Your search keyword '"Roberta Bordo"' showing total 11 results

1. Complete neural stem cell (NSC) neuronal differentiation requires a branched chain amino acids-induced persistent metabolic shift towards energy metabolism

Author

Alessandra Valerio, Vincenzo Corbo, Donatella Bardelli, Maria Grazia Cattaneo, Emanuela Bottani, Maurizio Ragni, Stefania Zorzin, Laura Tedesco, Patrizia Bossolasco, Guido Francesco Fumagalli, Ilaria Decimo, Enzo Nisoli, Raluca Georgiana Zamfir, Fabio Rossi, Pietro Delfino, Roberta Bordo, Francesco Bifari, Marzia Di Chio, Annachiara Pino, Sissi Dolci, and Dario Brunetti

Subjects

0301 basic medicine, Dendritic spine, Dendritic Spines, Neurogenesis, Induced Pluripotent Stem Cells, Oxidative phosphorylation, mTORC1, Mechanistic Target of Rapamycin Complex 1, 03 medical and health sciences, Mice, 0302 clinical medicine, ROS metabolism, Adenosine Triphosphate, Neural Stem Cells, Animals, Humans, Induced pluripotent stem cell, Cell Proliferation, Pharmacology, chemistry.chemical_classification, Cell metabolism, Chemistry, Human iPSC, Metabolic rewiring, Neural stem cells, Neuronal differentiation, Neuronal Differentiation, human iPSC, Cell Differentiation, Neural stem cell, Cell biology, Amino acid, Mitochondria, Citric acid cycle, 030104 developmental biology, nervous system, mitochondrial fusion, 030220 oncology & carcinogenesis, Synapses, Energy Metabolism, Reactive Oxygen Species, Transcriptome, Amino Acids, Branched-Chain

Abstract

Neural stem cell (NSC) neuronal differentiation requires a metabolic shift towards oxidative phosphorylation. We now show that a branched-chain amino acids-driven, persistent metabolic shift toward energy metabolism is required for full neuronal maturation. We increased energy metabolism of differentiating neurons derived both from murine NSCs and human induced pluripotent stem cells (iPSCs) by supplementing the cell culture medium with a mixture composed of branched-chain amino acids, essential amino acids, TCA cycle precursors and co-factors. We found that treated differentiating neuronal cells with enhanced energy metabolism increased: i) total dendritic length; ii) the mean number of branches and iii) the number and maturation of the dendritic spines. Furthermore, neuronal spines in treated neurons appeared more stable with stubby and mushroom phenotype and with increased expression of molecules involved in synapse formation. Treated neurons modified their mitochondrial dynamics increasing the mitochondrial fusion and, consistently with the increase of cellular ATP content, they activated cellular mTORC1 dependent p70S6 K1 anabolism. Global transcriptomic analysis further revealed that treated neurons induce Nrf2 mediated gene expression. This was correlated with a functional increase in the Reactive Oxygen Species (ROS) scavenging mechanisms. In conclusion, persistent branched-chain amino acids-driven metabolic shift toward energy metabolism enhanced neuronal differentiation and antioxidant defences. These findings offer new opportunities to pharmacologically modulate NSC neuronal differentiation and to develop effective strategies for treating neurodegenerative diseases.

Published

2020

2. Resistance to PI3Kδ inhibitors in marginal zone lymphoma can be reverted by targeting the IL-6/PDGFRA axis

Author

Alberto J. Arribas, Sara Napoli, Luciano Cascione, Giulio Sartori, Laura Barnabei, Eugenio Gaudio, Chiara Tarantelli, Afua Adjeiwaa Mensah, Filippo Spriano, Antonella Zucchetto, Francesca M Rossi, Andrea Rinaldi, Manuel Castro de Moura, Sandra Jovic, Roberta Bordone-Pittau, Alessandra Di Veroli, Anastasios Stathis, Gabriele Cruciani, Georg Stussi, Valter Gattei, Jennifer R. Brown, Manel Esteller, Emanuele Zucca, Davide Rossi, and Francesco Bertoni

