Your search keyword '"Federica Raggi"' showing total 32 results

1. Proteomic profiling of extracellular vesicles in synovial fluid and plasma from Oligoarticular Juvenile Idiopathic Arthritis patients reveals novel immunopathogenic biomarkers

Author

Federica Raggi, Martina Bartolucci, Davide Cangelosi, Chiara Rossi, Simone Pelassa, Chiara Trincianti, Andrea Petretto, Giovanni Filocamo, Adele Civino, Alessandra Eva, Angelo Ravelli, Alessandro Consolaro, and Maria Carla Bosco

Subjects

oligoarticular juvenile idiopathic arthritis, proteomics, extracellular vesicles, biomarkers, inflammatory and immune processes, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionNew early low-invasive biomarkers are demanded for the management of Oligoarticular Juvenile Idiopathic Arthritis (OJIA), the most common chronic pediatric rheumatic disease in Western countries and a leading cause of disability. A deeper understanding of the molecular basis of OJIA pathophysiology is essential for identifying new biomarkers for earlier disease diagnosis and patient stratification and to guide targeted therapeutic intervention. Proteomic profiling of extracellular vesicles (EVs) released in biological fluids has recently emerged as a minimally invasive approach to elucidate adult arthritis pathogenic mechanisms and identify new biomarkers. However, EV-prot expression and potential as biomarkers in OJIA have not been explored. This study represents the first detailed longitudinal characterization of the EV-proteome in OJIA patients.MethodsFourty-five OJIA patients were recruited at disease onset and followed up for 24 months, and protein expression profiling was carried out by liquid chromatography-tandem mass spectrometry in EVs isolated from plasma (PL) and synovial fluid (SF) samples.ResultsWe first compared the EV-proteome of SF vs paired PL and identified a panel of EV-prots whose expression was significantly deregulated in SF. Interaction network and GO enrichment analyses performed on deregulated EV-prots through STRING database and ShinyGO webserver revealed enrichment in processes related to cartilage/bone metabolism and inflammation, suggesting their role in OJIA pathogenesis and potential value as early molecular indicators of OJIA development. Comparative analysis of the EV-proteome in PL and SF from OJIA patients vs PL from age/gender-matched control children was then carried out. We detected altered expression of a panel of EV-prots able to differentiate new-onset OJIA patients from control children, potentially representing a disease-associated signature measurable at both the systemic and local levels with diagnostic potential. Deregulated EV-prots were significantly associated with biological processes related to innate immunity, antigen processing and presentation, and cytoskeleton organization. Finally, we ran WGCNA on the SF- and PL-derived EV-prot datasets and identified a few EV-prot modules associated with different clinical parameters stratifying OJIA patients in distinct subgroups.DiscussionThese data provide novel mechanistic insights into OJIA pathophysiology and an important contribution in the search of new candidate molecular biomarkers for the disease.

Published

2023

2. Plasma-Derived Exosome Proteins as Novel Diagnostic and Prognostic Biomarkers in Neuroblastoma Patients

Author

Martina Morini, Federica Raggi, Martina Bartolucci, Andrea Petretto, Martina Ardito, Chiara Rossi, Daniela Segalerba, Alberto Garaventa, Alessandra Eva, Davide Cangelosi, and Maria Carla Bosco

Subjects

neuroblastoma, exosomes, biomarkers, Cytology, QH573-671

Abstract

Neuroblastoma (NB) is the most common extracranial solid tumor during infancy, causing up to 10% of mortality in children; thus, identifying novel early and accurate diagnostic and prognostic biomarkers is mandatory. NB-derived exosomes carry proteins (Exo-prots) reflecting the status of the tumor cell of origin. The purpose of this study was to characterize, for the first time, the Exo-prots specifically expressed in NB patients associated with tumor phenotype and disease stage. We isolated exosomes from plasma specimens of 24 HR-NB patients and 24 low-risk (LR-NB) patients at diagnosis and of 24 age-matched healthy controls (CTRL). Exo-prot expression was measured by liquid chromatography–mass spectrometry. The data are available via ProteomeXchange (PXD042422). The NB patients had a different Exo-prot expression profile compared to the CTRL. The deregulated Exo-prots in the NB specimens acted mainly in the tumor-associated pathways. The HR-NB patients showed a different Exo-prot expression profile compared to the LR-NB patients, with the modulation of proteins involved in cell migration, proliferation and metastasis. NCAM, NCL, LUM and VASP demonstrated a diagnostic value in discriminating the NB patients from the CTRL; meanwhile, MYH9, FN1, CALR, AKAP12 and LTBP1 were able to differentiate between the HR-NB and LR-NB patients with high accuracy. Therefore, Exo-prots contribute to NB tumor development and to the aggressive metastatic NB phenotype.

Published

2023

3. Extracellular vesicle‐derived microRNAs as potential biomarkers in oligoarticular juvenile idiopathic arthritis patients: methodological challenges and new perspectives

Author

Federica Raggi, Davide Cangelosi, Alessandro Consolaro, Chiara Rossi, Simone Pelassa, Katia Cortese, Maria Cristina Gagliani, Martina Morini, Daniela Segalerba, Chiara Brignole, Paola Bocca, Danilo Marimpietri, Chiara Trincianti, Angelo Ravelli, Alessandra Eva, and Maria Carla Bosco

Subjects

Medicine (General), R5-920

Published

2022

4. MicroRNAs in Juvenile Idiopathic Arthritis: State of the Art and Future Perspectives

Author

Simone Pelassa, Federica Raggi, Chiara Rossi, and Maria Carla Bosco

Subjects

microRNA, Juvenile Idiopathic Arthritis, Biomarkers, Biology (General), QH301-705.5

Abstract

Juvenile Idiopathic Arthritis (JIA) represents the most common chronic pediatric arthritis in Western countries and a leading cause of disability in children. Despite recent clinical achievements, patient management is still hindered by a lack of diagnostic/prognostic biomarkers and targeted treatment protocols. MicroRNAs (miRNAs) are short non-coding RNAs playing a key role in gene regulation, and their involvement in many pathologies has been widely reported in the literature. In recent decades, miRNA’s contribution to the regulation of the immune system and the pathogenesis of autoimmune diseases has been demonstrated. Furthermore, miRNAs isolated from patients’ biological samples are currently under investigation for their potential as novel biomarkers. This review aims to provide an overview of the state of the art on miRNA investigation in JIA. The literature addressing the expression of miRNAs in different types of biological samples isolated from JIA patients was reviewed, focusing in particular on their potential application as diagnostic/prognostic biomarkers. The role of miRNAs in the regulation of immune responses in affected joints will also be discussed along with their potential utility as markers of patients’ responses to therapeutic approaches. This information will be of value to investigators in the field of pediatric rheumatology, encouraging further research to increase our knowledge of miRNAs’ potential for future clinical applications in JIA.

Published

2023

5. Transcriptome analysis defines myocardium gene signatures in children with ToF and ASD and reveals disease-specific molecular reprogramming in response to surgery with cardiopulmonary bypass

Author

Federica Raggi, Davide Cangelosi, Pamela Becherini, Fabiola Blengio, Martina Morini, Massimo Acquaviva, Maria Luisa Belli, Giuseppe Panizzon, Giuseppe Cervo, Luigi Varesio, Alessandra Eva, and Maria Carla Bosco

Subjects

Gene expression profiling, Congenital heart disease, Cardiopulmonary bypass, Atrial myocardium, Hypoxia, Medicine

Abstract

Abstract Background Tetralogy of Fallot (ToF) and Atrial Septal Defects (ASD) are the most common types of congenital heart diseases and a major cause of childhood morbidity and mortality. Cardiopulmonary bypass (CPB) is used during corrective cardiac surgery to support circulation and heart stabilization. However, this procedure triggers systemic inflammatory and stress response and consequent increased risk of postoperative complications. The aim of this study was to define the molecular bases of ToF and ASD pathogenesis and response to CPB and identify new potential biomarkers. Methods Comparative transcriptome analysis of right atrium specimens collected from 10 ToF and 10 ASD patients was conducted before (Pre-CPB) and after (Post-CPB) corrective surgery. Total RNA isolated from each sample was individually hybridized on Affymetrix HG-U133 Plus Array Strips containing 38,500 unique human genes. Differences in the gene expression profiles and functional enrichment/network analyses were assessed using bioinformatic tools. qRT-PCR analysis was used to validate gene modulation. Results Pre-CPB samples showed significant differential expression of a total of 72 genes, 28 of which were overexpressed in ToF and 44 in ASD. According to Gene Ontology annotation, the mostly enriched biological processes were represented by matrix organization and cell adhesion in ToF and by muscle development and contractility in ASD specimens. GSEA highlighted the specific enrichment of hypoxia gene sets in ToF samples, pointing to a role for hypoxia in disease pathogenesis. The post-CPB myocardium exhibited significant alterations in the expression profile of genes related to transcription regulation, growth/apoptosis, inflammation, adhesion/matrix organization, and oxidative stress. Among them, only 70 were common to the two disease groups, whereas 110 and 24 were unique in ToF and ASD, respectively. Multiple functional interactions among differentially expressed gene products were predicted by network analysis. Interestingly, gene expression changes in ASD samples followed a consensus hypoxia profile. Conclusion Our results provide a comprehensive view of gene reprogramming in right atrium tissues of ToF and ASD patients before and after CPB, defining specific molecular pathways underlying disease pathophysiology and myocardium response to CPB. These findings have potential translational value because they identify new candidate prognostic markers and targets for tailored cardioprotective post-surgical therapies.

