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7. Regulation of mitochondrial complex III activity and assembly by TRAP1 in cancer cells

Author

Danilo Swann Matassa, Daniela Criscuolo, Rosario Avolio, Ilenia Agliarulo, Daniela Sarnataro, Consiglia Pacelli, Rosella Scrima, Alessandra Colamatteo, Giuseppe Matarese, Nazzareno Capitanio, Matteo Landriscina, and Franca Esposito

Subjects
TRAP1, Respiratory complex III, Ovarian cancer, Platinum resistance, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671
Abstract

Abstract Background Metabolic reprogramming is an important issue in tumor biology. A recently-identified actor in this regard is the molecular chaperone TRAP1, that is considered an oncogene in several cancers for its high expression but an oncosuppressor in others with predominant oxidative metabolism. TRAP1 is mainly localized in mitochondria, where it interacts with respiratory complexes, although alternative localizations have been described, particularly on the endoplasmic reticulum, where it interacts with the translational machinery with relevant roles in protein synthesis regulation. Results Herein we show that, inside mitochondria, TRAP1 binds the complex III core component UQCRC2 and regulates complex III activity. This decreases respiration rate during basal conditions but allows sustained oxidative phosphorylation when glucose is limiting, a condition in which the direct TRAP1-UQCRC2 binding is disrupted, but not TRAP1-complex III binding. Interestingly, several complex III components and assembly factors show an inverse correlation with survival and response to platinum-based therapy in high grade serous ovarian cancers, where TRAP1 inversely correlates with stage and grade and directly correlates with survival. Accordingly, drug-resistant ovarian cancer cells show high levels of complex III components and high sensitivity to complex III inhibitory drug antimycin A. Conclusions These results shed new light on the molecular mechanisms involved in TRAP1-dependent regulation of cancer cell metabolism and point out a potential novel target for metabolic therapy in ovarian cancer.

Published
2022
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11. Applying Augmented Reality in the Italian Food and Dining Industry: Cultural Heritage Perspectives

Author

Caboni, Federica, Bruni, Roberto, Colamatteo, Annarita, Edmonds, Ernest, Founding Editor, Vear, Craig, Series Editor, Brown, Paul, Editorial Board Member, Bryan-Kinns, Nick, Editorial Board Member, England, David, Editorial Board Member, Ferguson, Sam, Editorial Board Member, Ferran, Bronaċ, Editorial Board Member, Hugill, Andrew, Editorial Board Member, Lambert, Nicholas, Editorial Board Member, Lowgren, Jonas, Editorial Board Member, Yi-Luen Do, Ellen, Editorial Board Member, and Geroimenko, Vladimir, editor

Published
2021
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12. PD‐1‐induced T cell exhaustion is controlled by a Drp1‐dependent mechanism

Author

Luca Simula, Ylenia Antonucci, Giorgia Scarpelli, Valeria Cancila, Alessandra Colamatteo, Simona Manni, Biagio De Angelis, Concetta Quintarelli, Claudio Procaccini, Giuseppe Matarese, Claudio Tripodo, and Silvia Campello

Subjects
Drp1, mitochondria, PD‐1, T cell, tumor‐infiltrating lymphocytes, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Programmed cell death‐1 (PD‐1) signaling downregulates the T‐cell response, promoting an exhausted state in tumor‐infiltrating T cells, through mostly unveiled molecular mechanisms. Dynamin‐related protein‐1 (Drp1)‐dependent mitochondrial fission plays a crucial role in sustaining T‐cell motility, proliferation, survival, and glycolytic engagement. Interestingly, such processes are exactly those inhibited by PD‐1 in tumor‐infiltrating T cells. Here, we show that PD‐1pos CD8+ T cells infiltrating an MC38 (murine adenocarcinoma)‐derived murine tumor mass have a downregulated Drp1 activity and more elongated mitochondria compared with PD‐1neg counterparts. Also, PD‐1pos lymphocytic elements infiltrating a human colon cancer rarely express active Drp1. Mechanistically, PD‐1 signaling directly prevents mitochondrial fragmentation following T‐cell stimulation by downregulating Drp1 phosphorylation on Ser616, via regulation of the ERK1/2 and mTOR pathways. In addition, downregulation of Drp1 activity in tumor‐infiltrating PD‐1pos CD8+ T cells seems to be a mechanism exploited by PD‐1 signaling to reduce motility and proliferation of these cells. Overall, our data indicate that the modulation of Drp1 activity in tumor‐infiltrating T cells may become a valuable target to ameliorate the anticancer immune response in future immunotherapy approaches.

Published
2022
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15. The DEL-1/[beta]3 integrin axis promotes regulatory T cell responses during inflammation resolution

Author

Li, Xiaofei, Colamatteo, Alessandra, Kalafati, Lydia, Kajikawa, Tetsuhiro, Wang, Hui, Lim, Jong-Hyung, Bdeir, Khalil, Chung, Kyoung-Jin, Yu, Xiang, Fusco, Clorinda, Porcellini, Antonio, De Simone, Salvatore, Matarese, Giuseppe, Chavakis, Triantafyllos, De Rosa, Veronica, and Hajishengallis, George

Subjects
Inflammation -- Genetic aspects -- Development and progression -- Care and treatment, Integrins -- Health aspects, Immune response -- Genetic aspects, Gene expression -- Health aspects, Health care industry
Abstract