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

PI3Kδ inhibitors are active in patients with lymphoid neoplasms and a first series of them have been approved for the treatment of multiple types of B-cell lymphoid tumors, including marginal zone lymphoma (MZL). The identification of the mechanisms underlying either primary or secondary resistance is fundamental to optimize the use of novel drugs. Here we present a model of secondary resistance to PI3Kδ inhibitors obtained by prolonged exposure of a splenic MZL cell line to idelalisib. The VL51 cell line was kept under continuous exposure to idelalisib. The study included detailed characterization of the model, pharmacological screens, silencing experiments, and validation experiments on multiple cell lines and on clinical specimens. VL51 developed resistance to idelalisib, copanlisib, duvelisib, and umbralisib. An integrative analysis of transcriptome and methylation data highlighted an enrichment of upregulated transcripts and low-methylated promoters in resistant cells, including IL-6/STAT3- and PDGFRA-related genes and surface CD19 expression, alongside the repression of the let-7 family of miRNA, and miR-125, miR-130, miR-193 and miR-20. The IL-6R blocking antibody tocilizumab, the STAT3 inhibitor stattic, the LIN28 inhibitor LIN1632, the PDGFR inhibitor masitinib and the anti-CD19 antibody drug conjugate loncastuximab tesirine were active compounds in the resistant cells as single agents and/or in combination with PI3Kδ inhibition. Findings were validated on additional in vitro lymphoma models and on clinical specimens. A novel model of resistance obtained from splenic MZL allowed the identification of therapeutic approaches able to improve the antitumor activity of PI3Kδ inhibitors in B-cell lymphoid tumors.

Published

2022

3. Contribution of Rare and Low-Frequency Variants to Multiple Sclerosis Susceptibility in the Italian Continental Population

Author

Ferdinando Clarelli, Nadia Barizzone, Eleonora Mangano, Miriam Zuccalà, Chiara Basagni, Santosh Anand, Melissa Sorosina, Elisabetta Mascia, Silvia Santoro, PROGEMUS, PROGRESSO, Franca Rosa Guerini, Eleonora Virgilio, Antonio Gallo, Alessandro Pizzino, Cristoforo Comi, Vittorio Martinelli, Giancarlo Comi, Gianluca De Bellis, Maurizio Leone, Massimo Filippi, Federica Esposito, Roberta Bordoni, Filippo Martinelli Boneschi, Sandra D'Alfonso, P Crociani, D Vecchio, P Ragonese, A Gajofatto, E Scarpini, A Bertolotto, D Caputo, C Gasperini, F Granella, S Cordera, P Cavallo, R Cavallo, R Bergamaschi, G Ristori, C Solaro, F Martinelli, F Passantino, M Pugliatti, A Gallo, L Brambilla, C Clerico, F Capone, F Esposito, G Liberatore, M Rodegher, p Rossi, M Radaelli, L Moiola, B Colombo, A Ghezzi, A Annovazzi, R Capra, G Coniglio, M. P Amato, B Nacmias, G Tedeschi, A D’Ambrosio, P Cavalla, F Patti, E D’Amico, D Galimberti, P Gallo, M Atzori, L Grimaldi, S Bucello, G Mancardi, and E Capello

Subjects

multiple sclerosis, rare variants, EFCAB13, pool sequencing, burden test, Genetics, QH426-470

Abstract

Genome-wide association studies identified over 200 risk loci for multiple sclerosis (MS) focusing on common variants, which account for about 50% of disease heritability. The goal of this study was to investigate whether low-frequency and rare functional variants, located in MS-established associated loci, may contribute to disease risk in a relatively homogeneous population, testing their cumulative effect (burden) with gene-wise tests. We sequenced 98 genes in 588 Italian patients with MS and 408 matched healthy controls (HCs). Variants were selected using different filtering criteria based on allelic frequency and in silico functional impacts. Genes showing a significant burden (n = 17) were sequenced in an independent cohort of 504 MS and 504 HC. The highest signal in both cohorts was observed for the disruptive variants (stop-gain, stop-loss, or splicing variants) located in EFCAB13, a gene coding for a protein of an unknown function (p < 10–4). Among these variants, the minor allele of a stop-gain variant showed a significantly higher frequency in MS versus HC in both sequenced cohorts (p = 0.0093 and p = 0.025), confirmed by a meta-analysis on a third independent cohort of 1298 MS and 1430 HC (p = 0.001) assayed with an SNP array. Real-time PCR on 14 heterozygous individuals for this variant did not evidence the presence of the stop-gain allele, suggesting a transcript degradation by non-sense mediated decay, supported by the evidence that the carriers of the stop-gain variant had a lower expression of this gene (p = 0.0184). In conclusion, we identified a novel low-frequency functional variant associated with MS susceptibility, suggesting the possible role of rare/low-frequency variants in MS as reported for other complex diseases.

