Your search keyword '"Tavernari L"' showing total 14 results

1. P1003: PERIPHERAL BLOOD CYTOTOXIC T CELLS SHOW EARLY EXHAUSTED FEATURES IN MYELOFIBROSIS PATIENTS

Author

Tavernari, L., primary, Rontauroli, S., additional, Maccaferri, M., additional, Mora, B., additional, Bianchi, E., additional, Parenti, S., additional, Genovese, E., additional, Guglielmelli, P., additional, Carretta, C., additional, Mallia, S., additional, Mirabile, M., additional, Sartini, S., additional, Colasante, C., additional, Potenza, L., additional, Passamonti, F., additional, Tagliafico, E., additional, Luppi, M., additional, Vannucchi, A. M., additional, and Manfredini, R., additional

Published

2022

2. P987: A DIFFERENT BALANCE IN OXIDATIVE STRESS RESPONSE IN CALR AND JAK2 MUTATED MYELOFIBROSIS PATIENTS CORRELATES WITH CLINICAL OUTCOME

Author

Genovese, E., primary, Mirabile, M., additional, Rontauroli, S., additional, Sartini, S., additional, Fantini, S., additional, Tavernari, L., additional, Maccaferri, M., additional, Guglielmelli, P., additional, Bianchi, E., additional, Parenti, S., additional, Carretta, C., additional, Mallia, S., additional, Castellano, S., additional, Colasante, C., additional, Balliu, M., additional, Bartalucci, N., additional, Palmieri, R., additional, Ottone, T., additional, Mora, B., additional, Potenza, L., additional, Passamonti, F., additional, Voso, M. T., additional, Luppi, M., additional, Vannucchi, A. M., additional, Tagliafico, E., additional, and Manfredini, R., additional

Published

2022

3. P983: SINGLE CELL ANALYSIS ALLOWS THE EARLY DETECTION OF LEUKEMIC CLONES IN MPN PATIENTS

Author

Carretta, C., primary, Parenti, S., additional, Mallia, S., additional, Rontauroli, S., additional, Chiereghin, C., additional, Castellano, S., additional, Bianchi, E., additional, Genovese, E., additional, Sartini, S., additional, Tavernari, L., additional, Mirabile, M., additional, Della Porta, M. G., additional, and Manfredini, R., additional

Published

2022

4. P1000: INCREASED PLASMA LEVELS OF LNCRNAS ARE POTENTIAL PROGNOSTIC BIOMARKERS IN MYELOFIBROSIS

Author

Sartini, S., primary, Fantini, S., additional, Rontauroli, S., additional, Mirabile, M., additional, Bianchi, E., additional, Badii, F., additional, Maccaferri, M., additional, Guglielmelli, P., additional, Ottone, T., additional, Palmieri, R., additional, Genovese, E., additional, Carretta, C., additional, Parenti, S., additional, Mallia, S., additional, Tavernari, L., additional, Salvadori, C., additional, Gesullo, F., additional, Maccari, C., additional, Zizza, M., additional, Grande, A., additional, Salmoiraghi, S., additional, Mora, B., additional, Potenza, L., additional, Rosti, V., additional, Passamonti, F., additional, Rambaldi, A., additional, Voso, M. T., additional, Mecucci, C., additional, Tagliafico, E., additional, Luppi, M., additional, Vannucchi, A. M., additional, and Manfredini, R., additional

Published

2022

5. P999: ERK1/2 INHIBITION REDUCES OSTEOPONTIN PLASMA LEVELS AND BONE MARROW FIBROSIS IN A MYELOFIBROSIS MOUSE MODEL

Author

Rontauroli, S., primary, Bianchi, E., additional, Tavernari, L., additional, Dall’Ora, M., additional, Grisendi, G., additional, Mirabile, M., additional, Sartini, S., additional, Genovese, E., additional, Carretta, C., additional, Mallia, S., additional, Parenti, S., additional, Fabbiani, L., additional, Bartalucci, N., additional, Losi, L., additional, Dominici, M., additional, Vannucchi, A. M., additional, and Manfredini, R., additional

Published

2022

6. Involvement of MAF/SPP1 axis in the development of bone marrow fibrosis in PMF patients

Author

Ruberti, S, Bianchi, E, Guglielmelli, P, Rontauroli, S, Barbieri, G, Tavernari, L, Fanelli, T, Norfo, R, Pennucci, V, Fattori, G Corbizi, Mannarelli, C, Bartalucci, N, Mora, B, Elli, L, Avanzini, M A, Rossi, C, Salmoiraghi, S, Zini, R, Salati, S, Prudente, Z, Rosti, V, Passamonti, F, Rambaldi, A, Ferrari, S, Tagliafico, E, Vannucchi, A M, and Manfredini, R

