Your search keyword '"Pinzon Grimaldos A"' showing total 10 results

1. ANGPTL3 deficiency associates with the expansion of regulatory T cells with reduced lipid content

Author

Pinzon Grimaldos, Alessandra, Pacella, Ilenia, Bini, Simone, Tucci, Gloria, Cammarata, Ilenia, Di Costanzo, Alessia, Minicocci, Ilenia, D'Erasmo, Laura, Arca, Marcello, and Piconese, Silvia

Published

2022

2. Baricitinib therapy response in rheumatoid arthritis patients associates to STAT1 phosphorylation in monocytes

Author

Gloria Tucci, Cristina Garufi, Ilenia Pacella, Marta Zagaglioni, Alessandra Pinzon Grimaldos, Fulvia Ceccarelli, Fabrizio Conti, Francesca Romana Spinelli, and Silvia Piconese

Subjects

interferon, STAT, JAKi, monocytes, rheumatoid arthritis, ISGs, Immunologic diseases. Allergy, RC581-607

Abstract

Baricitinib is a Janus kinase (JAK) 1 and 2 inhibitor approved for treating rheumatoid arthritis (RA). The JAK/STAT system is essential in the intracellular signaling of different cytokines and in the activation process of the monocyte lineage. This study verifies the effects of baricitinib on STAT phosphorylation in monocytes of RA patients and evaluates the correlation between STAT phosphorylation and response to therapy. We evaluated the disease activity of patients (DAS28CRP) at baseline (T0) and after 4 and 12 weeks (T1–T3) of treatment with baricitinib, dividing them into responders (n = 7) and non-responders (n = 7) based on the reduction of DAS28CRP between T0 and T1 of at least 1.2 points. Through flow cytometry, STAT1 phosphorylation was analyzed at T0/T1/T3 in monocytes, at basal conditions and after IL2, IFNα, and IL6 stimulation. We showed that monocyte frequency decreased from T0 to T1 only in responders. Regarding the phosphorylation of STAT1, we observed a tendency for higher basal pSTAT1 in monocytes of non-responder patients and, after 4 weeks, a significant reduction of cytokine-induced pSTAT1 in monocytes of responders compared with non-responders. The single IFNα stimulation only partially recapitulated the differences in STAT1 phosphorylation between the two patient subgroups. Finally, responders showed an increased IFN signature at baseline compared with non-responders. These results may suggest that monocyte frequency and STAT1 phosphorylation in circulating monocytes could represent early markers of response to baricitinib therapy.

Published

2022

3. The role of lipid metabolism in shaping the expansion and the function of regulatory T cells

Author

Alessandra Pinzon Grimaldos, Simone Bini, Ilenia Pacella, Alessandra Rossi, Alessia Di Costanzo, Ilenia Minicocci, Laura D’Erasmo, Marcello Arca, and Silvia Piconese

Subjects

Inflammation, Cholesterol, Immunology, Humans, Mevalonic Acid, Immunology and Allergy, lipids (amino acids, peptides, and proteins), Lipid Metabolism, Review Series: Metabolites: fuelling the immune response (Series Editors: Mauro Corrado, Diana Moreira, Nicholas Jones), T-Lymphocytes, Regulatory

Abstract

Metabolic inflammation, defined as a chronic low-grade inflammation, is implicated in numerous metabolic diseases. In recent years, the role of regulatory T cells (Tregs) as key controllers of metabolic inflammation has emerged, but our comprehension on how different metabolic pathways influence Treg functions needs a deeper understanding. Here we focus on how circulating and intracellular lipid metabolism, in particular cholesterol metabolism, regulates Treg homeostasis, expansion, and functions. Cholesterol is carried through the bloodstream by circulating lipoproteins (chylomicrons, very low-density lipoproteins, low-density lipoproteins). Tregs are equipped with a wide array of metabolic sensors able to perceive and respond to changes in the lipid environment through the activation of different intracellular pathways thus conferring to these cells a crucial metabolic and functional plasticity. Nevertheless, altered cholesterol transport, as observed in genetic dyslipidemias and atherosclerosis, impairs Treg proliferation and function through defective cellular metabolism. The intracellular pathway devoted to the cholesterol synthesis is the mevalonate pathway and several studies have shown that this pathway is essential for Treg stability and suppressive activity. High cholesterol concentrations in the extracellular environment may induce massive accumulation of cholesterol inside the cell thus impairing nutrients sensors and inhibiting the mevalonate pathway. This review summarizes the current knowledge regarding the role of circulating and cellular cholesterol metabolism in the regulation of Treg metabolism and functions. In particular, we will discuss how different pathological conditions affecting cholesterol transport may affect cellular metabolism in Tregs.