Published

2020

6. The SGLT2-inhibitor dapagliflozin improves neutropenia and neutrophil dysfunction in a mouse model of the inherited metabolic disorder GSDIb

Author

Roberta Resaz, Federica Raggi, Daniela Segalerba, Chiara Lavarello, Alessandra Gamberucci, Maria Carla Bosco, Simonetta Astigiano, Antonia Assunto, Daniela Melis, Mariavittoria D'Acierno, Maria Veiga-da-Cunha, Andrea Petretto, Paola Marcolongo, Francesco Trepiccione, and Alessandra Eva

Subjects

Glycogen storage disease type 1b, 1,5-anhydroglucitol-6-phosphate, Neutrophils, Dapagliflozin, Renal sodium-glucose co-transporter-2, Mouse model, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Glycogen Storage Disease type 1b (GSDIb) is a genetic disorder with long term severe complications. Accumulation of the glucose analog 1,5-anhydroglucitol-6-phosphate (1,5AG6P) in neutrophils inhibits the phosphorylation of glucose in these cells, causing neutropenia and neutrophil dysfunctions. This condition leads to serious infections and inflammatory bowel disease (IBD) in GSDIb patients. We show here that dapagliflozin, an inhibitor of the renal sodium-glucose co-transporter-2 (SGLT2), improves neutrophil function in an inducible mouse model of GSDIb by reducing 1,5AG6P accumulation in myeloid cells.

Published

2021

7. The passage from bone marrow niche to bloodstream triggers the metabolic impairment in Fanconi Anemia mononuclear cells

Author

Enrico Cappelli, Paolo Degan, Silvia Bruno, Filomena Pierri, Maurizio Miano, Federica Raggi, Piero Farruggia, Cristina Mecucci, Barbara Crescenzi, Valeria Naim, Carlo Dufour, and Silvia Ravera

Subjects

Aerobic metabolism, Antioxidant defenses, Bone marrow aplasia, Hypoxic and normoxic conditions, Mitochondria, Oxidative stress production, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Fanconi Anemia (FA) is a disease characterized by bone marrow (BM) failure and aplastic anemia. In addition to a defective DNA repair system, other mechanisms are involved in its pathogenesis, such as defective mitochondrial metabolism, accumulation of lipids, and increment of oxidative stress production. To better understand the role of these metabolic alterations in the process of HSC maturation in FA, we evaluated several biochemical and cellular parameters on mononuclear cells isolated from the bone marrow of FA patients or healthy donors. To mimic the cellular residence in the BM niche or their exit from the BM niche to the bloodstream, cells have been grown in hypoxic or normoxic conditions, respectively. The data show that, in normoxic conditions, a switch from anaerobic to aerobic metabolism occurs both in healthy and in pathological samples. However, in FA cells this change is associated with altered oxidative phosphorylation, the increment of oxidative stress production, no activation of the endogenous antioxidant defenses and arrest in the G2M phase of the cell cycle. By contrast, FA cells grown in hypoxic conditions do not show cell cycle and metabolic alterations in comparison to the healthy control, maintaining both an anaerobic flux.The data reported herein suggests that the passage from the BM niche to the bloodstream represents a crucial point in the FA pathogenesis associated with mitochondrial dysfunction.

Published

2020

8. Hypoxia Modifies the Transcriptome of Human NK Cells, Modulates Their Immunoregulatory Profile, and Influences NK Cell Subset Migration

Author

Monica Parodi, Federica Raggi, Davide Cangelosi, Claudia Manzini, Mirna Balsamo, Fabiola Blengio, Alessandra Eva, Luigi Varesio, Gabriella Pietra, Lorenzo Moretta, Maria Cristina Mingari, Massimo Vitale, and Maria Carla Bosco

Subjects

NK cells, hypoxia, tumor immunology, cytokines/chemokines, chemokine receptors, CD56bright cells, Immunologic diseases. Allergy, RC581-607

Abstract

Hypoxia, which characterizes most tumor tissues, can alter the function of different immune cell types, favoring tumor escape mechanisms. In this study, we show that hypoxia profoundly acts on NK cells by influencing their transcriptome, affecting their immunoregulatory functions, and changing the chemotactic responses of different NK cell subsets. Exposure of human peripheral blood NK cells to hypoxia for 16 or 96 h caused significant changes in the expression of 729 or 1,100 genes, respectively. Gene Set Enrichment Analysis demonstrated that these changes followed a consensus hypoxia transcriptional profile. As assessed by Gene Ontology annotation, hypoxia-targeted genes were implicated in several biological processes: metabolism, cell cycle, differentiation, apoptosis, cell stress, and cytoskeleton organization. The hypoxic transcriptome also showed changes in genes with immunological relevance including those coding for proinflammatory cytokines, chemokines, and chemokine-receptors. Quantitative RT-PCR analysis confirmed the modulation of several immune-related genes, prompting further immunophenotypic and functional studies. Multiplex ELISA demonstrated that hypoxia could variably reduce NK cell ability to release IFNγ, TNFα, GM-CSF, CCL3, and CCL5 following PMA+Ionomycin or IL15+IL18 stimulation, while it poorly affected the response to IL12+IL18. Cytofluorimetric analysis showed that hypoxia could influence NK chemokine receptor pattern by sustaining the expression of CCR7 and CXCR4. Remarkably, this effect occurred selectively (CCR7) or preferentially (CXCR4) on CD56bright NK cells, which indeed showed higher chemotaxis to CCL19, CCL21, or CXCL12. Collectively, our data suggest that the hypoxic environment may profoundly influence the nature of the NK cell infiltrate and its effects on immune-mediated responses within tumor tissues.

Published

2018

9. Regulation of Human Macrophage M1–M2 Polarization Balance by Hypoxia and the Triggering Receptor Expressed on Myeloid Cells-1

Author

Federica Raggi, Simone Pelassa, Daniele Pierobon, Federica Penco, Marco Gattorno, Francesco Novelli, Alessandra Eva, Luigi Varesio, Mirella Giovarelli, and Maria Carla Bosco

Subjects

macrophages, hypoxia, polarization, immunoregulatory receptors, inflammation, Immunologic diseases. Allergy, RC581-607

Abstract

Macrophages (Mf) are a heterogeneous population of tissue-resident professional phagocytes and a major component of the leukocyte infiltrate at sites of inflammation, infection, and tumor growth. They can undergo diverse forms of activation in response to environmental factors, polarizing into specialized functional subsets. A common hallmark of the pathologic environment is represented by hypoxia. The impact of hypoxia on human Mf polarization has not been fully established. The objective of this study was to elucidate the effects of a hypoxic environment reflecting that occurring in vivo in diseased tissues on the ability of human Mf to polarize into classically activated (proinflammatory M1) and alternatively activated (anti-inflammatory M2) subsets. We present data showing that hypoxia hinders Mf polarization toward the M1 phenotype by decreasing the expression of T cell costimulatory molecules and chemokine homing receptors and the production of proinflammatory, Th1-priming cytokines typical of classical activation, while promoting their acquisition of phenotypic and secretory features of alternative activation. Furthermore, we identify the triggering receptor expressed on myeloid cells (TREM)-1, a member of the Ig-like immunoregulatory receptor family, as a hypoxia-inducible gene in Mf and demonstrate that its engagement by an agonist Ab reverses the M2-polarizing effect of hypoxia imparting a M1-skewed phenotype to Mf. Finally, we provide evidence that Mf infiltrating the inflamed hypoxic joints of children affected by oligoarticular juvenile idiopatic arthritis express high surface levels of TREM-1 associated with predominant M1 polarization and suggest the potential of this molecule in driving M1 proinflammatory reprogramming in the hypoxic synovial environment.