Abstract

Primary myelofibrosis (PMF) is a myeloproliferative neoplasm characterized by hyperplastic megakaryopoiesis and myelofibrosis. We recently described the upregulation of MAF (v-maf avian musculoaponeurotic fibrosarcoma oncogene homolog) in PMF CD34+ hematopoietic progenitor cells (HPCs) compared to healthy donor. Here we demonstrated that MAF is also upregulated in PMF compared with the essential thrombocytemia (ET) and polycytemia vera (PV) HPCs. MAF overexpression and knockdown experiments shed some light into the role of MAF in PMF pathogenesis, by demonstrating that MAF favors the megakaryocyte and monocyte/macrophage commitment of HPCs and leads to the increased expression of proinflammatory and profibrotic mediators. Among them, we focused our further studies on SPP1 and LGALS3. We assessed SPP1 and LGALS3 protein levels in 115 PMF, 47 ET and 24 PV patients plasma samples and we found that SPP1 plasma levels are significantly higher in PMF compared with ET and PV patients. Furthermore, in vitro assays demonstrated that SPP1 promotes fibroblasts and mesenchymal stromal cells proliferation and collagen production. Strikingly, clinical correlation analyses uncovered that higher SPP1 plasma levels in PMF patients correlate with a more severe fibrosis degree and a shorter overall survival. Collectively our data unveil that MAF overexpression contributes to PMF pathogenesis by driving the deranged production of the profibrotic mediator SPP1.

Published

2018

7. Chromosome 9p trisomy increases stem cells clonogenic potential and fosters T-cell exhaustion in JAK2-mutant myeloproliferative neoplasms.

Author

Carretta C, Parenti S, Bertesi M, Rontauroli S, Badii F, Tavernari L, Genovese E, Malerba M, Papa E, Sperduti S, Enzo E, Mirabile M, Pedrazzi F, Neroni A, Tombari C, Mora B, Maffioli M, Mondini M, Brociner M, Maccaferri M, Tenedini E, Martinelli S, Bartalucci N, Bianchi E, Casarini L, Potenza L, Luppi M, Tagliafico E, Guglielmelli P, Simoni M, Passamonti F, Norfo R, Vannucchi AM, and Manfredini R

Subjects

Humans, T-Lymphocytes immunology, T-Lymphocytes metabolism, Male, Female, Middle Aged, Aged, Adult, T-Cell Exhaustion, Janus Kinase 2 genetics, Myeloproliferative Disorders genetics, Myeloproliferative Disorders pathology, Chromosomes, Human, Pair 9 genetics, Trisomy genetics, Mutation

Abstract

JAK2V617F is the most recurrent genetic mutation in Philadelphia-negative chronic Myeloproliferative Neoplasms (MPNs). Since the JAK2 locus is located on Chromosome 9, we hypothesized that Chromosome 9 copy number abnormalities may be a disease modifier in JAK2V617F-mutant MPN patients. In this study, we identified a subset of MPN patients with partial or complete Chromosome 9 trisomy (+9p patients), who differ from JAK2V617F-homozygous MPN patients as they carry three JAK2 alleles as well as three copies of all neighboring gene loci, including CD274, encoding immunosuppressive Programmed death-ligand 1 (PD-L1) protein. Investigation of the clonal hierarchy revealed that the JAK2V617F occurs first, followed by +9p. Functionally, CD34+ cells from +9p MPN patients demonstrated increased clonogenicity, generating a greater number of primitive colonies, due to high OCT4 and NANOG expression, with knock-down of these genes leading to a genotype-specific decrease in colony numbers. Moreover, our analysis revealed increased PD-L1 surface expression in malignant monocytes from +9p patients, while analysis of the T cell compartment unveiled elevated levels of exhausted cytotoxic T cells. Overall, here we identify a distinct novel subgroup of MPN patients, who feature a synergistic interplay between +9p and JAK2V617F that shapes immune escape characteristics and increased stemness in CD34+ cells., (© 2024. The Author(s).)

Published

2024

8. Targeting exhausted cytotoxic T cells through CTLA-4 inhibition promotes elimination of neoplastic cells in human myelofibrosis xenografts.

