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3. Hematopoietic stem cell function in b-thalassemia is impaired and is rescued by targeting the bone marrow niche

Author

Aprile, A, Gulino, A, Storto, M, Villa, I, Beretta, S, Merelli, I, Rubinacci, A, Ponzoni, M, Marktel, S, Tripodo, C, Lidonnici, M, Ferrari, G, Aprile A., Gulino A., Storto M., Villa I., Beretta S., Merelli I., Rubinacci A., Ponzoni M., Marktel S., Tripodo C., Lidonnici M. R., Ferrari G., Aprile, A, Gulino, A, Storto, M, Villa, I, Beretta, S, Merelli, I, Rubinacci, A, Ponzoni, M, Marktel, S, Tripodo, C, Lidonnici, M, Ferrari, G, Aprile A., Gulino A., Storto M., Villa I., Beretta S., Merelli I., Rubinacci A., Ponzoni M., Marktel S., Tripodo C., Lidonnici M. R., and Ferrari G.

Abstract

Hematopoietic stem cells (HSCs) are regulated by signals from the bone marrow (BM) niche that tune hematopoiesis at steady state and in hematologic disorders. To understand HSC-niche interactions in altered nonmalignant homeostasis, we selected b-thalassemia, a hemoglobin disorder, as a paradigm. In this severe congenital anemia, alterations secondary to the primary hemoglobin defect have a potential impact on HSC-niche cross talk. We report that HSCs in thalassemic mice (th3) have an impaired function, caused by the interaction with an altered BM niche. The HSC self-renewal defect is rescued after cell transplantation into a normal microenvironment, thus proving the active role of the BM stroma. Consistent with the common finding of osteoporosis in patients, we found reduced bone deposition with decreased levels of parathyroid hormone (PTH), which is a key regulator of bone metabolism but also of HSC activity. In vivo activation of PTH signaling through the reestablished Jagged1 and osteopontin levels correlated with the rescue of the functional pool of th3 HSCs by correcting HSC-niche cross talk. Reduced HSC quiescence was confirmed in thalassemic patients, along with altered features of the BM stromal niche. Our findings reveal a defect in HSCs in b-thalassemia induced by an altered BM microenvironment and provide novel and relevant insight for improving transplantation and gene therapy approaches.

Published
2020

4. S106: LONG-TERM FOLLOW-UP OF BETA-THALASSEMIA PATIENTS TREATED WITH HEMATOPOIETIC STEM CELL GENE THERAPY

Author

Marktel, S, primary, Scaramuzza, S, additional, Giglio, F, additional, Cicalese, M, additional, Lidonnici, M, additional, Rossi, C, additional, Calbi, V, additional, Masera, N, additional, D’Angelo, E, additional, Mirra, N, additional, Origa, R, additional, Tartaglione, I, additional, Perrotta, S, additional, Viarengo, G, additional, Santoleri, L, additional, Milani, R, additional, Gattillo, S, additional, Calabria, A, additional, Montini, E, additional, Graziadei, G, additional, Naldini, L, additional, Cappellini, M, additional, Aiuti, A, additional, Ciceri, F, additional, and Ferrari, G, additional

Published
2022
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8. Erratum: Targeting autophagy potentiates tyrosine kinase inhibitor-induced cell death in Philadelphia chromosome-positive cells, including primary CML stem cells (Journal of Clinical Investigation (2009) 119:5 (1109-1123) DOI: 10.1172/JCI35660)

Author

Bellodi, C., Lidonnici, M. R., Hamilton, A., Helgason, G. V., Soliera, A. R., Ronchetti, M., Galavotti, S., Young, K. W., Selmi, T., Yacobi, R., Van Etten, R. A., Donato, N., Hunter, A., Dinsdale, D., Tirro, E., Vigneri, P., Nicotera, P., Dyer, M. J., Holyoake, T., Salomoni, P., and Calabretta, B.