Published

2021

4. Baricitinib therapy response in rheumatoid arthritis patients associates to STAT1 phosphorylation in monocytes

Author

Tucci, Gloria, primary, Garufi, Cristina, additional, Pacella, Ilenia, additional, Zagaglioni, Marta, additional, Pinzon Grimaldos, Alessandra, additional, Ceccarelli, Fulvia, additional, Conti, Fabrizio, additional, Spinelli, Francesca Romana, additional, and Piconese, Silvia, additional

Published

2022

5. AB0087 THE EFFECT OF BARICITINIB ON STAT1 PHOSPHORYLATION IN MONOCYTES FROM RHEUMATOID ARTHRITIS PATIENTS

Author

Garufi, C., primary, Tucci, G., additional, Pacella, I., additional, Zagaglioni, M., additional, Pinzon Grimaldos, A., additional, Ceccarelli, F., additional, Piconese, S., additional, Spinelli, F. R., additional, and Conti, F., additional

Published

2022

6. ANGPTL3 deficiency associates with the expansion of regulatory T cells with reduced lipid content

Author

Alessandra Pinzon Grimaldos, Ilenia Pacella, Simone Bini, Gloria Tucci, Ilenia Cammarata, Alessia Di Costanzo, Ilenia Minicocci, Laura D'Erasmo, Marcello Arca, and Silvia Piconese

Subjects

Lipoproteins, Mevalonic Acid, Forkhead Transcription Factors, T-Lymphocytes, Regulatory, regulatory T cells, genetic dyslipidemia, Angiopoietin-like Proteins, Metabolic Diseases, ANGPTL3, lipid metabolism, Humans, Cardiology and Cardiovascular Medicine, Angiopoietins, Angiopoietin-Like Protein 3

Abstract

Angiopoietin-like 3 (ANGPTL3) regulates lipid and glucose metabolism. Loss-of-function mutations in its gene, leading to ANGPTL3 deficiency, cause in humans the familial combined hypolipidemia type 2 (FHBL2) phenotype, characterized by very low concentrations of circulating lipoproteins and reduced risk of atherosclerotic cardiovascular disease. Whether this condition is accompanied by immune dysfunctions is unknown. Regulatory T cells (Tregs) are CD4 T lymphocytes endowed with immune suppressive and atheroprotective functions and sensitive to metabolic signals. By investigating FHBL2, we explored the hypothesis that Tregs expand in response to extreme hypolipidemia, through a modulation of the Treg-intrinsic lipid metabolism.Treg frequency, phenotype, and intracellular lipid content were assessed ex vivo from FHBL2 subjects and age- and sex-matched controls, through multiparameter flow cytometry. The response of CD4 T cells from healthy controls to marked hypolipidemia was tested in vitro in low-lipid culture conditions.The ex vivo analysis revealed that FHBL2 subjects showed higher percentages of Tregs with a phenotype undistinguishable from controls and with a lower lipid content, which directly correlated with the concentrations of circulating lipoproteins. In vitro, lipid restriction induced the upregulation of genes of the mevalonate pathway, including those involved in isoprenoid biosynthesis, and concurrently increased the expression of the Treg markers FOXP3 and Helios. The latter event was found to be prenylation-dependent, and likely related to increased IL-2 production and signaling.Our study demonstrates that FHBL2 is characterized by high Treg frequencies, a feature which may concur to the reduced atherosclerotic risk in this condition. Mechanistically, hypolipidemia may directly favor Treg expansion, through the induction of the mevalonate pathway and the prenylation of key signaling proteins.

Published

2022

7. The role of lipid metabolism in shaping the expansion and the function of regulatory T cells

Author

Pinzon Grimaldos, Alessandra, primary, Bini, Simone, additional, Pacella, Ilenia, additional, Rossi, Alessandra, additional, Di Costanzo, Alessia, additional, Minicocci, Ilenia, additional, D’Erasmo, Laura, additional, Arca, Marcello, additional, and Piconese, Silvia, additional

Published

2021

8. The role of lipid metabolism in shaping the expansion and the function of regulatory T cells.

Author

Pinzon Grimaldos, Alessandra, Bini, Simone, Pacella, Ilenia, Rossi, Alessandra, Di Costanzo, Alessia, Minicocci, Ilenia, D'Erasmo, Laura, Arca, Marcello, and Piconese, Silvia

Subjects

*REGULATORY T cells, *LIPID metabolism, *BLOOD lipids, *CHOLESTEROL metabolism, *HYDROXYCHOLESTEROLS, *METABOLIC regulation, *CHYLOMICRONS