[FOXP3.sup.+][CD4.sup.+] regulatory T cells (Tregs) are critical for immune homeostasis and respond to local tissue cues, which control their stability and function. We explored here whether developmental endothelial locus-1 (DEL-1), which, like Tregs, increases during resolution of inflammation, promotes Treg responses. DEL-1 enhanced Treg numbers and function at barrier sites (oral and lung mucosa). The underlying mechanism was dissected using mice lacking DEL-1 or expressing a point mutant thereof, or mice with T cell-specific deletion of the transcription factor RUNX1, identified by RNA sequencing analysis of the DEL-1-induced Treg transcriptome. Specifically, through interaction with [alpha]v[beta]3 integrin, DEL-1 promoted induction of RUNX1-dependent FOXP3 expression and conferred stability of FOXP3 expression upon Treg restimulation in the absence of exogenous TGF-[beta]1. Consistently, DEL-1 enhanced the demethylation of the Treg-specific demethylated region (TSDR) in the mouse Foxp3 gene and the suppressive function of sorted induced Tregs. Similarly, DEL-1 increased RUNX1 and FOXP3 expression in human conventional T cells, promoting their conversion into induced Tregs with increased TSDR demethylation, enhanced stability, and suppressive activity. We thus uncovered a DEL-1/[alpha]v[beta]3/RUNX1 axis that promotes Treg responses at barrier sites and offers therapeutic options for modulating inflammatory/autoimmune disorders., Introduction T cell-mediated immunity entails 2 aspects, proinflammatory and regulatory, which need to be balanced for immune homeostasis (1, 2). For instance, effector [CD4.sup.+] T helper cells expressing IL-17 (Th17 [...]

Published
2020
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17. Immuno-metabolic impact of the multiple sclerosis patients’ sera on endothelial cells of the blood-brain barrier

Author

M. H. Sheikh, S. M. Henson, R. A. Loiola, S. Mercurio, A. Colamatteo, G. T. Maniscalco, V. De Rosa, S. McArthur, and E. Solito

Subjects
Metabolism, Multiple sclerosis, Blood-brain barrier, Tight junction, Cytoskeleton, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background Multiple sclerosis (MS) is an autoimmune disease which results from the invasion of the brain by activated immune cells across the endothelial cells (ECs) of the blood-brain barrier (BBB), due to loss of immune self-tolerance. Many reports define the metabolic profile of immune cells in MS, however little is known about the metabolism of the BBB ECs during the disease. We aim to determine whether circulating factors in MS induce metabolic alterations of the BBB ECs compared to a healthy state, which can be linked with disruption of BBB integrity and subsequent immune cell extravasation. Methods and results In this report, we used an in vitro model to study the effect of sera from naïve-to-treatment, relapsing-remitting MS (RRMS) patients on the human brain microvascular endothelium, comparing effects to age/sex-matched healthy donor (HD) sera. Our data show that RRMS serum components affect brain endothelial cells by impairing intercellular tightness through the down-modulation of occludin and VE-cadherin, and facilitating immune cell extravasation through upregulation of intercellular adhesion molecules (ICAM-1) and P-glycoprotein (P-gp). At a metabolic level, the treatment of the endothelial cells with RRMS sera reduced their glycolytic activity (measured through the extracellular acidification rate-ECAR) and oxygen consumption rate (oxidative phosphorylation rate-OCR). Such changes were associated with the down-modulation of endothelial glucose transporter 1 (GLUT-1) expression and by altered mitochondrial membrane potential. Higher level of reactive oxygen species released from the endothelial cells treated with RRMS sera indicate a pro-inflammatory status of the cells together with the higher expression of ICAM-1, endothelial cell cytoskeleton perturbation (stress fibres) as well as disruption of the cytoskeleton signal transduction MSK1/2 and β-catenin phosphorylation. Conclusions Our data suggest that circulating factors present in RRMS patient serum induce physiological and biochemical alterations to the BBB, namely reducing expression of essential tightness regulators, as well as reduced engagement of glycolysis and alteration of mitochondrial potential. As these last changes have been linked with alterations in nutrient usage and metabolic function in immune cells; we propose that the BBB endothelium of MS patients may similarly undergo metabolic dysregulation, leading to enhanced permeability and increased disease susceptibility.

Published
2020
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18. Glycolysis controls the induction of human regulatory T cells by modulating the expression of FOXP3 exon 2 splicing variants

Author

De Rosa, Veronica, Galgani, Mario, Porcellini, Antonio, Colamatteo, Alessandra, Santopaolo, Marianna, Zuchegna, Candida, Romano, Antonella, De Simone, Salvatore, Procaccini, Claudio, La Rocca, Claudia, Carrieri, Pietro Biagio, Maniscalco, Giorgia Teresa, Salvetti, Marco, Buscarinu, Maria Chiara, Franzese, Adriana, Mozzillo, Enza, La Cava, Antonio, and Matarese, Giuseppe

Subjects
Genetics, Aetiology, 2.1 Biological and endogenous factors, Adult, Alternative Splicing, Autoimmunity, Biomarkers, Tumor, CD4-Positive T-Lymphocytes, Case-Control Studies, DNA-Binding Proteins, Exons, Fatty Acids, Female, Forkhead Transcription Factors, Gene Knockdown Techniques, Genetic Variation, Glycolysis, Humans, In Vitro Techniques, Male, Metabolome, Middle Aged, Multiple Sclerosis, Relapsing-Remitting, Oxidation-Reduction, Phosphopyruvate Hydratase, RNA, Messenger, Receptors, Antigen, T-Cell, Signal Transduction, T-Lymphocytes, Regulatory, Tumor Suppressor Proteins, Young Adult, Immunology
Abstract

Human regulatory T cells (T(reg) cells) that develop from conventional T cells (T(conv) cells) following suboptimal stimulation via the T cell antigen receptor (TCR) (induced T(reg) cells (iT(reg) cells)) express the transcription factor Foxp3, are suppressive, and display an active proliferative and metabolic state. Here we found that the induction and suppressive function of iT(reg) cells tightly depended on glycolysis, which controlled Foxp3 splicing variants containing exon 2 (Foxp3-E2) through the glycolytic enzyme enolase-1. The Foxp3-E2-related suppressive activity of iT(reg) cells was altered in human autoimmune diseases, including multiple sclerosis and type 1 diabetes, and was associated with impaired glycolysis and signaling via interleukin 2. This link between glycolysis and Foxp3-E2 variants via enolase-1 shows a previously unknown mechanism for controlling the induction and function of T(reg) cells in health and in autoimmunity.