Author

Tavernari L, Rontauroli S, Norfo R, Mirabile M, Maccaferri M, Mora B, Genovese E, Parenti S, Carretta C, Bianchi E, Bertesi M, Pedrazzi F, Tenedini E, Martinelli S, Bochicchio MT, Guglielmelli P, Potenza L, Lucchesi A, Passamonti F, Tagliafico E, Luppi M, Vannucchi AM, and Manfredini R

Subjects

Humans, Animals, Mice, Female, Male, Aged, Middle Aged, Heterografts, Lymphocyte Activation drug effects, CTLA-4 Antigen, Primary Myelofibrosis immunology, Primary Myelofibrosis pathology, T-Lymphocytes, Cytotoxic immunology

Abstract

Myeloproliferative neoplasms represent a group of clonal hematopoietic disorders of which myelofibrosis (MF) is the most aggressive. In the context of myeloid neoplasms, there is a growing recognition of the dysregulation of immune response and T-cell function as significant contributors to disease progression and immune evasion. We investigated cytotoxic T-cell exhaustion in MF to restore immune response against malignant cells. Increased expression of inhibitory receptors like CTLA-4 was observed on cytotoxic T cells from MF patients together with a reduced secretion of IFNɣ and TNFɑ. CTLA-4 ligands CD80 and CD86 were increased on MF granulocytes and monocytes highlighting a possible role for myeloid cells in suppressing T-cell activation in MF patients. Unlike healthy donors, the activation of cytotoxic T cells from MF patients was attenuated in the presence of myeloid cells and restored when T cells were cultured alone or treated with anti-CTLA-4. Moreover, anti-CTLA-4 treatment promoted elimination of neoplastic monocytes and granulocytes in a co-culture system with cytotoxic T cells. To test CTLA-4 inhibition in vivo, patient-derived xenografts were generated by transplanting MF CD34+ cells and by infusing homologous T cells in NSGS mice. CTLA-4 blockade reduced human myeloid chimerism and led to T-cell expansion in spleen and bone marrow. Overall, these findings shed light on T-cell dysfunction in MF and suggest that CTLA-4 blockade can boost the cytotoxic T cell-mediated immune response against tumor cells., (© 2024 The Author(s). American Journal of Hematology published by Wiley Periodicals LLC.)

Published

2024

9. Inhibition of ERK1/2 signaling prevents bone marrow fibrosis by reducing osteopontin plasma levels in a myelofibrosis mouse model.

Author

Bianchi E, Rontauroli S, Tavernari L, Mirabile M, Pedrazzi F, Genovese E, Sartini S, Dall'Ora M, Grisendi G, Fabbiani L, Maccaferri M, Carretta C, Parenti S, Fantini S, Bartalucci N, Calabresi L, Balliu M, Guglielmelli P, Potenza L, Tagliafico E, Losi L, Dominici M, Luppi M, Vannucchi AM, and Manfredini R

Subjects

Animals, Mice, Disease Models, Animal, Signal Transduction drug effects, Fibrosis drug therapy, Humans, Primary Myelofibrosis drug therapy, Primary Myelofibrosis metabolism, Primary Myelofibrosis pathology, Osteopontin antagonists & inhibitors, Osteopontin blood, Osteopontin metabolism

Abstract

Clonal myeloproliferation and development of bone marrow (BM) fibrosis are the major pathogenetic events in myelofibrosis (MF). The identification of novel antifibrotic strategies is of utmost importance since the effectiveness of current therapies in reverting BM fibrosis is debated. We previously demonstrated that osteopontin (OPN) has a profibrotic role in MF by promoting mesenchymal stromal cells proliferation and collagen production. Moreover, increased plasma OPN correlated with higher BM fibrosis grade and inferior overall survival in MF patients. To understand whether OPN is a druggable target in MF, we assessed putative inhibitors of OPN expression in vitro and identified ERK1/2 as a major regulator of OPN production. Increased OPN plasma levels were associated with BM fibrosis development in the Romiplostim-induced MF mouse model. Moreover, ERK1/2 inhibition led to a remarkable reduction of OPN production and BM fibrosis in Romiplostim-treated mice. Strikingly, the antifibrotic effect of ERK1/2 inhibition can be mainly ascribed to the reduced OPN production since it could be recapitulated through the administration of anti-OPN neutralizing antibody. Our results demonstrate that OPN is a novel druggable target in MF and pave the way to antifibrotic therapies based on the inhibition of ERK1/2-driven OPN production or the neutralization of OPN activity., (© 2023. The Author(s).)

Published

2023

10. The Response to Oxidative Damage Correlates with Driver Mutations and Clinical Outcome in Patients with Myelofibrosis.