Published

2017

10. miR-23a contributes to T cellular redox metabolism in juvenile idiopathic oligoarthritis

Author

Lars-Ove Brandenburg, Tobias Schwarz, Kim Ohl, Anastasia Schippers, Alessandro Consolaro, Anandhi Rajendiran, Tom Luedde, Dirk Foell, Klaus Tenbrock, Patricia Klemm, Federica Raggi, Anja Scheufen, Norbert Wagner, Bernd Denecke, Gerd Horneff, Maria Carla Bosco, and Joachim Peitz

Subjects

Inflammation, Mitochondrial ROS, business.industry, T-Lymphocytes, T cell, PPIF, Arthritis, medicine.disease_cause, medicine.disease, Arthritis, Juvenile, Autoimmunity, MicroRNAs, medicine.anatomical_structure, Rheumatology, microRNA, Cancer research, Humans, Medicine, Pharmacology (medical), medicine.symptom, Reactive Oxygen Species, business, Oxidation-Reduction, Oxidative stress

Abstract

Objective JIA is a chronic inflammatory disease of unknown origin. The regulation of inflammatory processes involves multiple cellular steps including mRNA transcription and translation. Different miRNAs control these processes tightly. We aimed to determine the roles of specific miRNAs within JIA pathogenesis. Methods We performed a global miRNA expression analysis in parallel in cells from the arthritic joint and peripheral blood of oligoarticular JIA patients and healthy controls. Quantitative RT-PCR analysis was used to verify expression of miRNA in T cells. Ex vivo experiments and flow cytometric analyses were used to analyse proliferation and redox metabolism. Results Global miRNA expression analysis demonstrated a different composition of miRNA expression at the site of inflammation compared with peripheral blood. Bioinformatic analysis of predicted miRNA target genes suggest a huge overrepresentation of genes involved in metabolic and oxidative stress pathways in the inflamed joint. Despite enhanced reactive oxygen species (ROS) levels within the local inflammatory milieu, JIA T cells are hyperproliferative and reveal an overexpression of miR-23a, which is an inhibitor of Peptidyl-prolyl isomerase F (PPIF), the regulator of mitochondrial ROS escape. Mitochondrial ROS escape is diminished in JIA T cells, resulting in their prolonged survival. Conclusion Our data suggest that miRNA-dependent mitochondrial ROS shuttling might be a mechanism that contributes to T cell regulation in JIA at the site of inflammation.

Published

2021

11. A Proteomic Analysis of GSD-1a in Mouse Livers: Evidence for Metabolic Reprogramming, Inflammation, and Macrophage Polarization

Author

Roberta Resaz, Andrea Petretto, Antonio Sica, Irma Colombo, Luigi Varesio, Daniela Segalerba, Alessandra Eva, Davide Cangelosi, Luca Mastracci, Federica Grillo, Federica Raggi, Maria Carla Bosco, and Marzia Ognibene

Subjects

Proteomics, 0301 basic medicine, macrophage polarization, animal model, glycogen storage disease type 1a, hepatocellular adenoma, hypoxia, proteomics, Macrophage polarization, Inflammation, Glycogen Storage Disease Type I, Biology, Biochemistry, Mice, 03 medical and health sciences, Liver disease, Downregulation and upregulation, Tandem Mass Spectrometry, medicine, Animals, Glycogen storage disease, Mice, Knockout, 030102 biochemistry & molecular biology, Macrophages, Wild type, Proteins, General Chemistry, Hepatocellular adenoma, medicine.disease, Molecular biology, Disease Models, Animal, 030104 developmental biology, Liver, Glucose-6-Phosphatase, medicine.symptom, Chromatography, Liquid

Abstract

Glycogen storage disease type 1a (GSD-1a) is a rare genetic disease caused by mutations in the catalytic subunit of the enzyme glucose-6-phosphatase-alpha (G6Pase-α). The majority of patients develop long-term complications including renal failure and hepatocellular adenoma/carcinoma. The purpose of this study was to ascertain the proteomic changes in the liver of LS- G6pc-/- mice, a murine model of GSD-1a, in comparison with wild type mice to identify potential biomarkers of the pathophysiology of the affected liver. We used liquid chromatography-tandem mass spectrometry (LC-MS/MS) to analyze liver lysates from a total of 20 LS- G6pc-/- and 18 wild type (WT) mice. We compared the proteomic expression profile of LS- G6pc-/- and WT mice. We identified 4138 significantly expressed proteins, 1243 of which were differentially represented. Network and pathway analyses indicate that LS- G6pc-/- livers display an age-dependent modulation of the expression of proteins involved in specific biological processes associated with increased progression of liver disease. Moreover, we found upregulation of proteins involved in the process of tissue inflammation and macrophage polarization toward the M2 phenotype in LS- G6pc-/- mice with adenomas. Our results identify a metabolic reprogramming of glucose-6-P and a pathologic environment in the liver compatible with tumor development and progression.

Published

2019

12. The SGLT2-inhibitor dapagliflozin improves neutropenia and neutrophil dysfunction in a mouse model of the inherited metabolic disorder GSDIb

Author

Alessandra Eva, Paola Marcolongo, Roberta Resaz, Chiara Lavarello, Simonetta Astigiano, Maria Veiga-da-Cunha, Daniela Melis, Federica Raggi, Antonia Assunto, Andrea Petretto, Alessandra Gamberucci, Maria Carla Bosco, Daniela Segalerba, Francesco Trepiccione, Mariavittoria D'Acierno, Resaz, R., Raggi, F., Segalerba, D., Lavarello, C., Gamberucci, A., Bosco, M. C., Astigiano, S., Assunto, A., Melis, D., D'Acierno, M., Veiga-da-Cunha, M., Petretto, A., Marcolongo, P., Trepiccione, F., and Eva, A.

Subjects

G-CSF, granulocyte colony stimulating factor, Medicine (General), Neutrophils, 1,5AG, 1,5-anhydroglucitol, Pharmacology, Inflammatory bowel disease, chemistry.chemical_compound, CFU, colony forming units, Endocrinology, 1,5-anhydroglucitol-6-phosphate, 5-anhydroglucitol-6-phosphate, NET, neutrophil extracellular trap, PRM, parallel reaction monitoring, GSDIb, Glycogen Storage Disease type 1b, Medicine, Glycogen storage disease, Dapagliflozin, Biology (General), 1,5AG6P, 1,5-anhydroglucitol-6-phosphate, M-CSF, macrophage colony stimulating factor, Metabolic disorder, Neutrophil, Genetic disorder, Glucose analog, PMA, phorbol myristate acetate, Renal sodium-glucose co-transporter-2, SGLT2 Inhibitor, Glycogen storage disease type 1b, QH301-705.5, Short Communication, Neutropenia, Mouse model, R5-920, b15-anhydroglucitol-6-phosphate, Genetics, G6PC3, glucose-6-phosphatase C3, Molecular Biology, TM, tamoxifen, business.industry, medicine.disease, fMLP, N-formyl-L-methionyl-L-leucyl-phenylalanine, SGLT2, sodium-glucose co-transporter-2, chemistry, Glycogen storage disease type 1, BM, bone marrow, G6PT, glucose-6-phospate translocase, business

Abstract

Glycogen Storage Disease type 1b (GSDIb) is a genetic disorder with long term severe complications. Accumulation of the glucose analog 1,5-anhydroglucitol-6-phosphate (1,5AG6P) in neutrophils inhibits the phosphorylation of glucose in these cells, causing neutropenia and neutrophil dysfunctions. This condition leads to serious infections and inflammatory bowel disease (IBD) in GSDIb patients. We show here that dapagliflozin, an inhibitor of the renal sodium-glucose co-transporter-2 (SGLT2), improves neutrophil function in an inducible mouse model of GSDIb by reducing 1,5AG6P accumulation in myeloid cells.