Published
2015

21. Metabolomics, Lipidomics, and Immunometabolism

Author

Carbone, Fortunata, primary, Bruzzaniti, Sara, additional, Fusco, Clorinda, additional, Colamatteo, Alessandra, additional, Micillo, Teresa, additional, De Candia, Paola, additional, Bonacina, Fabrizia, additional, Norata, Giuseppe Danilo, additional, and Matarese, Giuseppe, additional

Published
2021
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24. PD‐1‐induced T cell exhaustion is controlled by a Drp1‐dependent mechanism

Author

Giuseppe Matarese, Biagio De Angelis, Valeria Cancila, Giorgia Scarpelli, Claudio Procaccini, Silvia Campello, Luca Simula, Claudio Tripodo, Alessandra Colamatteo, Simona Manni, Ylenia Antonucci, Concetta Quintarelli, Simula L., Antonucci Y., Scarpelli G., Cancila V., Colamatteo A., Manni S., De Angelis B., Quintarelli C., Procaccini C., Matarese G., Tripodo C., Campello S., Simula, L., Antonucci, Y., Scarpelli, G., Cancila, V., Colamatteo, A., Manni, S., De Angelis, B., Quintarelli, C., Procaccini, C., Matarese, G., Tripodo, C., and Campello, S.

Subjects
Dynamins, Cancer Research, endocrine system, Settore BIO/06, T cell, medicine.medical_treatment, Programmed Cell Death 1 Receptor, Drp1, CD8-Positive T-Lymphocytes, Settore MED/08 - Anatomia Patologica, Mitochondrial Dynamics, tumor‐infiltrating lymphocytes, Mice, Immune system, Downregulation and upregulation, Drp1, mitochondria, PD-1, T cell, tumor-infiltrating lymphocytes, PD-1, Genetics, medicine, Animals, Humans, Settore MED/05 - Patologia Clinica, Research Articles, PI3K/AKT/mTOR pathway, RC254-282, Tumor-infiltrating lymphocytes, Chemistry, PD‐1, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, General Medicine, Immunotherapy, Cell biology, mitochondria, medicine.anatomical_structure, Oncology, tumor-infiltrating lymphocytes, Molecular Medicine, Mitochondrial fission, CD8, Research Article
Abstract

Programmed cell death‐1 (PD‐1) signaling downregulates the T‐cell response, promoting an exhausted state in tumor‐infiltrating T cells, through mostly unveiled molecular mechanisms. Dynamin‐related protein‐1 (Drp1)‐dependent mitochondrial fission plays a crucial role in sustaining T‐cell motility, proliferation, survival, and glycolytic engagement. Interestingly, such processes are exactly those inhibited by PD‐1 in tumor‐infiltrating T cells. Here, we show that PD‐1pos CD8+ T cells infiltrating an MC38 (murine adenocarcinoma)‐derived murine tumor mass have a downregulated Drp1 activity and more elongated mitochondria compared with PD‐1neg counterparts. Also, PD‐1pos lymphocytic elements infiltrating a human colon cancer rarely express active Drp1. Mechanistically, PD‐1 signaling directly prevents mitochondrial fragmentation following T‐cell stimulation by downregulating Drp1 phosphorylation on Ser616, via regulation of the ERK1/2 and mTOR pathways. In addition, downregulation of Drp1 activity in tumor‐infiltrating PD‐1pos CD8+ T cells seems to be a mechanism exploited by PD‐1 signaling to reduce motility and proliferation of these cells. Overall, our data indicate that the modulation of Drp1 activity in tumor‐infiltrating T cells may become a valuable target to ameliorate the anticancer immune response in future immunotherapy approaches., PD‐1 signaling prevents TCR‐dependent Drp1 activation and subsequent mitochondrial fragmentation in T cells. In turn, this reduces both proliferation and migration of activated T cells. Cancer cells exploit this mechanism to downregulate T‐cell functionality within the tumor microenvironment, favoring tumor progression. These findings shed light on a new possible therapeutical approach for the treatment of solid cancers. (image made in BioRender).

Published
2022

25. Immunometabolic profiling of T cells from patients with relapsing-remitting multiple sclerosis reveals an impairment in glycolysis and mitochondrial respiration

Author

La Rocca, Claudia, Carbone, Fortunata, De Rosa, Veronica, Colamatteo, Alessandra, Galgani, Mario, Perna, Francesco, Lanzillo, Roberta, Brescia Morra, Vincenzo, Orefice, Giuseppe, Cerillo, Ilaria, Florio, Ciro, Maniscalco, Giorgia Teresa, Salvetti, Marco, Centonze, Diego, Uccelli, Antonio, Longobardi, Salvatore, Visconti, Andrea, and Matarese, Giuseppe

Published
2017
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26. Molecular Mechanisms Controlling Foxp3 Expression in Health and Autoimmunity: From Epigenetic to Post-translational Regulation

Author

Alessandra Colamatteo, Fortunata Carbone, Sara Bruzzaniti, Mario Galgani, Clorinda Fusco, Giorgia Teresa Maniscalco, Francesca Di Rella, Paola de Candia, and Veronica De Rosa

Subjects
Foxp3, Treg cells, epigenetic regulation, Foxp3 stability, autoimmunity, Immunologic diseases. Allergy, RC581-607
Abstract

The discovery of the transcription factor Forkhead box-p3 (Foxp3) has shed fundamental insights into the understanding of the molecular determinants leading to generation and maintenance of T regulatory (Treg) cells, a cell population with a key immunoregulatory role. Work over the past few years has shown that fine-tuned transcriptional and epigenetic events are required to ensure stable expression of Foxp3 in Treg cells. The equilibrium between phenotypic plasticity and stability of Treg cells is controlled at the molecular level by networks of transcription factors that bind regulatory sequences, such as enhancers and promoters, to regulate Foxp3 expression. Recent reports have suggested that specific modifications of DNA and histones are required for the establishment of the chromatin structure in conventional CD4+ T (Tconv) cells for their future differentiation into the Treg cell lineage. In this review, we discuss the molecular events that control Foxp3 gene expression and address the associated alterations observed in human diseases. Also, we explore how Foxp3 influences the gene expression programs in Treg cells and how unique properties of Treg cell subsets are defined by other transcription factors.