Published
2013

10. Expression of CCL9/MIP-1bold italic gamma is repressed by BCR/ABL and its restoration suppresses in vivo leukemogenesis of 32D-BCR/ABL cells

Author

Iotti, G, Ferrari Amorotti, G, Rosafio, C, Corradini, F, Lidonnici, M, Ronchetti, M, Bardini, M, Zhang, Y, Martinez, R, Blasi, F, Calabretta, B, Lidonnici, MR, Calabretta, B., BARDINI, MICHELA, Iotti, G, Ferrari Amorotti, G, Rosafio, C, Corradini, F, Lidonnici, M, Ronchetti, M, Bardini, M, Zhang, Y, Martinez, R, Blasi, F, Calabretta, B, Lidonnici, MR, Calabretta, B., and BARDINI, MICHELA

Abstract

Transformation of hematopoietic cells by the BCR/ABL oncogene is caused by perturbation of signal transduction pathways leading to altered patterns of gene expression and activity. By oligonucleotide microarray hybridization of polysomal RNA of untreated and STI571-treated 32DBCR/ABL cells, we identified the beta-chemokine CCL9 as a gene regulated by BCR/ABL in a tyrosine kinasedependent manner. BCR/ABL repressed CCL9 expression at the transcriptional level by mechanisms involving suppression of p38 MAP kinase, and modulation of the activity of CDP/cut and C/EBP alpha, two transcription regulators of myeloid differentiation. However, repression of C/EBP-dependent transcription did not prevent the induction of CCL9 expression by STI571, suggesting that C/EBP alpha is involved in maintaining rather than in inducing CCL9 expression. Restoration of CCL9 expression in 32D-BCR/ABL cells had no effect on the in vitro proliferation of these cells, but reduced their leukemogenic potential in vivo, possibly by recruitment of CD3-positive immune cells. Together, these findings suggest that downregulation of chemokine expression may be involved in BCR/ABL-dependent leukemogenesis by altering the relationship between transformed cells and the microenvironment

Published
2007

12. Hematopoietic stem cell function in b-thalassemia is impaired and is rescued by targeting the bone marrow niche

Author

Alessandro Rubinacci, Mariangela Storto, Maria Rosa Lidonnici, Stefano Beretta, Ivan Merelli, Annamaria Aprile, Sarah Marktel, Alessandro Gulino, Isabella Villa, Claudio Tripodo, Maurilio Ponzoni, Giuliana Ferrari, Aprile, A, Gulino, A, Storto, M, Villa, I, Beretta, S, Merelli, I, Rubinacci, A, Ponzoni, M, Marktel, S, Tripodo, C, Lidonnici, M, Ferrari, G, Aprile, A., Gulino, A., Storto, M., Villa, I., Beretta, S., Merelli, I., Rubinacci, A., Ponzoni, M., Marktel, S., Tripodo, C., Lidonnici, M. R., Ferrari, G., Aprile, Annamaria, Gulino, Alessandro, Storto, Mariangela, Villa, Isabella, Beretta, Stefano, Merelli, Ivan, Rubinacci, Alessandro, Ponzoni, Maurilio, Marktel, Sarah, Tripodo, Claudio, Lidonnici, Maria Rosa, and Ferrari, Giuliana

Subjects
Male, Stromal cell, Immunology, bone marrow, mice, thalassemia, hematopoietic stem cells, transplantation, parathyroid hormone, Settore MED/08 - Anatomia Patologica, Biochemistry, Bone remodeling, Mice, Bone Marrow, medicine, Animals, Humans, Osteopontin, Stem Cell Niche, Hematopoietic stem cell, β-thalassemia, the bone marrow niche, biology, beta-Thalassemia, Hematopoietic stem cell, Cell Biology, Hematology, Hematopoietic Stem Cells, Hematopoiesis, Mice, Inbred C57BL, Transplantation, Haematopoiesis, medicine.anatomical_structure, biology.protein, Cancer research, Female, Bone marrow, Stem cell
Abstract