Published

2021

13. Targeting Mononuclear Phagocyte Receptors in Cancer Immunotherapy: New Perspectives of the Triggering Receptor Expressed on Myeloid Cells (TREM-1)

Author

Federica Raggi and Maria Carla Bosco

Subjects

0301 basic medicine, Cancer Research, medicine.medical_treatment, Receptor expression, Inflammation, Review, lcsh:RC254-282, 03 medical and health sciences, 0302 clinical medicine, Immune system, Cancer immunotherapy, medicine, tumor microenvironment, Receptor, Tumor microenvironment, cancer immunotherapy, business.industry, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Immunosurveillance, 030104 developmental biology, Oncology, Tumor progression, 030220 oncology & carcinogenesis, triggering receptor expressed on myeloid cells, Cancer research, pattern recognition and immunoregulatory receptors, medicine.symptom, tumor-associated macrophages and dendritic cells, business, mononuclear phagocytes

Abstract

Inflammatory cells are major players in the onset of cancer. The degree of inflammation and type of inflammatory cells in the tumor microenvironment (TME) are responsible for tilting the balance between tumor progression and regression. Cancer-related inflammation has also been shown to influence the efficacy of conventional therapy. Mononuclear phagocytes (MPs) represent a major component of the inflammatory circuit that promotes tumor progression. Despite their potential to activate immunosurveillance and exert anti-tumor responses, MPs are subverted by the tumor to support its growth, immune evasion, and spread. MP responses in the TME are dictated by a network of stimuli integrated through the cross-talk between activatory and inhibitory receptors. Alterations in receptor expression/signaling can create excessive inflammation and, when chronic, promote tumorigenesis. Research advances have led to the development of new therapeutic strategies aimed at receptor targeting to induce a tumor-infiltrating MP switch from a cancer-supportive toward an anti-tumor phenotype, demonstrating efficacy in different human cancers. This review provides an overview of the role of MP receptors in inflammation-mediated carcinogenesis and discusses the most recent updates regarding their targeting for immunotherapeutic purposes. We focus in particular on the TREM-1 receptor, a major amplifier of MP inflammatory responses, highlighting its relevance in the development and progression of several types of inflammation-associated malignancies and the promises of its inhibition for cancer immunotherapy.

Published

2020

14. Transcriptome analysis defines myocardium gene signatures in children with ToF and ASD and reveals disease-specific molecular reprogramming in response to surgery with cardiopulmonary bypass

Author

Massimo Acquaviva, Martina Morini, Davide Cangelosi, Giuseppe Panizzon, Maria Luisa Belli, Maria Carla Bosco, Pamela Becherini, Alessandra Eva, Giuseppe Cervo, Federica Raggi, Fabiola Blengio, and Luigi Varesio

Subjects

Therapeutic gene modulation, lcsh:Medicine, Bioinformatics, Heart Septal Defects, Atrial, General Biochemistry, Genetics and Molecular Biology, Atrial septal defects, Transcriptome, Pathogenesis, Gene expression, Transcriptional regulation, Medicine, Humans, Hypoxia, Child, Gene, Congenital heart disease, Cardiopulmonary Bypass, business.industry, Atrial, Research, Gene Expression Profiling, Heart Septal Defects, Myocardium, lcsh:R, General Medicine, Atrial myocardium, Cardiopulmonary bypass, Gene expression profiling, Tetralogy of Fallot, business

Abstract

Background Tetralogy of Fallot (ToF) and Atrial Septal Defects (ASD) are the most common types of congenital heart diseases and a major cause of childhood morbidity and mortality. Cardiopulmonary bypass (CPB) is used during corrective cardiac surgery to support circulation and heart stabilization. However, this procedure triggers systemic inflammatory and stress response and consequent increased risk of postoperative complications. The aim of this study was to define the molecular bases of ToF and ASD pathogenesis and response to CPB and identify new potential biomarkers. Methods Comparative transcriptome analysis of right atrium specimens collected from 10 ToF and 10 ASD patients was conducted before (Pre-CPB) and after (Post-CPB) corrective surgery. Total RNA isolated from each sample was individually hybridized on Affymetrix HG-U133 Plus Array Strips containing 38,500 unique human genes. Differences in the gene expression profiles and functional enrichment/network analyses were assessed using bioinformatic tools. qRT-PCR analysis was used to validate gene modulation. Results Pre-CPB samples showed significant differential expression of a total of 72 genes, 28 of which were overexpressed in ToF and 44 in ASD. According to Gene Ontology annotation, the mostly enriched biological processes were represented by matrix organization and cell adhesion in ToF and by muscle development and contractility in ASD specimens. GSEA highlighted the specific enrichment of hypoxia gene sets in ToF samples, pointing to a role for hypoxia in disease pathogenesis. The post-CPB myocardium exhibited significant alterations in the expression profile of genes related to transcription regulation, growth/apoptosis, inflammation, adhesion/matrix organization, and oxidative stress. Among them, only 70 were common to the two disease groups, whereas 110 and 24 were unique in ToF and ASD, respectively. Multiple functional interactions among differentially expressed gene products were predicted by network analysis. Interestingly, gene expression changes in ASD samples followed a consensus hypoxia profile. Conclusion Our results provide a comprehensive view of gene reprogramming in right atrium tissues of ToF and ASD patients before and after CPB, defining specific molecular pathways underlying disease pathophysiology and myocardium response to CPB. These findings have potential translational value because they identify new candidate prognostic markers and targets for tailored cardioprotective post-surgical therapies.

Published

2020

15. OP0151 MIRNAS CONTRIBUTE TO DYSREGULATED ROS METABOLISM OF IMMUNE CELLS IN THE INFLAMED JOINT

Author

Kim Ohl, Patricia Klemm, Tobias Schwarz, Federica Raggi, Alessandro Consolaro, Joachim Peitz, Gerd Horneff, and Klaus Tenbrock

Published

2019

16. Therapeutic Potential of Targeting TREM-1 in Inflammatory Diseases and Cancer

Author

Maria Carla Bosco, Luigi Varesio, and Federica Raggi

Subjects

Inflammation, 0301 basic medicine, Pharmacology, Myeloid, Innate immune system, business.industry, Cell, Cancer, Patient survival, medicine.disease, Triggering Receptor Expressed on Myeloid Cells-1, Sepsis, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Neoplasms, Drug Discovery, Immunology, medicine, Animals, Humans, medicine.symptom, Receptor, business

Abstract

The triggering receptor expressed on myeloid cells (TREM)-1 is a member of the Ig-like immunoregulatory receptor family and a major amplifier of innate immune responses. TREM- 1 has been implicated in the development and perpetuation of a number of inflammatory disorders, and soluble TREM-1 levels are a clinically valuable diagnostic and prognostic biomarker in patients with sepsis and other types of acute and chronic inflammation- associated diseases, easily detectable in biological fluids. High TREM-1 expression in macrophages infiltrating human tumors and increased concentrations of soluble TREM-1 also correlate with aggressive tumor behavior and recurrence and are a relevant independent predictor of poor patient survival. Pharmacological inhibition of TREM-1 has proven effective in preclinical mouse models of infectious and non-infectious inflammatory disorders and malignancies, conferring survival advantages and protecting from organ damage or tumor growth by attenuating inflammatory responses. This review aims at providing a comprehensive overview of the state of the art on TREM-1 research. We review the literature addressing TREM-1 role in the amplification of myeloid cell inflammatory responses at pathologic sites and its relevance in the development, severity, and progression of inflammatory diseases and cancer. Furthermore, we discuss recent advances in the pharmacological use of TREM-1 inhibitors in mouse preclinical models, emphasizing their potential in new strategies for the treatment of acute and chronic inflammatory conditions and for therapeutic intervention in cancer. This information will be of value to investigators in the field of pharmacology, drawing attention to novel therapeutic opportunities to complement current treatment approaches.

Published

2016

17. A novel liposomal Clodronate depletes tumor-associated macrophages in primary and metastatic melanoma: Anti-angiogenic and anti-tumor effects

Author

Laura Emionite, Monica Loi, Emanuela Ognio, Patrizia Perri, Vangelis Kondylis, Antonio Daga, Fabian Schorn, Irene Cossu, Chiara Brignole, Domenico Ribatti, Manolis Pasparakis, Daniele Murgia, Fabio Pastorino, Francesca Piaggio, Federica Raggi, Christian Marinaccio, Mirco Ponzoni, and Daniela Di Paolo

Subjects

0301 basic medicine, Cell Survival, Angiogenesis, Melanoma, Experimental, Pharmaceutical Science, Antineoplastic Agents, Apoptosis, Mice, Transgenic, Spleen, Inflammation, Cell Line, Fatty Acids, Monounsaturated, 03 medical and health sciences, 0302 clinical medicine, medicine, Animals, Humans, Cell Proliferation, Cell growth, business.industry, Macrophages, Melanoma, Fibroblasts, medicine.disease, Tumor Burden, Quaternary Ammonium Compounds, 030104 developmental biology, medicine.anatomical_structure, Liver, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, Liposomes, Immunology, Cancer research, Cytokines, Clodronic acid, Female, Clodronic Acid, medicine.symptom, business, medicine.drug

Abstract

The depletion of tumor-associated macrophages (TAMs), involved in different stages of cancer development and progression, is an appealing strategy in cancer therapy. We developed novel Clodronate-containing liposomes (Clo-Lipo-DOTAP) presenting physicochemical properties (size distribution, polydispersity index and Z-potential) suited for safe storage and injections. In vitro, Clo-Lipo-DOTAP inhibited proliferation, reduced viability and induced apoptosis of a macrophage-like cell line in a dose- and time-dependent manner. In proof of functionality experiments, Clo-Lipo-DOTAP depleted macrophages in a genetic mouse model of chronic hepatitis and hepatocellular carcinoma leading to a significant reduction of F4/80-positive cells in the liver and spleen of treated mice compared to PBS-treated controls. The number of granulocytes, B and T lymphocytes was not affected. In B16/F10 subcutaneous melanoma-bearing mice, Clo-Lipo-DOTAP significantly reduced the volume of primary tumors (P In conclusion, the depletion of TAMs in primary and metastatic melanoma presents anti-tumor efficacy via inhibition of angiogenesis and modulation of inflammation related cytokines.