Published
2020
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29. Caloric restriction for the immunometabolic control of human health.

Author

Procaccini, Claudio, Candia, Paola de, Russo, Claudia, Rosa, Giusy De, Lepore, Maria Teresa, Colamatteo, Alessandra, and Matarese, Giuseppe

Subjects
LOW-calorie diet, REGULATORY T cells, IMMUNOSPECIFICITY, INFLAMMATION, PLETHORA (Pathology)
Abstract

Nutrition affects all physiological processes occurring in our body, including those related to the function of the immune system; indeed, metabolism has been closely associated with the differentiation and activity of both innate and adaptive immune cells. While excessive energy intake and adiposity have been demonstrated to cause systemic inflammation, several clinical and experimental evidence show that calorie restriction (CR), not leading to malnutrition, is able to delay aging and exert potent anti-inflammatory effects in different pathological conditions. This review provides an overview of the ability of different CR-related nutritional strategies to control autoimmune, cardiovascular, and infectious diseases, as tested by preclinical studies and human clinical trials, with a specific focus on the immunological aspects of these interventions. In particular, we recapitulate the state of the art on the cellular and molecular mechanisms pertaining to immune cell metabolic rewiring, regulatory T cell expansion, and gut microbiota composition, which possibly underline the beneficial effects of CR. Although studies are still needed to fully evaluate the feasibility and efficacy of the nutritional intervention in clinical practice, the experimental observations discussed here suggest a relevant role of CR in lowering the inflammatory state in a plethora of different pathologies, thus representing a promising therapeutic strategy for the control of human health. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Caloric restriction for the immunometabolic control of human health

Author

Claudio Procaccini, Paola de Candia, Claudia Russo, Giusy De Rosa, Maria Teresa Lepore, Alessandra Colamatteo, Giuseppe Matarese, Procaccini, Claudio, DE CANDIA, Paola, Russo, Claudia, DE ROSA, Giusy, Lepore, MARIA TERESA, Colamatteo, Alessandra, and Matarese, Giuseppe

Subjects
Physiology, Physiology (medical), autoimmunity, immunometabolism, caloric restriction, Cardiology and Cardiovascular Medicine, regulatory T cells
Abstract

Nutrition affects all physiological processes occurring in our body, including those related to the function of the immune system; indeed, metabolism has been closely associated with the differentiation and activity of both innate and adaptive immune cells. While excessive energy intake and adiposity have been demonstrated to cause systemic inflammation, several clinical and experimental evidence show that calorie restriction (CR), not leading to malnutrition, is able to delay aging and exert potent anti-inflammatory effects in different pathological conditions. This review provides an overview of the ability of different CR-related nutritional strategies to control autoimmune, cardiovascular, and infectious diseases, as tested by preclinical studies and human clinical trials, with a specific focus on the immunological aspects of these interventions. In particular, we recapitulate the state of the art on the cellular and molecular mechanisms pertaining to immune cell metabolic rewiring, regulatory T cell expansion, and gut microbiota composition, which possibly underline the beneficial effects of CR. Although studies are still needed to fully evaluate the feasibility and efficacy of the nutritional intervention in clinical practice, the experimental observations discussed here suggest a relevant role of CR in lowering the inflammatory state in a plethora of different pathologies, thus representing a promising therapeutic strategy for the control of human health.

Published
2023

33. Metabolism and Autoimmune Responses: The microRNA Connection

Author

Alessandra Colamatteo, Teresa Micillo, Sara Bruzzaniti, Clorinda Fusco, Silvia Garavelli, Veronica De Rosa, Mario Galgani, Maria Immacolata Spagnuolo, Francesca Di Rella, Annibale A. Puca, Paola de Candia, and Giuseppe Matarese

Subjects
T cells, metabolic regulation, immunometabolism, miRNAs, autoimmune diseases, Immunologic diseases. Allergy, RC581-607
Abstract

Distinct metabolic pathways are known to regulate growth, differentiation, survival, and activation of immune cells by providing energy and specific biosynthetic precursors. Compelling experimental evidence demonstrates that effector T cell functions are coupled with profound changes in cellular metabolism. Importantly, the effector T cell-dependent “anti-self” response characterizing the autoimmune diseases is accompanied by significant metabolic alterations. MicroRNAs (miRNAs), evolutionary conserved small non-coding RNA molecules that affect gene expression by binding to target messenger RNAs, are now known to regulate multiple functions of effector T cells, including the strength of their activation, thus contributing to immune homeostasis. In this review, we will examine the most recent studies that describe miRNA direct involvement in the metabolic reprogramming that marks effector T cell functions. In particular, we will focus on the work showing a connection between miRNA regulatory function and the molecular network dysregulation that leads to metabolic pathway derangement in autoimmunity. Finally, we will also speculate on the possibility that the interplay between miRNAs and metabolism in T cells may help identify novel miRNA-based therapeutic strategies to treat effector T cell immunometabolic alterations in pathological conditions such as autoimmunity and chronic inflammation.

Published
2019
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34. Type 2 Diabetes: How Much of an Autoimmune Disease?