Author

Genovese E, Mirabile M, Rontauroli S, Sartini S, Fantini S, Tavernari L, Maccaferri M, Guglielmelli P, Bianchi E, Parenti S, Carretta C, Mallia S, Castellano S, Colasante C, Balliu M, Bartalucci N, Palmieri R, Ottone T, Mora B, Potenza L, Passamonti F, Voso MT, Luppi M, Vannucchi AM, Tagliafico E, Manfredini R, and On Behalf Of The Mynerva MYeloid NEoplasms Research Venture Airc

Abstract

Myelofibrosis (MF) is the Philadelphia-negative myeloproliferative neoplasm characterized by the worst prognosis and no response to conventional therapy. Driver mutations in JAK2 and CALR impact on JAK-STAT pathway activation but also on the production of reactive oxygen species (ROS). ROS play a pivotal role in inflammation-induced oxidative damage to cellular components including DNA, therefore leading to greater genomic instability and promoting cell transformation. In order to unveil the role of driver mutations in oxidative stress, we assessed ROS levels in CD34+ hematopoietic stem/progenitor cells of MF patients. Our results demonstrated that ROS production in CD34+ cells from CALR -mutated MF patients is far greater compared with patients harboring JAK2 mutation, and this leads to increased oxidative DNA damage. Moreover, CALR -mutant cells show less superoxide dismutase (SOD) antioxidant activity than JAK2 -mutated ones. Here, we show that high plasma levels of total antioxidant capacity (TAC) correlate with detrimental clinical features, such as high levels of lactate dehydrogenase (LDH) and circulating CD34+ cells. Moreover, in JAK2 -mutated patients, high plasma level of TAC is also associated with a poor overall survival (OS), and multivariate analysis demonstrated that high TAC classification is an independent prognostic factor allowing the identification of patients with inferior OS in both DIPSS lowest and highest categories. Altogether, our data suggest that a different capability to respond to oxidative stress can be one of the mechanisms underlying disease progression of myelofibrosis.

Published

2022

11. Increased Plasma Levels of lncRNAs LINC01268 , GAS5 and MALAT1 Correlate with Negative Prognostic Factors in Myelofibrosis.

Author

Fantini S, Rontauroli S, Sartini S, Mirabile M, Bianchi E, Badii F, Maccaferri M, Guglielmelli P, Ottone T, Palmieri R, Genovese E, Carretta C, Parenti S, Mallia S, Tavernari L, Salvadori C, Gesullo F, Maccari C, Zizza M, Grande A, Salmoiraghi S, Mora B, Potenza L, Rosti V, Passamonti F, Rambaldi A, Voso MT, Mecucci C, Tagliafico E, Luppi M, Vannucchi AM, and Manfredini R

Abstract

Long non-coding RNAs (lncRNAs) have been recently described as key mediators in the development of hematological malignancies. In the last years, circulating lncRNAs have been proposed as a new class of non-invasive biomarkers for cancer diagnosis and prognosis and to predict treatment response. The present study is aimed to investigate the potential of circulating lncRNAs as non-invasive prognostic biomarkers in myelofibrosis (MF), the most severe among Philadelphia-negative myeloproliferative neoplasms. We detected increased levels of seven circulating lncRNAs in plasma samples of MF patients ( n = 143), compared to healthy controls ( n = 65). Among these, high levels of LINC01268 , MALAT1 or GAS5 correlate with detrimental clinical variables, such as high count of leukocytes and CD34+ cells, severe grade of bone marrow fibrosis and presence of splenomegaly. Strikingly, high plasma levels of LINC01268 ( p = 0.0018) , GAS5 ( p = 0.0008) or MALAT1 ( p = 0.0348) are also associated with a poor overall-survival while high levels of LINC01268 correlate with a shorter leukemia-free-survival. Finally, multivariate analysis demonstrated that the plasma level of LINC01268 is an independent prognostic variable, suggesting that, if confirmed in future in an independent patients' cohort, it could be used for further studies to design an updated classification model for MF patients.