Published

2016

18. Regulation of Human Macrophage M1-M2 Polarization Balance by Hypoxia and the Triggering Receptor Expressed on Myeloid Cells-1

Author

Luigi Varesio, Marco Gattorno, Federica Raggi, Federica Penco, Mirella Giovarelli, Daniele Pierobon, Francesco Novelli, Simone Pelassa, Alessandra Eva, and Maria Carla Bosco

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, Chemokine, T cell, Immunology, Inflammation, Proinflammatory cytokine, 03 medical and health sciences, medicine, Immunology and Allergy, Receptor, Original Research, polarization, immunoregulatory receptors, biology, hypoxia, Hypoxia (medical), Phenotype, Cell biology, macrophages, macrophages, hypoxia, polarization, immunoregulatory receptors, inflammation, 030104 developmental biology, medicine.anatomical_structure, inflammation, biology.protein, medicine.symptom, lcsh:RC581-607, Homing (hematopoietic)

Abstract

Macrophages (Mf) are a heterogeneous population of tissue-resident professional phagocytes and a major component of the leukocyte infiltrate at sites of inflammation, infection, and tumor growth. They can undergo diverse forms of activation in response to environmental factors, polarizing into specialized functional subsets. A common hallmark of the pathologic environment is represented by hypoxia. The impact of hypoxia on human Mf polarization has not been fully established. The objective of this study was to elucidate the effects of a hypoxic environment reflecting that occurring in vivo in diseased tissues on the ability of human Mf to polarize into classically activated (proinflammatory M1) and alternatively-activated (anti-inflammatory M2) subsets. We present data showing that hypoxia hinders Mf polarization toward the M1 phenotype by decreasing the expression of T cell costimulatory molecules and chemokine homing receptors and the production of proinflammatory, Th1-priming cytokines typical of classical activation, while promoting their acquisition of phenotypic and secretory features of alternative activation. Furthermore, we identify the triggering receptor expressed on myeloid cells (TREM)-1, a member of the Ig-like immunoregulatory receptor family, as a hypoxia-inducible gene in Mf and demonstrate that its engagement by an agonist Ab reverses the M2-polarizing effect of hypoxia imparting a M1-skewed phenotype to Mf. Finally, we provide evidence that Mf infiltrating the inflamed hypoxic joints of children affected by Oligoarticular Juvenile Idiopatic Arthritis (OJIA) express high surface levels of TREM-1 associated with predominant M1 polarization and suggest the potential of this molecule in driving M1 proinflammatory reprogramming in the hypoxic synovial environment.

Published

2017

19. Hypoxia downregulates the expression of activating receptors involved in NK-cell-mediated target cell killing without affecting ADCC

Author

Massimo Vitale, Gabriella Pietra, Luigi Varesio, Claudia Manzini, Federica Raggi, Lorenzo Moretta, Mirna Balsamo, Maria Carla Bosco, Fabiola Blengio, and Maria Cristina Mingari

Subjects

Antibody-dependent cell-mediated cytotoxicity, Tumor microenvironment, Cell type, Lymphokine-activated killer cell, Cell killing, Immune system, Immunology, Immunology and Allergy, Biology, NKG2D, Receptor, Cell biology

Abstract

In certain infection sites or tumor tissues, the disruption of homeostasis can give rise to a hypoxic microenvironment, which, in turn, can alter the function of different immune cell types and favor the progression of the disease. Natural killer (NK) cells are directly involved in the elimination of virus-infected or transformed cells, however it is unknown whether their function is affected by hypoxia or not. In this study, we show that NK cells adapt to a hypoxic environment by upregulating the hypoxia-inducible factor 1α. However, NK cells lose their ability to upregulate the surface expression of the major activating NK-cell receptors (NKp46, NKp30, NKp44, and NKG2D) in response to IL-2 (or other activating cytokines, including IL-15, IL-12, and IL-21). These altered phenotypic features correlate with reduced responses to triggering signals resulting in impaired capability of killing infected or tumor target cells. Remarkably, hypoxia does not significantly alter the surface density and the triggering function of the Fc-γ receptor CD16, thus allowing NK cells to maintain their capability of killing target cells via antibody-dependent cellular cytotoxicity. This finding offers an important clue for exploitation of NK cell in antibody-based immunotherapy of cancer.

Published

2013

20. Chronic hypoxia reprograms human immature dendritic cells by inducing a proinflammatory phenotype and TREM-1 expression

Author

Paola Cappello, Mirella Giovarelli, Miriam Filippi, Tiziana Musso, Alessandra Eva, Maria Carla Bosco, Federica Raggi, Fabiola Blengio, Daniele Pierobon, Francesco Novelli, and Luigi Varesio

Subjects

Chemokine, Chemokine receptor, Innate immune system, biology, Downregulation and upregulation, Immunology, biology.protein, Pattern recognition receptor, Immunology and Allergy, Acquired immune system, Cell biology, Proinflammatory cytokine, Homing (hematopoietic)

Abstract

DCs are powerful antigen-presenting cells central in the orchestration of innate and acquired immunity. DC development, migration, and activities are intrinsically linked to the microenvironment. DCs migrate through pathologic tissues before reaching their final destination in the lymph nodes. Hypoxia, a condition of low partial oxygen pressure, is a common feature of many pathologic situations, capable of modifying DC phenotype and functional behavior. We studied human monocyte-derived immature DCs generated under chronic hypoxic conditions (H-iDCs). We demonstrate by gene expression profiling the upregulation of a cluster of genes coding for antigen-presentation, immunoregulatory, and pattern recognition receptors, suggesting a stimulatory role for hypoxia on iDC immunoregulatory functions. In particular, we show that H-iDCs express triggering receptor expressed on myeloid cells(TREM-1), a member of the Ig superfamily of immunoreceptors and an amplifier of inflammation. This effect is reversible because H-iDC reoxygenation results in TREM-1 down-modulation. TREM-1 engagement promotes upregulation of T-cell costimulatory molecules and homing chemokine receptors, typical of mature DCs, and increases the production of proinflammatory, Th1/Th17-priming cytokines/chemokines, resulting in increased T-cell responses. These results suggest that TREM-1 induction by the hypoxic microenvironment represents a mechanism of regulation of Th1-cell trafficking and activation by iDCs differentiated at pathologic sites.

Published

2013

21. The hypoxic environment reprograms the cytokine/chemokine expression profile of human mature dendritic cells

Author

Paola Cappello, Daniele Pierobon, Alessandra Eva, Federica Raggi, Mirella Giovarelli, Fabiola Blengio, Luigi Varesio, and Maria Carla Bosco

Subjects

Vascular Endothelial Growth Factor A, Immunology, Biology, Monocytes, CCL5, Proinflammatory cytokine, Cell Movement, Osteogenesis, cytokine, Humans, Immunology and Allergy, CXCL10, CXCL14, Cells, Cultured, CXCL16, Immunity, Cellular, Neovascularization, Pathologic, hypoxia, chemokine, dendritic cells, Cell Differentiation, Dendritic Cells, Hematology, Cell Hypoxia, Cell biology, CCL20, CXCL2, Cellular Microenvironment, Gene Expression Regulation, Cytokines, Osteopontin, Chemokines, Inflammation Mediators, Transcriptome, CCL23

Abstract

Myeloid dendritic cells (DCs) are professional antigen-presenting cells critical for the orchestration of immunity and maintenance of self-tolerance. DC development and functions are tightly regulated by a complex network of inhibitory and activating signals present in the tissue microenvironment, and dysregulated DC responses may result in amplification of inflammation, loss of tolerance, or establishment of immune escape mechanisms. Generation of mature (m)DCs from monocytic precursors recruited at pathological sites occurs under condition of low partial oxygen pressure (pO(2)). However, the way in which the hypoxic microenvironment modulates the functions of these cells is still not clear. We demonstrate that chronic hypoxia (4 days, 1% O(2)) promotes the onset of a highly proinflammatory gene expression profile in mDCs generated from primary human monocytes, characterized by the modulation of a significant cluster of genes coding for proinflammatory chemokines/cytokines and/or their receptors. Within the chemokine system, strong upregulation of genes encoding proteins chemotactic for neutrophils, such as CXCL2, CXCL3, CXCL5, CXCL6, and CXCL8, and for activated/memory T lymphocytes, monocytes, and immature (i) DCs, e.g. CCL20, CCL3 and CCL5, was observed, concomitant with decreased expression of genes coding for naive/resting T cells chemoattractants, CCL18 and CCL23. Other hypoxia-inducible genes coded for cytokines with a primary role in inflammation and angiogenesis, including osteopontin, vascular endothelial growth factor, and IL-1β. mRNA modulation was paralleled by protein secretion. These results suggest that conditions of reduced O(2) availability reprograms mDCs toward a proinflammatory direction by tuning the cytokine/chemokine repertoire, thus affecting their ability to regulate leukocyte trafficking and activation at pathological sites, with potential implications for the pathogenesis of chronic inflammatory diseases.