Author

Paola de Candia, Francesco Prattichizzo, Silvia Garavelli, Veronica De Rosa, Mario Galgani, Francesca Di Rella, Maria Immacolata Spagnuolo, Alessandra Colamatteo, Clorinda Fusco, Teresa Micillo, Sara Bruzzaniti, Antonio Ceriello, Annibale A. Puca, and Giuseppe Matarese

Subjects
diabetes, autoimmunity, immunometabolism, inflammation, T cells, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Type 2 diabetes (T2D) is characterized by a progressive status of chronic, low-grade inflammation (LGI) that accompanies the whole trajectory of the disease, from its inception to complication development. Accumulating evidence is disclosing a long list of possible “triggers” of inflammatory responses, many of which are promoted by unhealthy lifestyle choices and advanced age. Diabetic patients show an altered number and function of immune cells, of both innate and acquired immunity. Reactive autoantibodies against islet antigens can be detected in a subpopulation of patients, while emerging data are also suggesting an altered function of specific T lymphocyte populations, including T regulatory (Treg) cells. These observations led to the hypothesis that part of the inflammatory response mounting in T2D is attributable to an autoimmune phenomenon. Here, we review recent data supporting this framework, with a specific focus on both tissue resident and circulating Treg populations. We also propose that selective interception (or expansion) of T cell subsets could be an alternative avenue to dampen inappropriate inflammatory responses without compromising immune responses.

Published
2019
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36. Drp1 Controls Effective T Cell Immune-Surveillance by Regulating T Cell Migration, Proliferation, and cMyc-Dependent Metabolic Reprogramming

Author

Luca Simula, Ilenia Pacella, Alessandra Colamatteo, Claudio Procaccini, Valeria Cancila, Matteo Bordi, Claudia Tregnago, Mauro Corrado, Martina Pigazzi, Vincenzo Barnaba, Claudio Tripodo, Giuseppe Matarese, Silvia Piconese, and Silvia Campello

Subjects
Biology (General), QH301-705.5
Abstract

Summary: Mitochondria are key players in the regulation of T cell biology by dynamically responding to cell needs, but how these dynamics integrate in T cells is still poorly understood. We show here that the mitochondrial pro-fission protein Drp1 fosters migration and expansion of developing thymocytes both in vitro and in vivo. In addition, we find that Drp1 sustains in vitro clonal expansion and cMyc-dependent metabolic reprogramming upon activation, also regulating effector T cell numbers in vivo. Migration and extravasation defects are also exhibited in Drp1-deficient mature T cells, unveiling its crucial role in controlling both T cell recirculation in secondary lymphoid organs and accumulation at tumor sites. Moreover, the observed Drp1-dependent imbalance toward a memory-like phenotype favors T cell exhaustion in the tumor microenvironment. All of these findings support a crucial role for Drp1 in several processes during T cell development and in anti-tumor immune-surveillance. : Mitochondria are emerging as key players for optimal T cell functionality. Simula et al. demonstrate that the mitochondrial pro-fission factor Drp1 controls thymocyte maturation and plays multiple roles in mature T cells by promoting their proliferation, migration, and cMyc-dependent metabolic reprogramming upon activation; this activity sustains efficient anti-tumor immune-surveillance. Keywords: mitochondrial dynamics, Drp1, T cells, thymocytes, tumor immune-surveillance, metabolic reprogramming, cMyc, cell migration, exhaustion, cell proliferation

Published
2018
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41. Near-shoring versus far-shoring: effects on customer perceived quality and purchase intention

Author

Fabio Cassia, Marcello Sansone, and Annarita Colamatteo

Subjects
PLS-SEM, Offshoring, Strategy and Management, media_common.quotation_subject, Offshoring, Quality, CSR, Near-shoring, Far-shoring, PLS-SEM, General Decision Sciences, Sample (statistics), Variance (accounting), Near-shoring, Quality, General Business, Management and Accounting, Insourcing, Perception, Conceptual model, Corporate social responsibility, Quality (business), Business and International Management, Marketing, Far-shoring, Psychology, CSR, media_common
Abstract

PurposeDriven by the disruptive effects of the Covid-19 pandemic, the ongoing debate about the international location of firms' manufacturing activities has increasingly highlighted the specific benefits and costs of near-shoring versus far-shoring. However, the effects of near-shoring versus far-shoring on customer perceived quality and purchase intention have not been examined. Thus, this study aims to develop a conceptual model and provide new evidence to fill this gap. In particular, the study explores the roles of brand familiarity and corporate social responsibility (CSR) to explain the different levels of perceived quality and purchase intention in relation to near-shoring versus far-shoring.Design/methodology/approachThis study includes two analyses of data collected from a sample of Italian customers. The first analysis consists of a 2 (high/low brand familiarity) × 3 (domestic insourcing, near-shoring, far-shoring) factorial design, and data are assessed via analyses of variance (ANOVA). The second analysis evaluates the suggested model in the two scenarios (near-shoring and far-shoring) via partial least squares–structural equation modelling (PLS-SEM) multigroup analysis.FindingsResults showed that customer perceived quality and purchase intention were significantly higher for near-shoring than for far-shoring, but only when brand familiarity was low. No significant difference was found for participants with a high level of brand familiarity. In addition, the level of a brand's pre-offshoring perceived CSR was negatively related to perceived quality, and this was conceptually justified by the CSR-washing effect. Again, this effect was found only when brand familiarity was low.Research limitations/implicationsThe findings contribute to advancing the current understanding of the multiple effects of the offshoring decision and clarify that near-shoring and far-shoring have different effects for customers with low brand familiarity. The findings also emphasise that the far-shoring decision can elicit the perception of decoupling between the firm's CSR claims and CSR actions, thus decreasing perceived quality.Practical implicationsThis study provides managers with additional inputs to make more informed decisions regarding offshoring. While the post-pandemic scenario seems to favour near-reshoring over far-shoring due to agility considerations, this study also provides additional evidence of the superiority of near-reshoring from the customer's perspective.Originality/valueThis is the first study to examine and prove the differential effects of near-shoring versus far-shoring on the customer's perceptions and behaviours.