Hematopoietic stem cells (HSCs) are regulated by signals from the bone marrow (BM) niche that tune hematopoiesis at steady state and in hematologic disorders. To understand HSC-niche interactions in altered nonmalignant homeostasis, we selected β-thalassemia, a hemoglobin disorder, as a paradigm. In this severe congenital anemia, alterations secondary to the primary hemoglobin defect have a potential impact on HSC-niche cross talk. We report that HSCs in thalassemic mice (th3) have an impaired function, caused by the interaction with an altered BM niche. The HSC self-renewal defect is rescued after cell transplantation into a normal microenvironment, thus proving the active role of the BM stroma. Consistent with the common finding of osteoporosis in patients, we found reduced bone deposition with decreased levels of parathyroid hormone (PTH), which is a key regulator of bone metabolism but also of HSC activity. In vivo activation of PTH signaling through the reestablished Jagged1 and osteopontin levels correlated with the rescue of the functional pool of th3 HSCs by correcting HSC-niche cross talk. Reduced HSC quiescence was confirmed in thalassemic patients, along with altered features of the BM stromal niche. Our findings reveal a defect in HSCs in β-thalassemia induced by an altered BM microenvironment and provide novel and relevant insight for improving transplantation and gene therapy approaches.

Published
2020

13. Multiple Integrated Non-clinical Studies Predict the Safety of Lentivirus-Mediated Gene Therapy for β-Thalassemia

Author

Francesca Sanvito, Ylenia Paleari, Annamaria Aprile, Franck Chanut, Luigi Naldini, Fulvio Mavilio, Patrizia Cristofori, Claudia Rossi, Maria Rosa Lidonnici, Giuliana Ferrari, Giacomo Mandelli, Eugenio Montini, Andrea Calabria, Alessandro Ambrosi, Valentina Poletti, Francesca Tiboni, Michela Vezzoli, Carsten W. Lederer, Universita Vita Salute San Raffaele = Vita-Salute San Raffaele University [Milan, Italie] (UniSR), Pierantoni-Morgagni Hospital, Partenaires INRAE, Approches génétiques intégrées et nouvelles thérapies pour les maladies rares (INTEGRARE), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université d'Évry-Val-d'Essonne (UEVE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Généthon, Généthon, École Pratique des Hautes Études (EPHE), Lidonnici, M. R., Paleari, Y., Tiboni, F., Mandelli, G., Rossi, C., Vezzoli, M., Aprile, A., Lederer, C. W., Ambrosi, A., Chanut, F., Sanvito, F., Calabria, A., Poletti, V., Mavilio, F., Montini, E., Naldini, L., Cristofori, P., and Ferrari, G.

Subjects
safety, 0301 basic medicine, thalassemia, lcsh:QH426-470, [SDV]Life Sciences [q-bio], Genetic enhancement, biodistribution, gene therapy, genotoxicity, hematopoiesis, hematopoietic stem cell, integration site, lentiviral vector, preclinical model, Article, Viral vector, 03 medical and health sciences, Genetics, medicine, lcsh:QH573-671, Molecular Biology, Gene, thalassemia gene therapy hematopoiesis hematopoietic stem cell preclinical model safety lentiviral vector biodistribution genotoxicity integration site, biology, lcsh:Cytology, Hematopoietic stem cell, biology.organism_classification, 3. Good health, Clinical trial, lcsh:Genetics, Haematopoiesis, 030104 developmental biology, medicine.anatomical_structure, hematopoiesi, Lentivirus, Cancer research, Molecular Medicine, Stem cell
Abstract

Gene therapy clinical trials require rigorous non-clinical studies in the most relevant models to assess the benefit-to-risk ratio. To support the clinical development of gene therapy for β-thalassemia, we performed in vitro and in vivo studies for prediction of safety. First we developed newly GLOBE-derived vectors that were tested for their transcriptional activity and potential interference with the expression of surrounding genes. Because these vectors did not show significant advantages, GLOBE lentiviral vector (LV) was elected for further safety characterization. To support the use of hematopoietic stem cells (HSCs) transduced by GLOBE LV for the treatment of β-thalassemia, we conducted toxicology, tumorigenicity, and biodistribution studies in compliance with the OECD Principles of Good Laboratory Practice. We demonstrated a lack of toxicity and tumorigenic potential associated with GLOBE LV-transduced cells. Vector integration site (IS) studies demonstrated that both murine and human transduced HSCs retain self-renewal capacity and generate new blood cell progeny in the absence of clonal dominance. Moreover, IS analysis showed an absence of enrichment in cancer-related genes, and the genes targeted by GLOBE LV in human HSCs are well known sites of integration, as seen in other lentiviral gene therapy trials, and have not been associated with clonal expansion. Taken together, these integrated studies provide safety data supporting the clinical application of GLOBE-mediated gene therapy for β-thalassemia. Keywords: thalassemia, gene therapy, hematopoiesis, hematopoietic stem cell, preclinical model, safety, lentiviral vector, biodistribution, genotoxicity, integration site