Published

2022

4. Author Correction: Genome sequencing of Prototheca zopfii genotypes 1 and 2 provides evidence of a severe reduction in organellar genomes

Author

Marco Severgnini, Barbara Lazzari, Emanuele Capra, Stefania Chessa, Mario Luini, Roberta Bordoni, Bianca Castiglioni, Matteo Ricchi, and Paola Cremonesi

Subjects

Medicine, Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2022

5. Targeting CD205 with the antibody drug conjugate MEN1309/OBT076 is an active new therapeutic strategy in lymphoma models

Author

Eugenio Gaudio, Chiara Tarantelli, Filippo Spriano, Francesca Guidetti, Giulio Sartori, Roberta Bordone, Alberto J. Arribas, Luciano Cascione, Mario Bigioni, Giuseppe Merlino, Alessio Fiascarelli, Alessandro Bressan, Afua Adjeiwaa Mensah, Gaetanina Golino, Renzo Lucchini, Elena Bernasconi, Davide Rossi, Emanuele Zucca, Georg Stussi, Anastasios Stathis, Robert S. Boyd, Rachel L. Dusek, Arnima Bisht, Nickolas Attanasio, Christian Rohlff, Andrea Pellacani, Monica Binaschi, and Francesco Bertoni

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Antibody drug conjugates represent an important class of anti-cancer drugs in both solid tumors and hematological cancers. Here, we report preclinical data on the anti-tumor activity of the first-in-class antibody drug conjugate MEN1309/OBT076 targeting CD205. The study included preclinical in vitro activity screening on a large panel of cell lines, both as single agent and in combination and validation experiments on in vivo models. CD205 was first shown frequently expressed in lymphomas, leukemias and multiple myeloma by immunohistochemistry on tissue microarrays. Anti-tumor activity of MEN1309/OBT076 as single agent was then shown across 42 B-cell lymphoma cell lines with a median IC50 of 200 pM and induction of apoptosis in 25/42 (59.5%) of the cases. The activity appeared highly correlated with its target expression. After in vivo validation as the single agent, the antibody drug conjugate synergized with the BCL2 inhibitor venetoclax, and the anti-CD20 monoclonal antibody rituximab. The first-in-class antibody drug targeting CD205, MEN1309/OBT076, demonstrated strong pre-clinical anti-tumor activity in lymphoma, warranting further investigations as a single agent and in combination.

Published

2020

6. The novel CD19-targeting antibody-drug conjugate huB4-DGN462 shows improved anti-tumor activity compared to SAR3419 in CD19-positive lymphoma and leukemia models

Author

Stuart W. Hicks, Chiara Tarantelli, Alan Wilhem, Eugenio Gaudio, Min Li, Alberto J. Arribas, Filippo Spriano, Roberta Bordone, Luciano Cascione, Katharine C. Lai, Qifeng Qiu, Monica Taborelli, Davide Rossi, Georg Stussi, Emanuele Zucca, Anastasios Stathis, Callum M. Sloss, and Francesco Bertoni

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Antibody-drug conjugates (ADC) are a novel way to deliver potent cytotoxic compounds to cells expressing a specific antigen. Four ADC targeting CD19, including SAR3419 (coltuximab ravtansine), have entered clinical development. Here, we present huB4-DGN462, a novel ADC based on the SAR3419 anti-CD19 antibody linked via sulfo-SPDB to the potent DNA-alkylating agent DGN462. huB4-DGN462 had improved in vitro anti-proliferative and cytotoxic activity compared to SAR3419 across multiple B-cell lymphoma and human acute lymphoblastic leukemia cell lines. In vivo experiments using lymphoma xenografts models confirmed the in vitro data. The response of B-cell lymphoma lines to huB4-DGN462 was not correlated with CD19 expression, the presence of BCL2 or MYC translocations, TP53 inactivation or lymphoma histology. In conclusion, huB4-DGN462 is an attractive candidate for clinical investigation in patients with B-cell malignancies.