Published
2021

42. Immuno-metabolic impact of the multiple sclerosis patients’ sera on endothelial cells of the blood-brain barrier

Author

S. Mercurio, V. De Rosa, Simon McArthur, Egle Solito, Rodrigo Azevedo Loiola, Giorgia Teresa Maniscalco, Madeeha H Sheikh, Alessandra Colamatteo, Sian M. Henson, Sheikh, M. H., Henson, S. M., Loiola, R. A., Mercurio, S., Colamatteo, A., Maniscalco, G. T., De Rosa, V., Mcarthur, S., and Solito, E.

Subjects
Adult, Male, 0301 basic medicine, medicine.medical_specialty, Endothelium, Immunology, Blood–brain barrier, lcsh:RC346-429, Capillary Permeability, Multiple sclerosis, 03 medical and health sciences, Cellular and Molecular Neuroscience, Multiple Sclerosis, Relapsing-Remitting, 0302 clinical medicine, Immune system, Internal medicine, medicine, Humans, Multiple sclerosi, Cells, Cultured, Tight junction, Cytoskeleton, lcsh:Neurology. Diseases of the nervous system, Blood-brain barrier, Autoimmune disease, Cell adhesion molecule, Chemistry, Research, General Neuroscience, Transendothelial and Transepithelial Migration, medicine.disease, Extravasation, Endothelial stem cell, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Metabolism, Neurology, Female, Endothelium, Vascular, Signal transduction, 030217 neurology & neurosurgery
Abstract

Background Multiple sclerosis (MS) is an autoimmune disease which results from the invasion of the brain by activated immune cells across the endothelial cells (ECs) of the blood-brain barrier (BBB), due to loss of immune self-tolerance. Many reports define the metabolic profile of immune cells in MS, however little is known about the metabolism of the BBB ECs during the disease. We aim to determine whether circulating factors in MS induce metabolic alterations of the BBB ECs compared to a healthy state, which can be linked with disruption of BBB integrity and subsequent immune cell extravasation. Methods and results In this report, we used an in vitro model to study the effect of sera from naïve-to-treatment, relapsing-remitting MS (RRMS) patients on the human brain microvascular endothelium, comparing effects to age/sex-matched healthy donor (HD) sera. Our data show that RRMS serum components affect brain endothelial cells by impairing intercellular tightness through the down-modulation of occludin and VE-cadherin, and facilitating immune cell extravasation through upregulation of intercellular adhesion molecules (ICAM-1) and P-glycoprotein (P-gp). At a metabolic level, the treatment of the endothelial cells with RRMS sera reduced their glycolytic activity (measured through the extracellular acidification rate-ECAR) and oxygen consumption rate (oxidative phosphorylation rate-OCR). Such changes were associated with the down-modulation of endothelial glucose transporter 1 (GLUT-1) expression and by altered mitochondrial membrane potential. Higher level of reactive oxygen species released from the endothelial cells treated with RRMS sera indicate a pro-inflammatory status of the cells together with the higher expression of ICAM-1, endothelial cell cytoskeleton perturbation (stress fibres) as well as disruption of the cytoskeleton signal transduction MSK1/2 and β-catenin phosphorylation. Conclusions Our data suggest that circulating factors present in RRMS patient serum induce physiological and biochemical alterations to the BBB, namely reducing expression of essential tightness regulators, as well as reduced engagement of glycolysis and alteration of mitochondrial potential. As these last changes have been linked with alterations in nutrient usage and metabolic function in immune cells; we propose that the BBB endothelium of MS patients may similarly undergo metabolic dysregulation, leading to enhanced permeability and increased disease susceptibility.

Published
2020

43. MiR-142-3p regulates synaptopathy-driven disease progression in multiple sclerosis

Author

Francesca Romana Rizzo, Antonio Bruno, Claudio Procaccini, Francesca De Vito, Antonio Uccelli, Georgia Mandolesi, Sara Bruzzaniti, Diego Fresegna, Valentina Vanni, Eran Hornstein, Fabio Buttari, Giuseppe Matarese, Clorinda Fusco, Sara Balletta, Mario Stampanoni Bassi, Ettore Dolcetti, Livia Guadalupi, Roberto Furlan, Tatjana Pekmezovic, Marco Salvetti, Silvia Bullitta, Silvia Caioli, Annamaria Finardi, Alessandra Musella, Alessandra Colamatteo, Krizia Sanna, Diego Centonze, Valerio Licursi, Antonietta Gentile, Jelena Drulovic, Luana Gilio, De Vito, F., Musella, A., Fresegna, D., Rizzo, F. R., Gentile, A., Stampanoni Bassi, M., Gilio, L., Buttari, F., Procaccini, C., Colamatteo, A., Bullitta, S., Guadalupi, L., Caioli, S., Vanni, V., Balletta, S., Sanna, K., Bruno, A., Dolcetti, E., Furlan, R., Finardi, A., Licursi, V., Drulovic, J., Pekmezovic, T., Fusco, C., Bruzzaniti, S., Hornstein, E., Uccelli, A., Salvetti, M., Matarese, G., Centonze, D., and Mandolesi, G.