Published

2013

22. Analysis of the Expression and Single-Nucleotide Variant Frequencies of the Butyrophilin-like 2 Gene in Patients With Uveal Melanoma

Author

Paola Queirolo, Ulrich Pfeffer, Francesco Lanza, Paola Visconti, Roberto Puzone, Federica Parodi, Carlo Mosci, Anna Morabito, Maria Pia Pistillo, Luca Anselmi, Marina Gualco, Michael Zeschnigk, Federica Raggi, Mario Mandalà, Konrad Diedrich, Maria Carla Bosco, Irena Maric, Laura Spano, Domenico A. Coviello, Adriana Amaro, Silvia Viaggi, Giovanna Angelini, Luigi Varesio, Paola Ghiorzo, and Cornelia Götz

Subjects

Adult, Male, Uveal Neoplasms, 0301 basic medicine, Oncology, medicine.medical_specialty, Monosomy, Pathology, Candidate gene, Genotype, Medizin, Single-nucleotide polymorphism, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, 03 medical and health sciences, 0302 clinical medicine, Gene Frequency, Cell Line, Tumor, Internal medicine, medicine, Humans, Melanoma, Allele frequency, Exome, Alleles, Exome sequencing, Aged, Retrospective Studies, Aged, 80 and over, Butyrophilins, business.industry, Macrophages, DNA, Neoplasm, Middle Aged, medicine.disease, Gene Expression Regulation, Neoplastic, Ophthalmology, 030104 developmental biology, Chromosome 3, 030220 oncology & carcinogenesis, Female, business

Abstract

Importance Chromosome 6p amplification is associated with more benign behavior for uveal melanomas (UMs) with an otherwise high risk of metastasis conferred by chromosome 3 monosomy. Chromosome 6p contains several members of the B7 family of immune regulator genes, including butyrophilin-like 2 ( BTNL2 ; OMIM,606000), which is associated with prostate cancer risk and autoimmune diseases. Objective To investigate the expression and variant allele frequencies of BTNL2 , a candidate gene for chromosome 6 amplification, in patients with UM. Design, Setting, and Participants In this case-control study, we analyzed the expression of BTNL2 in UM cell lines and human macrophages in patients with UM. Variants of BTNL2 were analyzed using probes for polymerase chain reaction and high-resolution melting. The association of missense variantsrs28362679andrs41441651with tumor risk was analyzed in 209 patients with UM and 116 matched control patients as well as 12 UM and 64 other tumor cell lines. Genes that were differentially expressed in M1- and M2-polarized macrophages were identified by microarray analysis of 111 patients with UM, and the association of the expression of these genes with disease-free survival was analyzed by Cox regression analysis. Data were collected from September 2013 to November 2015. Main Outcomes and Measures Butyrophilin-like 2 single-nucleotide variants were associated with UM risk; M1 and M2 macrophage-specific gene expression was associated with disease-free survival. Results We genotyped a total of 325 patients. Of the 209 patients with UM, 124 (59.3%) were male, 114 (54.5%) were Italian, and 95 (45.5%) were German; the mean (range) age was 65 (27-94) years. Of the 116 Italian control patients, 67 (57.8%) were female, and the mean (range) age was 39 (21-88) years. Butyrophilin-like 2 is expressed in patients with UM and macrophages. The frequency of thers28362679variant was higher in patients with UM (16 of 209 [7.7%]; 95% CI, 4.7-12.2) than frequencies from European Variation Archive and Exome Aggregation Consortium data (2134 of 118 564 [1.8%]; 95% CI, 1.7-1.9) and Exome Sequencing Project data (100 of 4540 [2.2%]; 95% CI, 1.8-2.7) but were not higher compared with Italian control patients (10 of 116 [8.6%]; 95% CI, 4.6-15.4). Thers41441651variant was present in 5 patients with UM (2.4%; 95% CI, 0.9-5.7), 2 Italian control patients (1.7%; 95% CI, 0.1-6.5), 2846 patients from European Variation Archive and Exome Aggregation Consortium data (2.4%; 95% CI, 2.3-2.5), and 23 patients from Exome Sequencing Project data (0.5%; 95% CI, 0.3-0.8). Human UM cells express M1 and M2 macrophage-specific genes, whose expression is associated with disease-free survival. Conclusions and Relevance Butyrophilin-like 2, expressed at various levels by UM cells and macrophages, might interfere with the immune control of the tumor. Butyrophilin-like 2 variants showed highly variable frequencies among ethnically related cohorts. There was no enrichment of BTNL2 variants in patients with UM compared with control patients.

Published

2016

23. Macrophage-inflammatory protein-3α/CCL-20 is transcriptionally induced by the iron chelator desferrioxamine in human mononuclear phagocytes through nuclear factor (NF)-κB

Author

Luigi Varesio, Florinda Battaglia, Maria Carla Bosco, Federica Raggi, and Bernadetta Ledda

Subjects

Transcriptional Activation, Chemokine, Transcription, Genetic, Immunology, chemical and pharmacologic phenomena, Deferoxamine, Biology, Iron Chelating Agents, Monocytes, Mice, Transactivation, chemistry.chemical_compound, Animals, Humans, Promoter Regions, Genetic, Molecular Biology, Macrophage inflammatory protein, Regulation of gene expression, Phagocytes, Binding Sites, Chemokine CCL20, NF-kappa B, NF-κB, DNA, Mononuclear phagocyte system, NFKB1, Molecular biology, Cell Hypoxia, CCL20, chemistry, biology.protein, Protein Binding

Abstract

Alterations in iron availability can trigger pro-inflammatory signals in various cell types. We demonstrate that desferrioxamine (DFX), an iron chelator used in clinics for the treatment of iron overload, neoplasias, and Alzheimer disease, stimulates the expression and secretion of CCL20, a chemoattractant for immature dendritic cells, activated/memory T lymphocytes, and naive B cells, in primary human monocytes and monocyte-derived macrophages. Iron chelation was part of the mechanism by which DFX induced CCL20, because addition of iron sulfate counteracted its stimulatory effects. Functional studies of the CCL20 promoter, using a series of 5'-deleted and mutated reporter constructs, demonstrated that CCL20 mRNA induction was dependent on gene transcription activation and mediated by the NF-kappaB pathway. The NF-kappaB element located at position -92/-82 of the CCL20 promoter was required for gene transactivation by DFX because: (i) transcription was abrogated by a 3bp mutation of the NF-kappaB-binding motif; (ii) treatment with DFX increased specific NF-kappaB binding to this sequence. Nuclear translocation of both NF-kappaBp65 and NF-kappaBp50 family members was increased in response to DFX and associated with I-kappaBalpha degradation, suggesting a role for these subunits in CCL20 promoter transactivation. In conclusion, this study provides the first evidence that iron chelation can transcriptionally induce CCL20 in mononuclear phagocytes and identify the NF-kappaB binding site as a regulatory sequence of the CCL20 promoter that is activated by iron deprivation. These results add new insights into our understanding of the mechanisms by which iron perturbations affect mononuclear phagocyte immune functions and regulate inflammatory responses.