Published

2019

7. The Genome-Wide Impact of Nipblb Loss-of-Function on Zebrafish Gene Expression

Author

Marco Spreafico, Eleonora Mangano, Mara Mazzola, Clarissa Consolandi, Roberta Bordoni, Cristina Battaglia, Silvio Bicciato, Anna Marozzi, and Anna Pistocchi

Subjects

NIPBL, RNA sequencing, zebrafish, gene expression regulation, acute myeloid leukemia, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Transcriptional changes normally occur during development but also underlie differences between healthy and pathological conditions. Transcription factors or chromatin modifiers are involved in orchestrating gene activity, such as the cohesin genes and their regulator NIPBL. In our previous studies, using a zebrafish model for nipblb knockdown, we described the effect of nipblb loss-of-function in specific contexts, such as central nervous system development and hematopoiesis. However, the genome-wide transcriptional impact of nipblb loss-of-function in zebrafish embryos at diverse developmental stages remains under investigation. By RNA-seq analyses in zebrafish embryos at 24 h post-fertilization, we examined genome-wide effects of nipblb knockdown on transcriptional programs. Differential gene expression analysis revealed that nipblb loss-of-function has an impact on gene expression at 24 h post fertilization, mainly resulting in gene inactivation. A similar transcriptional effect has also been reported in other organisms, supporting the use of zebrafish as a model to understand the role of Nipbl in gene regulation during early vertebrate development. Moreover, we unraveled a connection between nipblb-dependent differential expression and gene expression patterns of hematological cell populations and AML subtypes, enforcing our previous evidence on the involvement of NIPBL-related transcriptional dysregulation in hematological malignancies.

Published

2020

8. A Census of Tandemly Repeated Polymorphic Loci in Genic Regions Through the Comparative Integration of Human Genome Assemblies

Author

Loredana M. Genovese, Filippo Geraci, Lucia Corrado, Eleonora Mangano, Romina D'Aurizio, Roberta Bordoni, Marco Severgnini, Giovanni Manzini, Gianluca De Bellis, Sandra D'Alfonso, and Marco Pellegrini

Subjects

variable number tandem repeats, short tandem repeats, polymorphic tandem repeats, genic regions, catalog, tandem repeat detection tools, Genetics, QH426-470

Abstract

Polymorphic Tandem Repeat (PTR) is a common form of polymorphism in the human genome. A PTR consists in a variation found in an individual (or in a population) of the number of repeating units of a Tandem Repeat (TR) locus of the genome with respect to the reference genome. Several phenotypic traits and diseases have been discovered to be strongly associated with or caused by specific PTR loci. PTR are further distinguished in two main classes: Short Tandem Repeats (STR) when the repeating unit has size up to 6 base pairs, and Variable Number Tandem Repeats (VNTR) for repeating units of size above 6 base pairs. As larger and larger populations are screened via high throughput sequencing projects, it becomes technically feasible and desirable to explore the association between PTR and a panoply of such traits and conditions. In order to facilitate these studies, we have devised a method for compiling catalogs of PTR from assembled genomes, and we have produced a catalog of PTR for genic regions (exons, introns, UTR and adjacent regions) of the human genome (GRCh38). We applied four different TR discovery software tools to uncover in the first phase 55,223,485 TR (after duplicate removal) in GRCh38, of which 373,173 were determined to be PTR in the second phase by comparison with five assembled human genomes. Of these, 263,266 are not included by state-of-the-art PTR catalogs. The new methodology is mainly based on a hierarchical and systematic application of alignment-based sequence comparisons to identify and measure the polymorphism of TR. While previous catalogs focus on the class of STR of small total size, we remove any size restrictions, aiming at the more general class of PTR, and we also target fuzzy TR by using specific detection tools. Similarly to other previous catalogs of human polymorphic loci, we focus our catalog toward applications in the discovery of disease-associated loci. Validation by cross-referencing with existing catalogs on common clinically-relevant loci shows good concordance. Overall, this proposed census of human PTR in genic regions is a shared resource (web accessible), complementary to existing catalogs, facilitating future genome-wide studies involving PTR.

Published

2018

9. A Genomic, Transcriptomic and Proteomic Look at the GE2270 Producer Planobispora rosea, an Uncommon Actinomycete.

Author

Arianna Tocchetti, Roberta Bordoni, Giuseppe Gallo, Luca Petiti, Giorgio Corti, Silke Alt, Joao C S Cruz, Anna Maria Salzano, Andrea Scaloni, Anna Maria Puglia, Gianluca De Bellis, Clelia Peano, Stefano Donadio, and Margherita Sosio

