifying liver cancer initiating genes that are relevant in human hepatocarcinogenesis. We generated a replication-defective lentiviral vector (LV) engineered with long terminal repeats carrying hepatospecific enhancers capable to induce hepatocellular carcinoma (HCC) upon a single administration in 3 clinically relevant mouse models of hepatocarcinogenesis. LV injection in newborn mice was able to induce HCC in 30% of Cdkn2a deficient mice (P=0.005 Vs untreated), in 27% of liver-specific Pten deficient mice (P=0.04) and in 75% of wild type mice coupled to CCl4 administration (P=0.002). From 30 LV-induced HCCs we could retrieve LV integrations that allowed the identification of Braf, Fign, Sos1 and Dlk1-Dio3 region as candidate cancer loci. The causative role of these genes in HCC was experimentally validated in vivo by forced expression in the mouse liver. Whole transcriptome gene expression analysis allowed unveiling the molecular pathways on which the new cancer genes have an impact. We showed that tumors with integration within Dlk1-Dio3 imprinted region displayed the overexpression of the paternally expressed gene Rtl1 encoded within the region and a peculiar upregulation of oxidative phosphorylation genes. Conversely, LV-mediated upregulation of Braf and Fign caused the overexpression of all maternal genes from Dlk1-Dio3 region in HCCs which display the downregulation of oxidative phosphorylation genes. Additionally, upregulation of Fign was associated to the deregulation of Wnt pathway in HCCs. We found that all the newly identified cancer genes were significantly upregulated and amplified or deleted in the human HCCs, highlighting a relevant role of these genes in human hepatocarcinogenesis. We also identified the specific molecular signature resulting from the activation of each cancer gene found in murine HCCs. Remarkably, gene expression analyses performed on 3 different human HCC collections showed that the signatures of all the 4 new cancer genes: 1) are present also in human HCCs; 2) can distinguish different HCC stages; 3) can identify different prognostic groups of patients. Moreover, SOS1 expression levels alone can discriminate HCC patients with good or poor overall survival. This study identified new clinically relevant liver cancer genes that may provide novel prognostic markers and therapeutic targets for the diagnosis and treatment of human HCCs. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 104. doi:1538-7445.AM2012-104

Published

2012

12. Abstract 4982: Identification of new human liver cancer genes by a novel lentiviral vector-based insertional mutagenesis approach in three mouse models of hepatocarcinogenesis

Author

Daniela Cesana, Giovanni Tonon, Francesca Sanvito, Lucia Sergi Sergi, Alessandro Bulfone, Manfred G. Schmidt, Cynthia C. Bartholomae, Christof von Kalle, Claudio Doglioni, Marco Ranzani, Eugenio Montini, Mauro Pala, Luigi Naldini, and Fabrizio Benedicenti

Subjects

Cancer Research, Biology, HCCS, Molecular biology, digestive system diseases, Viral vector, Insertional mutagenesis, Oncology, CDKN2A, Gene expression, biology.protein, PTEN, Enhancer, neoplasms, Gene

Abstract

Retrovirus or transposon-based in vivo insertional mutagenesis triggers cancer by activating nearby oncogenes upon integration and led to the discovery of many candidate oncogenes important in human cancer. However, these insertional mutagens constantly undergo integration cycles throughout the life of the animal, thus resulting in several bystander and progression-related integrations that hamper the identification of cancer-initiating events. To overcome these limitations, we generated a replication-defective lentiviral vector (LV) engineered with long terminal repeats carrying hepatospecific enhancers capable to induce hepatocellular carcinoma (HCC) upon a single administration in 3 different mouse models of hepatocarcinogenesis. LV injection in newborn mice was able to induce HCC in 30% of Cdkn2a deficient mice (0 in controls, P=0.005), in 27% of liver-specific Pten deficient mice (6% in controls, P=0.04) and in 75% of wild type mice coupled to CCl4 administration (0 in controls, P=0.002). From 30 LV-induced HCCs we could retrieve 172 unique integrations that allowed the identification of Braf, Fign, Sos1 and Dlk1-Dio3 region as candidate cancer loci. The causative role of these genes in HCC was experimentally validated in vivo by forced expression in the mouse liver. The LV integration in Braf and Sos1 generated constitutively active proteins previously found in human tumors from tissues other than liver. Genome-wide gene expression analyses identified the specific molecular signature resulting from the activation of each cancer gene found in murine HCCs. Remarkably, gene expression analyses performed on 2 different human HCC collections showed that these signatures: 1) are present also in human HCCs; 2) discriminate among normal liver, non-tumoral diseased liver and HCC; 3) can distinguish different HCC stages. All the newly identified cancer genes were significantly upregulated and/or mutated in the human HCCs, underscoring a relevant role of these genes in human hepatocarcinogenesis. Integration of LV at Dlk1-Dio3 locus resulted in the upregulation of the paternally expressed gene Rtl1 and induced HCCs characterized by a peculiar upregulation of oxidative phosphorylation genes. Oppositely, LV-mediated upregulation of Braf and Fign caused the overexpression of all maternal genes from Dlk1-Dio3 locus in HCCs which display a canonical dowregulation of oxidative phosphorylation genes. The latter expression pattern was confirmed in a cohort of human HCCs. Our data indicate that the Dlk1-Dio3 locus plays a relevant role in hepatocarcinogenesis, energy metabolism and stem cell maintenance in mice and humans.This study uncovered a role in human HCCs of some previously known and other completely new oncogenes that altogether may provide novel candidate therapeutic targets and diagnostic markers for human HCCs. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 4982. doi:10.1158/1538-7445.AM2011-4982

Published

2011