Published

2010

24. Regulation of Langerhans cell functions in a hypoxic environment

Author

Tiziana Musso, Irene Cambieri, Mirella Giovarelli, Simone Pelassa, Luigi Varesio, Alessandra Eva, Maria Carla Bosco, Carlotta Castagnoli, Sergio Occhipinti, Daniele Pierobon, Francesco Novelli, Paola Cappello, and Federica Raggi

Subjects

0301 basic medicine, Langerhans cell, Naive T cell, Cicatrix, Hypertrophic, T-Lymphocytes, Biology, Lymphocyte Activation, Proinflammatory cytokine, 03 medical and health sciences, 0302 clinical medicine, Drug Discovery, medicine, Skin immunity, Humans, Receptor, Hypoxia, Genetics (clinical), Cells, Cultured, Immunoregulatory receptors, Cell Proliferation, Skin, integumentary system, Drug Discovery3003 Pharmaceutical Science, Dendritic cell, Molecular medicine, Cell Hypoxia, Triggering Receptor Expressed on Myeloid Cells-1, Langerhans cells, Wounds, Molecular Medicine, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Langerhans Cells, Immunology, Cancer research, Cytokines, Wound healing

Abstract

Langerhans cells (LCs) are a specialized dendritic cell subset that resides in the epidermis and mucosal epithelia and is critical for the orchestration of skin immunity. Recent evidence suggest that LCs are involved in aberrant wound healing and in the development of hypertrophic scars and chronic wounds, which are characterized by a hypoxic environment. Understanding LCs biology under hypoxia may, thus, lead to the identification of novel pathogenetic mechanisms of wound repair disorders and open new therapeutic opportunities to improve wound healing. In this study, we characterize a previously unrecognized role for hypoxia in significantly affecting the phenotype and functional properties of human monocyte-derived LCs, impairing their ability to stimulate naive T cell responses, and identify the triggering receptor expressed on myeloid (TREM)-1, a member of the Ig immunoregulatory receptor family, as a new hypoxia-inducible gene in LCs and an activator of their proinflammatory and Th1-polarizing functions in a hypoxic environment. Furthermore, we provide the first evidence of TREM-1 expression in vivo in LCs infiltrating hypoxic areas of active hypertrophic scars and decubitous ulcers, pointing to a potential pathogenic role of this molecule in wound repair disorders.Hypoxia modulates surface molecule expression and cytokine profile in Langerhans cells. Hypoxia impairs human Langerhans cell stimulatory activity on naive T cells. Hypoxia selectively induces TREM-1 expression in human Langerhans cells. TREM-1 engagement stimulates Langerhans cell inflammatory and Th1-polarizing activity. TREM-1 is expressed in vivo in Langerhans cells infiltrating hypoxic skin lesions.

Published

2015

25. Identification of CD300a as a new hypoxia-inducible gene and a regulator of CCL20 and VEGF production by human monocytes and macrophages

Author

Fabiola Blengio, Daniela Pende, Federica Raggi, Luigi Varesio, Alessandra Eva, and Maria Carla Bosco

Subjects

Vascular Endothelial Growth Factor A, Immunology, Primary Cell Culture, Regulator, Inflammation, Biology, In Vitro Techniques, Iron Chelating Agents, Microbiology, Monocytes, Cell surface receptor, Antigens, CD, medicine, Humans, Receptors, Immunologic, Receptor, Hypoxia, Molecular Biology, Chemokine CCL20, U937 cell, Monocyte, Macrophages, Cell Biology, Hypoxia (medical), Flow Cytometry, Cell biology, CCL20, Infectious Diseases, medicine.anatomical_structure, medicine.symptom

Abstract

Peripheral blood monocytes are recruited to inflammatory and tumor lesions where they undergo terminal differentiation into macrophages. Monocytes/macrophages integrate stimulatory and inhibitory signals present in the pathologic microenvironment through a defined repertoire of cell surface receptors, and deregulated expression of these molecules may result in amplification of inflammation or establishment of immune escape mechanisms. Characterization of the expression and function of these receptors is required for a better understanding of the regulation of monocyte/macrophage activity at pathologic sites. Hypoxia is a common feature of many pathological situations and an important regulator of monocyte/macrophage pro-inflammatory responses. In this study, we identify the leukocyte membrane antigen, CD300a, a member of the CD300 superfamily of immunoregulatory receptors, as a new hypoxia-inducible gene in primary human monocytes and monocyte-derived macrophages. CD300a mRNA up-regulation by hypoxia was rapid and reversible, paralleled by increased surface protein expression, and mediated by hypoxia-inducible factor-1α. CD300a induction was also triggered by the hypoxia-mimetic agent, desferrioxamine. CD300a exhibited both activating and inhibitory potential, differentially regulating CCL20 and vascular endothelial growth factor pro-inflammatory cytokine production by monocytes/macrophages upon triggering by an agonist Ab. These results suggest that CD300a induction by the hypoxic environment represents a mechanism of regulation of monocyte/macrophage pro-inflammatory responses at pathologic sites.

Published

2013

26. Hypoxia downregulates the expression of activating receptors involved in NK-cell-mediated target cell killing without affecting ADCC

Author

Mirna, Balsamo, Claudia, Manzini, Gabriella, Pietra, Federica, Raggi, Fabiola, Blengio, Maria Cristina, Mingari, Luigi, Varesio, Lorenzo, Moretta, Maria Carla, Bosco, and Massimo, Vitale

Subjects

Killer Cells, Natural, Cellular Microenvironment, Gene Expression Regulation, Antigens, Neoplasm, Antibody-Dependent Cell Cytotoxicity, Cytokines, Humans, Hypoxia, Hypoxia-Inducible Factor 1, alpha Subunit, Lymphocyte Activation, Receptors, Natural Cytotoxicity Triggering, Cells, Cultured

Abstract

In certain infection sites or tumor tissues, the disruption of homeostasis can give rise to a hypoxic microenvironment, which, in turn, can alter the function of different immune cell types and favor the progression of the disease. Natural killer (NK) cells are directly involved in the elimination of virus-infected or transformed cells, however it is unknown whether their function is affected by hypoxia or not. In this study, we show that NK cells adapt to a hypoxic environment by upregulating the hypoxia-inducible factor 1α. However, NK cells lose their ability to upregulate the surface expression of the major activating NK-cell receptors (NKp46, NKp30, NKp44, and NKG2D) in response to IL-2 (or other activating cytokines, including IL-15, IL-12, and IL-21). These altered phenotypic features correlate with reduced responses to triggering signals resulting in impaired capability of killing infected or tumor target cells. Remarkably, hypoxia does not significantly alter the surface density and the triggering function of the Fc-γ receptor CD16, thus allowing NK cells to maintain their capability of killing target cells via antibody-dependent cellular cytotoxicity. This finding offers an important clue for exploitation of NK cell in antibody-based immunotherapy of cancer.

Published

2013

27. The hypoxic environment induces a migratory or a proinflammatory phenotype in DCs depending on their maturation stage. Identification of TREM-1 as a common hypoxia marker

Author

Federica, Raggi, Fabiola, Blengio, Pierobon, Daniele, Cristina, Vanni, Cappello, Paola, Giovarelli, Mirella, Luigi, Varesio, Maria Carla Bosco, and Aglietta, Massimo

Subjects

TREM-1, hypoxia, dendritic cells

Published

2012

28. Hypoxia modulates the gene expression profile of immunoregulatory receptors in human mature dendritic cells: identification of TREM-1 as a novel hypoxic marker in vitro and in vivo

Author

Maria Carla Bosco, Daniele Pierobon, Alessandra Eva, Francesco Novelli, Luigi Varesio, Federica Raggi, Fabiola Blengio, Cristina Vanni, Paola Cappello, Mirella Giovarelli, and Marco Gattorno

Subjects

medicine.medical_treatment, Immunology, Biology, Biochemistry, Monocytes, Proinflammatory cytokine, Immune system, Synovial Fluid, medicine, Data Mining, Humans, Receptors, Immunologic, Receptor, Antigen-presenting cell, Adaptor Proteins, Signal Transducing, Membrane Glycoproteins, Gene Expression Profiling, Membrane Proteins, Cell Differentiation, Cell Biology, Hematology, Dendritic cell, Dendritic Cells, Arthritis, Juvenile, Cell Hypoxia, Triggering Receptor Expressed on Myeloid Cells-1, Cell biology, Oxygen, IκBα, Cytokine, Cross-Linking Reagents, Phenotype, Gene Expression Regulation, Chemokine secretion, Chemokines, Inflammation Mediators, Biomarkers, Signal Transduction

Abstract

Dendritic cells (DCs) are a heterogeneous group of professional antigen-presenting cells functioning as sentinels of the immune system and playing a key role in the initiation and amplification of innate and adaptive immune responses. DC development and functions are acquired during a complex differentiation and maturation process influenced by several factors present in the local milieu. A common feature at pathologic sites is represented by hypoxia, a condition of low pO2, which creates a unique microenvironment affecting cell phenotype and behavior. Little is known about the impact of hypoxia on the generation of mature DCs (mDCs). In this study, we identified by gene expression profiling a significant cluster of genes coding for immune-related cell surface receptors strongly up-regulated by hypoxia in monocyte-derived mDCs and characterized one of such receptors, TREM-1, as a new hypoxia-inducible gene in mDCs. TREM-1 associated with DAP12 in hypoxic mDCs, and its engagement elicited DAP12-linked signaling, resulting in ERK-1, Akt, and IκBα phosphorylation and proinflammatory cytokine and chemokine secretion. Finally, we provided the first evidence that TREM-1 is expressed on mDCs infiltrating the inflamed hypoxic joints of children affected by juvenile idiopathic arthritis, representing a new in vivo marker of hypoxic mDCs endowed with proinflammatory properties.