Published
2018

14. NCOA4-mediated ferritinophagy in macrophages is crucial to sustain erythropoiesis in mice

Author

Maria Rosa Lidonnici, Giorgia Federico, Giuliana Ferrari, Clara Camaschella, Federica Carrillo, Laura Silvestri, Antonella Nai, Francesca Carlomagno, Violante Olivari, Mariateresa Pettinato, Simonetta Geninatti Crich, Nai, A., Lidonnici, M. R., Federico, G., Pettinato, M., Olivari, V., Carrillo, F., Crich, S. G., Ferrari, G., Camaschella, C., Silvestri, L., Carlomagno, F., Nai, Antonella, Lidonnici, Maria Rosa, Federico, Giorgia, Pettinato, Mariateresa, Olivari, Violante, Carrillo, Federica, Geninatti Crich, Simonetta, Ferrari, Giuliana, Camaschella, Clara, Silvestri, Laura, and Carlomagno, Francesca

Subjects
medicine.medical_specialty, Anemia, Macrophage, Red Cells, Nuclear Receptor Coactivators, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, iron deficiency, Internal medicine, medicine, Animals, Erythropoiesi, erythropoiesi, NCOA4, erythropoiesis, ferritinophagy, 030304 developmental biology, 0303 health sciences, Ferritin, biology, Animal, Macrophages, Microcytosis, Hematology, Iron deficiency, medicine.disease, Mice, Inbred C57BL, Endocrinology, Iron-deficiency anemia, Erythropoietin, Red Cell, Ferritins, biology.protein, Erythropoiesis, Hemoglobin, 030215 immunology, medicine.drug
Abstract

Nuclear receptor coactivator 4 (NCOA4) promotes ferritin degradation and Ncoa4-ko mice in a C57BL/6 background show microcytosis and mild anemia, aggravated by iron deficiency. To understand tissue-specific contributions of NCOA4-mediated ferritinophagy we explored the effect of Ncoa4 genetic ablation in the iron-rich Sv129/J strain. Increased body iron content protects these mice from anemia and, in basal conditions, Sv129/J Ncoa4-ko mice show only microcytosis; nevertheless, when fed a low-iron diet they develop a more severe anemia compared to that of wild-type animals. Reciprocal bone marrow (BM) transplantation from wild-type donors into Ncoa4-ko and from Ncoa4-ko into wild-type mice revealed that microcytosis and susceptibility to iron deficiency anemia depend on BM-derived cells. Reconstitution of erythropoiesis with normalization of red blood count and hemoglobin concentration occurred at the same rate in transplanted animals independently of the genotype. Importantly, NCOA4 loss did not affect terminal erythropoiesis in iron deficiency, both in total and specific BM Ncoa4-ko animals compared to controls. On the contrary, upon a low iron diet, spleen from wild-type animals with Ncoa4-ko BM displayed marked iron retention compared to (wild-type BM) controls, indicating defective macrophage iron release in the former. Thus, erythropoietin administration failed to mobilize iron from stores in Ncoa4-ko animals. Furthermore, Ncoa4 inactivation in thalassemic mice did not worsen the hematologic phenotype. Overall our data reveal a major role for NCOA4-mediated ferritinophagy in macrophages to favor iron release for erythropoiesis, especially in iron deficiency.