Subjects
Male, fumarates, Interleukin-1beta, synaptopathy, experimental autoimmune encephalomyelitis, Mice, chemistry.chemical_compound, 0302 clinical medicine, Cerebrospinal fluid, Prospective Studies, Mice, Knockout, 0303 health sciences, fumarate, Dimethyl fumarate, microRNA, Experimental autoimmune encephalomyelitis, Middle Aged, biological marker, 3. Good health, Neurology, multiple sclerosi, Disease Progression, Female, Synaptopathy, Signal Transduction, Adult, Encephalomyelitis, Autoimmune, Experimental, Multiple Sclerosis, Histology, experimental autoimmune encephalomyeliti, Settore MED/26, Pathology and Forensic Medicine, 03 medical and health sciences, Immune system, Physiology (medical), medicine, Animals, Humans, 030304 developmental biology, business.industry, Multiple sclerosis, Wild type, medicine.disease, MicroRNAs, chemistry, Immunology, Neurology (clinical), business, 030217 neurology & neurosurgery, Ex vivo
Abstract

Aim: We recently proposed miR-142-3p as a molecular player in inflammatory synaptopathy, a new pathogenic hallmark of multiple sclerosis (MS) and of its mouse model experimental autoimmune encephalomyelitis (EAE), that leads to neuronal loss independently of demyelination. MiR-142-3p seems to be unique among potential biomarker candidates in MS, since it is an inflammatory miRNA playing a dual role in the immune and central nervous systems. Here, we aimed to verify the impact of miR-142-3p circulating in the cerebrospinal fluid (CSF) of MS patients on clinical parameters, neuronal excitability and its potential interaction with disease modifying therapies (DMTs). Methods and Results: In a cohort of 151 MS patients, we found positive correlations between CSF miR-142-3p levels and clinical progression, IL-1β signalling as well as synaptic excitability measured by transcranial magnetic stimulation. Furthermore, therapy response of patients with ‘low miR-142-3p’ to dimethyl fumarate (DMF), an established disease-modifying treatment (DMT), was superior to that of patients with ‘high miR-142-3p’ levels. Accordingly, the EAE clinical course of heterozygous miR-142 mice was ameliorated by peripheral DMF treatment with a greater impact relative to their wild type littermates. In addition, a central protective effect of this drug was observed following intracerebroventricular and ex vivo acute treatments of EAE wild type mice, showing a rescue of miR-142-3p-dependent glutamatergic alterations. By means of electrophysiology, molecular and biochemical analysis, we suggest miR-142-3p as a molecular target of DMF. Conclusion: MiR-142-3p is a novel and potential negative prognostic CSF marker of MS and a promising tool for identifying personalised therapies.

Published
2022

44. Signals of pseudo-starvation unveil the amino acid transporter SLC7A11 as key determinant in the control of Treg cell proliferative potential

Author

Procaccini, C, Garavelli, S, Carbone, F, Di Silvestre, D, La Rocca, C, Greco, D, Colamatteo, A, Lepore, M, Russo, C, De Rosa, G, Faicchia, D, Prattichizzo, F, Grossi, S, Campomenosi, P, Buttari, F, Mauri, P, Uccelli, A, Salvetti, M, Brescia Morra, V, Vella, D, Galgani, M, Mottola, M, Zuccarelli, B, Lanzillo, R, Maniscalco, G, Centonze, D, de Candia, P, Matarese, G, Procaccini C., Garavelli S., Carbone F., Di Silvestre D., La Rocca C., Greco D., Colamatteo A., Lepore M. T., Russo C., De Rosa G., Faicchia D., Prattichizzo F., Grossi S., Campomenosi P., Buttari F., Mauri P., Uccelli A., Salvetti M., Brescia Morra V., Vella D., Galgani M., Mottola M., Zuccarelli B., Lanzillo R., Maniscalco G. T., Centonze D., de Candia P., Matarese G., Procaccini, C, Garavelli, S, Carbone, F, Di Silvestre, D, La Rocca, C, Greco, D, Colamatteo, A, Lepore, M, Russo, C, De Rosa, G, Faicchia, D, Prattichizzo, F, Grossi, S, Campomenosi, P, Buttari, F, Mauri, P, Uccelli, A, Salvetti, M, Brescia Morra, V, Vella, D, Galgani, M, Mottola, M, Zuccarelli, B, Lanzillo, R, Maniscalco, G, Centonze, D, de Candia, P, Matarese, G, Procaccini C., Garavelli S., Carbone F., Di Silvestre D., La Rocca C., Greco D., Colamatteo A., Lepore M. T., Russo C., De Rosa G., Faicchia D., Prattichizzo F., Grossi S., Campomenosi P., Buttari F., Mauri P., Uccelli A., Salvetti M., Brescia Morra V., Vella D., Galgani M., Mottola M., Zuccarelli B., Lanzillo R., Maniscalco G. T., Centonze D., de Candia P., and Matarese G.

Abstract

Human CD4+CD25hiFOXP3+ regulatory T (Treg) cells are key players in the control of immunological self-tolerance and homeostasis. Here, we report that signals of pseudo-starvation reversed human Treg cell in vitro anergy through an integrated transcriptional response, pertaining to proliferation, metabolism, and transmembrane solute carrier transport. At the molecular level, the Treg cell proliferative response was dependent on the induction of the cystine/glutamate antiporter solute carrier (SLC)7A11, whose expression was controlled by the nuclear factor erythroid 2-related factor 2 (NRF2). SLC7A11 induction in Treg cells was impaired in subjects with relapsing-remitting multiple sclerosis (RRMS), an autoimmune disorder associated with reduced Treg cell proliferative capacity. Treatment of RRMS subjects with dimethyl fumarate (DMF) rescued SLC7A11 induction and fully recovered Treg cell expansion. These results suggest a previously unrecognized mechanism that may account for the progressive loss of Treg cells in autoimmunity and unveil SLC7A11 as major target for the rescue of Treg cell proliferation.

Published
2021

46. Dual quality and limits to international adaptation of product quality: development of a conceptual framework and research agenda.