Subjects

Medicine, Science

Abstract

We report the genome sequence of Planobispora rosea ATCC 53733, a mycelium-forming soil-dweller belonging to one of the lesser studied genera of Actinobacteria and producing the thiopeptide GE2270. The P. rosea genome presents considerable convergence in gene organization and function with other members in the family Streptosporangiaceae, with a significant number (44%) of shared orthologs. Patterns of gene expression in P. rosea cultures during exponential and stationary phase have been analyzed using whole transcriptome shotgun sequencing and by proteome analysis. Among the differentially abundant proteins, those involved in protein metabolism are particularly represented, including the GE2270-insensitive EF-Tu. Two proteins from the pbt cluster, directing GE2270 biosynthesis, slightly increase their abundance values over time. While GE2270 production starts during the exponential phase, most pbt genes, as analyzed by qRT-PCR, are down-regulated. The exception is represented by pbtA, encoding the precursor peptide of the ribosomally synthesized GE2270, whose expression reached the highest level at the entry into stationary phase.

Published

2015

10. Whole genome SNP genotyping and exome sequencing reveal novel genetic variants and putative causative genes in congenital hyperinsulinism.

Author

Maria Carla Proverbio, Eleonora Mangano, Alessandra Gessi, Roberta Bordoni, Roberta Spinelli, Rosanna Asselta, Paola Sogno Valin, Stefania Di Candia, Ilaria Zamproni, Cecilia Diceglie, Stefano Mora, Manuela Caruso-Nicoletti, Alessandro Salvatoni, Gianluca De Bellis, and Cristina Battaglia

Subjects

Medicine, Science

Abstract

Congenital hyperinsulinism of infancy (CHI) is a rare disorder characterized by severe hypoglycemia due to inappropriate insulin secretion. The genetic causes of CHI have been found in genes regulating insulin secretion from pancreatic β-cells; recessive inactivating mutations in the ABCC8 and KCNJ11 genes represent the most common events. Despite the advances in understanding the molecular pathogenesis of CHI, specific genetic determinants in about 50 % of the CHI patients remain unknown, suggesting additional locus heterogeneity. In order to search for novel loci contributing to the pathogenesis of CHI, we combined a family-based association study, using the transmission disequilibrium test on 17 CHI patients lacking mutations in ABCC8/KCNJ11, with a whole-exome sequencing analysis performed on 10 probands. This strategy allowed the identification of the potential causative mutations in genes implicated in the regulation of insulin secretion such as transmembrane proteins (CACNA1A, KCNH6, KCNJ10, NOTCH2, RYR3, SCN8A, TRPV3, TRPC5), cytosolic (ACACB, CAMK2D, CDKAL1, GNAS, NOS2, PDE4C, PIK3R3) and mitochondrial enzymes (PC, SLC24A6), and in four genes (CSMD1, SLC37A3, SULF1, TLL1) suggested by TDT family-based association study. Moreover, the exome-sequencing approach resulted to be an efficient diagnostic tool for CHI, allowing the identification of mutations in three causative CHI genes (ABCC8, GLUD1, and HNF1A) in four out of 10 patients. Overall, the present study should be considered as a starting point to design further investigations: our results might indeed contribute to meta-analysis studies, aimed at the identification/confirmation of novel causative or modifier genes.

Published

2013

11. Deep sequencing reveals double mutations in cis of MPL exon 10 in myeloproliferative neoplasms

Author

Daniela Pietra, Angela Brisci, Elisa Rumi, Sabrina Boggi, Chiara Elena, Alessandro Pietrelli, Roberta Bordoni, Maurizio Ferrari, Francesco Passamonti, Gianluca De Bellis, Laura Cremonesi, and Mario Cazzola

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Somatic mutations of MPL exon 10, mainly involving a W515 substitution, have been described in JAK2 (V617F)-negative patients with essential thrombocythemia and primary myelofibrosis. We used direct sequencing and high-resolution melt analysis to identify mutations of MPL exon 10 in 570 patients with myeloproliferative neoplasms, and allele specific PCR and deep sequencing to further characterize a subset of mutated patients. Somatic mutations were detected in 33 of 221 patients (15%) with JAK2 (V617F)-negative essential thrombocythemia or primary myelofibrosis. Only one patient with essential thrombocythemia carried both JAK2 (V617F) and MPL (W515L). High-resolution melt analysis identified abnormal patterns in all the MPL mutated cases, while direct sequencing did not detect the mutant MPL in one fifth of them. In 3 cases carrying double MPL mutations, deep sequencing analysis showed identical load and location in cis of the paired lesions, indicating their simultaneous occurrence on the same chromosome.

Published

2011