Published
2021

15. Correcting b-thalassemia by combined therapies that restrict iron and modulate erythropoietin activity

Author

Hagit Domev, Despina Sitara, Nir Shapir, Garry A. Neil, Mariateresa Pettinato, Giuliana Ferrari, Emir O'Hara, Kevin A. Munoz, Antonella Nai, Maria Rosa Lidonnici, Shuling Guo, Stefano Rivella, Vania Lo Presti, Carla Casu, Simona Maria Di Modica, Violante Olivari, Sheri L. Booten, Alison Liu, Reem Miari, Mariam Aghajan, Inbal Zafir-Lavie, Casu, C., Pettinato, M., Liu, A., Aghajan, M., Lo Presti, V., Lidonnici, M. R., Munoz, K. A., O'Hara, E., Olivari, V., Di Modica, S. M., Booten, S., Guo, S., Neil, G., Miari, R., Shapir, N., Zafir-Lavie, I., Domev, H., Ferrari, G., Sitara, D., Nai, A., and Rivella, S.

Subjects
Male, Ineffective erythropoiesis, Iron Overload, Anemia, Iron, Thalassemia, Immunology, Mice, Transgenic, Transferrin receptor, Pharmacology, medicine.disease_cause, Biochemistry, Mice, Red Cells, Iron, and Erythropoiesis, Hepcidin, hemic and lymphatic diseases, Receptors, Transferrin, medicine, Animals, Erythropoiesis, Erythropoietin, Cells, Cultured, biology, business.industry, Serine Endopeptidases, beta-Thalassemia, Membrane Proteins, Genetic Therapy, Cell Biology, Hematology, Oligonucleotides, Antisense, medicine.disease, Mice, Inbred C57BL, Red blood cell, medicine.anatomical_structure, Gene Expression Regulation, biology.protein, business, medicine.drug
Abstract

β-Thalassemia intermedia is a disorder characterized by ineffective erythropoiesis (IE), anemia, splenomegaly, and systemic iron overload. Novel approaches are being explored based on the modulation of pathways that reduce iron absorption (ie, using hepcidin activators like Tmprss6-antisense oligonucleotides [ASOs]) or increase erythropoiesis (by erythropoietin [EPO] administration or modulating the ability of transferrin receptor 2 [Tfr2] to control red blood cell [RBC] synthesis). Targeting Tmprss6 messenger RNA by Tmprss6-ASO was proven to be effective in improving IE and splenomegaly by inducing iron restriction. However, we postulated that combinatorial strategies might be superior to single therapies. Here, we combined Tmprss6-ASO with EPO administration or removal of a single Tfr2 allele in the bone marrow of animals affected by β-thalassemia intermedia (Hbbth3/+). EPO administration alone or removal of a single Tfr2 allele increased hemoglobin levels and RBCs. However, EPO or Tfr2 single-allele deletion alone, respectively, exacerbated or did not improve splenomegaly in β-thalassemic mice. To overcome this issue, we postulated that some level of iron restriction (by targeting Tmprss6) would improve splenomegaly while preserving the beneficial effects on RBC production mediated by EPO or Tfr2 deletion. While administration of Tmprss6-ASO alone improved the anemia, the combination of Tmprss6-ASO + EPO or Tmprss6-ASO + Tfr2 single-allele deletion produced significantly higher hemoglobin levels and reduced splenomegaly. In conclusion, our results clearly indicate that these combinatorial approaches are superior to single treatments in ameliorating IE and anemia in β-thalassemia and could provide guidance to translate some of these approaches into viable therapies.

Published
2020

16. Expression of CCL9/MIP-1γ is repressed by BCR/ABL and its restoration suppresses in vivo leukemogenesis of 32D-BCR/ABL cells

Author

Maria Rosa Lidonnici, G Iotti, Francesca Corradini, C Rosafio, Michela Bardini, Mattia Ronchetti, Francesco Blasi, Giovanna Ferrari-Amorotti, Robert V. Martinez, Y Zhang, Bruno Calabretta, Iotti, G, Ferrari Amorotti, G, Rosafio, C, Corradini, F, Lidonnici, M, Ronchetti, M, Bardini, M, Zhang, Y, Martinez, R, Blasi, F, and Calabretta, B