Author

Annarita, Colamatteo, Fabio, Cassia, and Marcello, Sansone

Subjects
PRODUCT quality, PERCEIVED quality, CONSUMER protection, NEW product development, CONSUMERS, EXPORT marketing
Abstract

In recent years, consumers and public authorities in Europe have shown growing attention to dual quality, a term that refers to the sale across European countries of seemingly identical products that have different compositions and levels of quality. This phenomenon has raised consumer protection concerns and requires reflection on the ethical limits of local adaptation of firms' international marketing strategies. However, a lack of academic research on this topic remains. The present work addresses this gap and develops a conceptual framework that integrates prior research on consumer perceptions of and reactions to product quality and studies the standardisation – adaptation dilemma inherent in firms' international marketing strategies. The arguments presented here result in the development of a framework that comprises five stages: firms' real motivations for employing dual quality, dual-quality implementation, consumer awareness of dual quality, perceived acceptability of dual quality and consumer reactions to dual quality. Drawing on this framework, a rich research agenda is proposed to guide future studies and provide policymakers with new insights to help them evaluate whether or not to intervene to protect consumers. [ABSTRACT FROM AUTHOR]

Published
2023
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47. Metabolomics, lipidomics, and immunometabolism

Author

Sara Bruzzaniti, Alessandra Colamatteo, Teresa Micillo, Giuseppe Matarese, Giuseppe Danilo Norata, Paola de Candia, Fabrizia Bonacina, Clorinda Fusco, Fortunata Carbone, COLAMATTEO, ALESSANDRA DE CANDIA, PAOLA NORATA, GIUSEPPE DANILO MATARESE, GIUSEPPE, Carbone, F., Bruzzaniti, S., Fusco, C., Colamatteo, A., Micillo, T., De Candia, P., Bonacina, F., Norata, G. D., and Matarese, G.

Subjects
0301 basic medicine, Bioenergetics, Chemistry, Glycolysi, Bioenergetic, Lipidomic, T cells, Metabolomic, Metabolism, Lipidome, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Metabolomics, Biochemistry, Lipidomics, Extracellular, Metabolome, Flux (metabolism), 030217 neurology & neurosurgery, Mitochondrial respiration
Abstract

Metabolomics, lipidomics, and the study of cellular metabolism are gaining increasing interest particularly in the field of immunology, since the activation and effector functions of immune cells are profoundly controlled by changes in cellular metabolic asset. Among the different techniques that can be used for the evaluation of cellular metabolism, the Seahorse Extracellular Flux Analyzer allows the real time measurement of both glycolytic and mitochondrial respiration pathways in cells of interest, through the assessment of extracellular acidification and oxygen consumption rate. Metabolomics, on the other hand, is the high-throughput analysis of metabolites, i.e., the substrates, intermediates, and products of cellular metabolism, starting from biofluids, cells or tissues. The metabolome does not include lipids as their properties are different from water-soluble metabolites and are classified under the lipidome. Lipidomics analysis allows the identification and quantification of lipid species. Metabolomics and lipidomics are currently performed with mass-spectrometry coupled with liquid or gas chromatography (LC-MS or GC-MS) and/or nuclear-magnetic resonance (NMR). Here we describe the protocol for the evaluation of metabolic rate, metabolomics, and lipidomics in T cells, examining the detailed experimental approaches.

Published
2021

48. Reduced Annexin A1 Expression Associates with Disease Severity and Inflammation in Multiple Sclerosis Patients

Author

Fabio Buttari, Veronica De Rosa, Francesco Perna, Elisa Maggioli, Madeeha H Sheikh, Bruno Zuccarelli, Giorgia Teresa Maniscalco, Gaetano Calì, Rodrigo Azevedo Loiola, Maria Mottola, Dario Bruzzese, Mario Galgani, Silvana Cassano, Roberta Lanzillo, Egle Solito, Diego Centonze, Alessandra Colamatteo, Colamatteo, Alessandra, Maggioli, Elisa, Azevedo Loiola, Rodrigo, Hamid Sheikh, Madeeha, Calì, Gaetano, Bruzzese, Dario, Maniscalco, Giorgia Teresa, Centonze, Diego, Buttari, Fabio, Lanzillo, Roberta, Perna, Francesco, Zuccarelli, Bruno, Mottola, Maria, Cassano, Silvana, Galgani, Mario, Solito, Egle, and De Rosa, Veronica

Subjects
Adult, Male, STAT3 Transcription Factor, endocrine system, Multiple Sclerosis, T cell, Immunology, Inflammation, Settore MED/26, Lymphocyte Activation, Severity of Illness Index, Monocytes, Proinflammatory cytokine, Annexin A1, 03 medical and health sciences, 0302 clinical medicine, Humans, Immunology and Allergy, Medicine, IL-2 receptor, Neuroinflammation, Cell Proliferation, Autoimmune disease, business.industry, Multiple sclerosis, Middle Aged, Th1 Cells, medicine.disease, medicine.anatomical_structure, Gene Expression Regulation, Th17 Cells, Female, medicine.symptom, business, Glycolysis, 030215 immunology
Abstract

Chronic neuroinflammation is a key pathological hallmark of multiple sclerosis (MS) that suggests that resolution of inflammation by specialized proresolving molecules is dysregulated in the disease. Annexin A1 (ANXA1) is a protein induced by glucocorticoids that facilitates resolution of inflammation through several mechanisms that include an inhibition of leukocyte recruitment and activation. In this study, we investigated the ability of ANXA1 to influence T cell effector function in relapsing/remitting MS (RRMS), an autoimmune disease sustained by proinflammatory Th1/Th17 cells. Circulating expression levels of ANXA1 in naive-to-treatment RRMS subjects inversely correlated with disease score and progression. At the cellular level, there was an impaired ANXA1 production by CD4+CD25− conventional T and CD4+RORγt+ T (Th17) cells from RRMS subjects that associated with an increased migratory capacity in an in vitro model of blood brain barrier. Mechanistically, ANXA1 impaired monocyte maturation secondarily to STAT3 hyperactivation and potently reduced T cell activation, proliferation, and glycolysis. Together, these findings identify impaired disease resolution pathways in RRMS caused by dysregulated ANXA1 expression that could represent new potential therapeutic targets in RRMS.

Published
2019

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