Published

2021

12. Gene expression profile correlates with molecular and clinical features in patients with myelofibrosis.

Author

Rontauroli S, Castellano S, Guglielmelli P, Zini R, Bianchi E, Genovese E, Carretta C, Parenti S, Fantini S, Mallia S, Tavernari L, Sartini S, Mirabile M, Mannarelli C, Gesullo F, Pacilli A, Pietra D, Rumi E, Salmoiraghi S, Mora B, Villani L, Grilli A, Rosti V, Barosi G, Passamonti F, Rambaldi A, Malcovati L, Cazzola M, Bicciato S, Tagliafico E, Vannucchi AM, and Manfredini R

Subjects

Humans, Transcriptome, Myeloproliferative Disorders, Polycythemia Vera diagnosis, Polycythemia Vera genetics, Primary Myelofibrosis diagnosis, Primary Myelofibrosis genetics, Thrombocythemia, Essential diagnosis, Thrombocythemia, Essential genetics

Abstract

Myelofibrosis (MF) belongs to the family of classic Philadelphia-negative myeloproliferative neoplasms (MPNs). It can be primary myelofibrosis (PMF) or secondary myelofibrosis (SMF) evolving from polycythemia vera (PV) or essential thrombocythemia (ET). Despite the differences, PMF and SMF patients are currently managed in the same way, and prediction of survival is based on the same clinical and genetic features. In the last few years, interest has grown concerning the ability of gene expression profiles (GEPs) to provide valuable prognostic information. Here, we studied the GEPs of granulocytes from 114 patients with MF, using a microarray platform to identify correlations with patient characteristics and outcomes. Cox regression analysis led to the identification of 201 survival-related transcripts characterizing patients who are at high risk for death. High-risk patients identified by this gene signature displayed an inferior overall survival and leukemia-free survival, together with clinical and molecular detrimental features included in contemporary prognostic models, such as the presence of high molecular risk mutations. The high-risk group was enriched in post-PV and post-ET MF and JAK2V617F homozygous patients, whereas pre-PMF was more frequent in the low-risk group. These results demonstrate that GEPs in MF patients correlate with their molecular and clinical features, particularly their survival, and represent the proof of concept that GEPs might provide complementary prognostic information to be applied in clinical decision making., (© 2021 by The American Society of Hematology.)

Published

2021

13. Mutated clones driving leukemic transformation are already detectable at the single-cell level in CD34-positive cells in the chronic phase of primary myelofibrosis.

Author

Parenti S, Rontauroli S, Carretta C, Mallia S, Genovese E, Chiereghin C, Peano C, Tavernari L, Bianchi E, Fantini S, Sartini S, Romano O, Bicciato S, Tagliafico E, Della Porta M, and Manfredini R

Abstract

Disease progression of myeloproliferative neoplasms is the result of increased genomic complexity. Since the ability to predict disease evolution is crucial for clinical decisions, we studied single-cell genomics and transcriptomics of CD34-positive cells from a primary myelofibrosis (PMF) patient who progressed to acute myeloid leukemia (AML) while receiving Ruxolitinib. Single-cell genomics allowed the reconstruction of clonal hierarchy and demonstrated that TET2 was the first mutated gene while FLT3 was the last one. Disease evolution was accompanied by increased clonal heterogeneity and mutational rate, but clones carrying TP53 and FLT3 mutations were already present in the chronic phase. Single-cell transcriptomics unraveled repression of interferon signaling suggesting an immunosuppressive effect exerted by Ruxolitinib. Moreover, AML transformation was associated with a differentiative block and immune escape. These results suggest that single-cell analysis can unmask tumor heterogeneity and provide meaningful insights about PMF progression that might guide personalized therapy.

Published

2021

14. Genomic Analysis of Hematopoietic Stem Cell at the Single-Cell Level: Optimization of Cell Fixation and Whole Genome Amplification (WGA) Protocol.

Author

Carretta C, Mallia S, Genovese E, Parenti S, Rontauroli S, Bianchi E, Fantini S, Sartini S, Tavernari L, Tagliafico E, and Manfredini R

Subjects

Cell Line, Genome, Human, Humans, K562 Cells, Single-Cell Analysis methods, Clonal Evolution, Genomics methods, Hematologic Neoplasms genetics, Hematopoietic Stem Cells, Nucleic Acid Amplification Techniques methods

Abstract

Single-cell genomics has become the method of choice for the study of heterogeneous cell populations and represents an elective application in defining the architecture and clonal evolution in hematological neoplasms. Reconstructing the clonal evolution of a neoplastic population therefore represents the main way to understand more deeply the pathogenesis of the neoplasm, but it is also a potential tool to understand the evolution of the tumor population with respect to its response to therapy. Pre-analytical phase for single-cell genomics analysis is crucial to obtain a cell population suitable for single-cell sorting, and whole genome amplification is required to obtain the necessary amount of DNA from a single cell in order to proceed with sequencing. Here, we evaluated the impact of different methods of cellular immunostaining, fixation and whole genome amplification on the efficiency and yield of single-cell sequencing.

Published

2020