Subjects
endocrine system, Cancer Research, Carcinogenicity Tests, chemokine production, Fusion Proteins, bcr-abl, Down-Regulation, Bone Marrow Cells, Mice, SCID, Biology, medicine.disease_cause, p38 Mitogen-Activated Protein Kinases, Piperazines, Mice, hemic and lymphatic diseases, Gene expression, CCAAT-Enhancer-Binding Protein-alpha, Tumor Cells, Cultured, Genetics, medicine, Animals, CML, Protein Kinase Inhibitors, Molecular Biology, Cell Proliferation, Homeodomain Proteins, Regulation of gene expression, Mice, Inbred C3H, ABL, Gene Expression Regulation, Leukemic, CCL9, breakpoint cluster region, Nuclear Proteins, STI571, Macrophage Inflammatory Proteins, in vivo leukemogenesis, Repressor Proteins, Pyrimidines, Imatinib mesylate, Leukemia, Myeloid, Chemokines, CC, Benzamides, Imatinib Mesylate, Cancer research, Signal transduction, transcription regulation, Carcinogenesis
Abstract

Transformation of hematopoietic cells by the BCR/ABL oncogene is caused by perturbation of signal transduction pathways leading to altered patterns of gene expression and activity. By oligonucleotide microarray hybridization of polysomal RNA of untreated and STI571-treated 32D-BCR/ABL cells, we identified the beta-chemokine CCL9 as a gene regulated by BCR/ABL in a tyrosine kinase-dependent manner. BCR/ABL repressed CCL9 expression at the transcriptional level by mechanisms involving suppression of p38 MAP kinase, and modulation of the activity of CDP/cut and C/EBPalpha, two transcription regulators of myeloid differentiation. However, repression of C/EBP-dependent transcription did not prevent the induction of CCL9 expression by STI571, suggesting that C/EBPalpha is involved in maintaining rather than in inducing CCL9 expression. Restoration of CCL9 expression in 32D-BCR/ABL cells had no effect on the in vitro proliferation of these cells, but reduced their leukemogenic potential in vivo, possibly by recruitment of CD3-positive immune cells. Together, these findings suggest that downregulation of chemokine expression may be involved in BCR/ABL-dependent leukemogenesis by altering the relationship between transformed cells and the microenvironment.

Published
2006

17. A new monoclonal antibody against DNA ligase I is a suitable marker of cell proliferation in cultured cell and tissue section samples.

Author

Vitolo B, Lidonnici MR, Montecucco C, and Montecucco A

Subjects
Antibody Specificity, Biomarkers analysis, Cells, Cultured, Cloning, Molecular, DNA Ligase ATP, HeLa Cells, Humans, Ki-67 Antigen analysis, Staining and Labeling, Tissue Fixation, Antibodies, Monoclonal chemistry, Cell Proliferation, DNA Ligases analysis, Immunohistochemistry methods
Abstract

The extensive characterization of the replicative human DNA ligase I (LigI) undertaken in the last decade demonstrated that the level of this protein strongly correlates with the rate of cell proliferation. This may allow to expand the repertoire of clinical biomarkers for the analysis of cell proliferation. We have produced a new monoclonal antibody (5H5) against LigI and exploited it as cell proliferation marker in Western blotting and immunofluorescence as well as in immunohistochemistry on paraffin tissue sections. The Western blot analysis showed that the LigI level detected by 5H5 antibody is high in all proliferating cells. On the contrary the protein is down regulated in resting human fibroblast and peripheral blood lymphocytes. Immunofluorescence analysis on cultured HeLa cells showed that 5H5 antibody labels all proliferating cells and displays the same staining pattern of BrdU in S-phase nuclei. Finally the analysis of serial sections of inflamed tonsils and NHL lymph nodes (either frozen or paraffin embedded) demonstrated that 5H5 marks the same population of cells as the Ki-67 antibody. Our results demonstrate that 5H5 antibody is a valuable tool for labeling proliferating cells that can be conveniently used in Western blotting, immunocytochemistry and immunohistochemistry.

Published
2005
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