Abstract

Metabolic inflammation, defined as a chronic low-grade inflammation, is implicated in numerous metabolic diseases. In recent years, the role of regulatory T cells (Tregs) as key controllers of metabolic inflammation has emerged, but our comprehension on how different metabolic pathways influence Treg functions needs a deeper understanding. Here we focus on how circulating and intracellular lipid metabolism, in particular cholesterol metabolism, regulates Treg homeostasis, expansion, and functions. Cholesterol is carried through the bloodstream by circulating lipoproteins (chylomicrons, very low-density lipoproteins, low-density lipoproteins). Tregs are equipped with a wide array of metabolic sensors able to perceive and respond to changes in the lipid environment through the activation of different intracellular pathways thus conferring to these cells a crucial metabolic and functional plasticity. Nevertheless, altered cholesterol transport, as observed in genetic dyslipidemias and atherosclerosis, impairs Treg proliferation and function through defective cellular metabolism. The intracellular pathway devoted to the cholesterol synthesis is the mevalonate pathway and several studies have shown that this pathway is essential for Treg stability and suppressive activity. High cholesterol concentrations in the extracellular environment may induce massive accumulation of cholesterol inside the cell thus impairing nutrients sensors and inhibiting the mevalonate pathway. This review summarizes the current knowledge regarding the role of circulating and cellular cholesterol metabolism in the regulation of Treg metabolism and functions. In particular, we will discuss how different pathological conditions affecting cholesterol transport may affect cellular metabolism in Tregs. Immunity and lipid metabolism are intermingled at several levels: both circulating lipoproteins and intracellular lipid metabolism can modulate immune cell functions, especially those of regulatory T cells. In this review, Pinzon Grimaldos et al. explore the available knowledge on the role of lipid metabolism, and cholesterol in particular, in shaping Treg expansion and function. This pathway may become especially relevant in the context of atherosclerotic disease. [ABSTRACT FROM AUTHOR]

Published

2022

9. ANGPTL3 deficiency associates with expanded regulatory T cells with reduced lipid content

Author

I. Pacella, Massimo Arcà, A. Di Costanzo, Simone Bini, Ilenia Minicocci, S. Piconese, Antonello Rossi, A. Pinzon Grimaldos, and Laura D'Erasmo

Subjects

Chemistry, Lipid content, ANGPTL3, Cardiology and Cardiovascular Medicine, Cell biology

Published

2021

10. Iron capture through CD71 drives perinatal and tumor-associated Treg expansion.

Author

Pacella I, Pinzon Grimaldos A, Rossi A, Tucci G, Zagaglioni M, Potenza E, Pinna V, Rotella I, Cammarata I, Cancila V, Belmonte B, Tripodo C, Pietropaolo G, Di Censo C, Sciumè G, Licursi V, Peruzzi G, Antonucci Y, Campello S, Guerrieri F, Iebba V, Prota R, Di Chiara M, Terrin G, De Peppo V, Grazi GL, Barnaba V, and Piconese S

Subjects

Animals, Mice, Humans, Liver Neoplasms immunology, Liver Neoplasms metabolism, Liver Neoplasms pathology, Mice, Knockout, Female, Gastrointestinal Microbiome immunology, Male, Liver metabolism, Liver immunology, Homeostasis, T-Lymphocytes, Regulatory immunology, T-Lymphocytes, Regulatory metabolism, Receptors, Transferrin metabolism, Iron metabolism, Antigens, CD metabolism

Abstract

Besides suppressing immune responses, regulatory T cells (Tregs) maintain tissue homeostasis and control systemic metabolism. Whether iron is involved in Treg-mediated tolerance is completely unknown. Here, we showed that the transferrin receptor CD71 was upregulated on activated Tregs infiltrating human liver cancer. Mice with a Treg-restricted CD71 deficiency spontaneously developed a scurfy-like disease, caused by impaired perinatal Treg expansion. CD71-null Tregs displayed decreased proliferation and tissue-Treg signature loss. In perinatal life, CD71 deficiency in Tregs triggered hepatic iron overload response, characterized by increased hepcidin transcription and iron accumulation in macrophages. Lower bacterial diversity, and reduction of beneficial species, were detected in the fecal microbiota of CD71 conditional knockout neonates. Our findings indicate that CD71-mediated iron absorption is required for Treg perinatal expansion and is related to systemic iron homeostasis and bacterial gut colonization. Therefore, we hypothesize that Tregs establish nutritional tolerance through competition for iron during bacterial colonization after birth.

Published

2024