Published

2010

29. Dual modulation of ERK1/2 and p38 MAP kinase activities induced by minocycline reverses the neurotoxic effects of the prion protein fragment 90-231

Author

Antonio Aceto, Tullio Florio, Valentina Villa, Federica Raggi, Stefano Thellung, Katia Chiovitti, Claudio Russo, Alessandro Simi, Domenico Paludi, and Alessandro Corsaro

Subjects

Time Factors, Cell Survival, Prions, p38 mitogen-activated protein kinases, Neurotoxins, Apoptosis, Minocycline, Caspase 3, Toxicology, p38 Mitogen-Activated Protein Kinases, Gene Expression Regulation, Enzymologic, Neuroblastoma, Neurotrophic factors, Cell Line, Tumor, medicine, Animals, Humans, Drug Interactions, Enzyme Inhibitors, Phosphorylation, Caspase, Mitogen-Activated Protein Kinase 3, Dose-Response Relationship, Drug, biology, General Neuroscience, Neurotoxicity, medicine.disease, Molecular biology, Peptide Fragments, Cell biology, Enzyme Activation, Gene Expression Regulation, Neoplastic, Caspases, Mitogen-activated protein kinase, biology.protein, Signal Transduction, medicine.drug

Abstract

Several in vitro and in vivo studies addressed the identification of molecular determinants of the neuronal death induced by PrP(Sc) or related peptides. We developed an experimental model to assess PrP(Sc) neurotoxicity using a recombinant polypeptide encompassing amino acids 90-231 of human PrP (hPrP90-231) that corresponds to the protease-resistant core of PrP(Sc) identified in prion-infected brains. By means of mild thermal denaturation, we can convert hPrP90-231 from a PrP(C)-like conformation into a PrP(Sc)-like structure. In virtue of these structural changes, hPrP90-231 powerfully affected the survival of SH-SY5Y cells, inducing caspase 3 and p38-dependent apoptosis, while in the native alpha-helix-rich conformation, hPrP90-231 did not induce cell toxicity. The aim of this study was to identify drugs able to block hPrP90-231 neurotoxic effects, focusing on minocycline, a tetracycline with known neuroprotective activity. hPrP90-231 caused a caspase 3-dependent apoptosis via the blockade of ERK1/2 activation and the subsequent activation of p38 MAP kinase. We propose that hPrP90-231-induced apoptosis is dependent on the inhibition of ERK1/2 responsiveness to neurotrophic factors, removing a tonic inhibition of p38 activity and resulting in caspase 3 activation. Minocycline prevented hPrP90-231-induced toxicity interfering with this mechanism: the pretreatment with this tetracycline restored ERK1/2 activity and reverted p38 and caspase 3 activities. The effects of minocycline were not mediated by the prevention of hPrP90-231 structural changes or cell internalization (differently from Congo Red). In conclusion, minocycline elicits anti-apoptotic effects against the neurotoxic activity of hPrP90-231 and these effects are mediated by opposite modulation of ERK1/2 and p38 MAP kinase activities.

Published

2009

30. CD300a is a new hypoxia-inducible gene and a regulator of proinflammatory cytokine production in human monocytes and macrophages

Author

Federica, Raggi, primary, Fabiola, Blengio, primary, Luigi, Varesio, primary, and Maria Carla, Bosco, primary

Published

2013

31. The hypoxic microenvironment modulates monocytic and dendritic cell inflammatory gene expression (133.10)

Author

Luigi Varesio, Maria Carla Bosco, Fabiola Blengio, Daniele Pierobon, Federica Raggi, Paolo Fardin, and Mirella Giovarelli

Subjects

Immunology, Immunology and Allergy

Abstract

Hypoxia is a condition of low oxygen tension occurring in inflammatory lesions which creates a special microenvironment conditioning cell physiology. We investigated the molecular bases underlying the immunoregulatory functions of monocytes (Mn) and of terminally differentiated dendritic cells (mDCs) within the hypoxic microenvironment both in vitro and in vivo. Mn and mDCs hypoxic transcriptome was assessed using high-density oligonucleotide microarrays. The molecular pathways underlying gene transcription regulation by hypoxia were evaluated by promoter-driven reporter studies and EMSA. Profound modulation of the gene expression pattern was detected following Mn and DC exposure to 1% O2. We identified a significant cluster of hypoxia-responsive genes with immunological relevance, among which the macrophage inflammatory protein-3α (MIP-3α/CCL20) and the cytokine/extracellular matrix protein, osteopontin (OPN). Hypoxic upregulation of both genes was confirmed in vitro in primary Mn, Mn-derived macrophages, and DCs and in vivo in Mn cell recruited to the synovial joints of patients affected by Juvenile Idiopatic Arthritis (JIA), and associated with hypoxia-inducible factor-1α (HIF-1α) expression and NF-kB transcriptional activation. These studies lead to new perspectives on the impact of hypoxia on mononuclear phagocyte functions and to the definition of the mechanisms linking low pO2 to the pathogenesis of chronic inflammation.

Published

2010

32. The passage from bone marrow niche to bloodstream triggers the metabolic impairment in Fanconi Anemia mononuclear cells

Author

Paolo Degan, Valeria Naim, Silvia Bruno, Carlo Dufour, Cristina Mecucci, Silvia Ravera, Maurizio Miano, Filomena Pierri, Enrico Cappelli, Federica Raggi, Piero Farruggia, and Barbara Crescenzi

Subjects

Aerobic metabolism, Antioxidant defenses, Bone marrow aplasia, Hypoxic and normoxic conditions, Mitochondria, Oxidative stress production, 0301 basic medicine, Cellular respiration, Clinical Biochemistry, PHA, phytohemagglutinin, Bone Marrow Aplasia, Biology, Mitochondrion, medicine.disease_cause, PB, peripheral blood, Biochemistry, Oxidative Phosphorylation, FA, Fanconi Anemia, 03 medical and health sciences, H2DCFDA, 2′,7′-dichlorodihydrofluorescein diacetate, 0302 clinical medicine, Fanconi anemia, Bone Marrow, medicine, Humans, Aplastic anemia, lcsh:QH301-705.5, lcsh:R5-920, Organic Chemistry, Hematopoietic stem cell, medicine.disease, 3. Good health, Cell biology, Oxidative Stress, MNCs, mononuclear cells, 030104 developmental biology, medicine.anatomical_structure, Fanconi Anemia, lcsh:Biology (General), BM, bone marrow, Bone marrow, lcsh:Medicine (General), 030217 neurology & neurosurgery, Oxidative stress, Research Paper

Abstract

Fanconi Anemia (FA) is a disease characterized by bone marrow (BM) failure and aplastic anemia. In addition to a defective DNA repair system, other mechanisms are involved in its pathogenesis, such as defective mitochondrial metabolism, accumulation of lipids, and increment of oxidative stress production. To better understand the role of these metabolic alterations in the process of HSC maturation in FA, we evaluated several biochemical and cellular parameters on mononuclear cells isolated from the bone marrow of FA patients or healthy donors. To mimic the cellular residence in the BM niche or their exit from the BM niche to the bloodstream, cells have been grown in hypoxic or normoxic conditions, respectively. The data show that, in normoxic conditions, a switch from anaerobic to aerobic metabolism occurs both in healthy and in pathological samples. However, in FA cells this change is associated with altered oxidative phosphorylation, the increment of oxidative stress production, no activation of the endogenous antioxidant defenses and arrest in the G2M phase of the cell cycle. By contrast, FA cells grown in hypoxic conditions do not show cell cycle and metabolic alterations in comparison to the healthy control, maintaining both an anaerobic flux. The data reported herein suggests that the passage from the BM niche to the bloodstream represents a crucial point in the FA pathogenesis associated with mitochondrial dysfunction., Highlights • MNCs isolated from the bloodstream of FA patients display a metabolic defect. • The metabolic defect is not evident in FA-MNCs isolated from the bone marrow niche. • The metabolic defect seems to be linked to the oxygen availability. • The passage from the BM niche to the bloodstream is crucial in FA pathogenesis.