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3. The therapeutic potential of an allosteric non-competitive CXCR1/2 antagonist for diabetic nephropathy

Author

Grasselli, C, Bombelli, S, D'Esposito, V, Di Tolla, M, L'Imperio, V, Rocchio, F, Miscione, M, Formisano, P, Pagni, F, Novelli, R, Ruffini, P, Aramini, A, Allegretti, M, Perego, R, De Filippis, L, Grasselli, Chiara, Bombelli, Silvia, D'Esposito, Vittoria, Di Tolla, Michele Francesco, L'Imperio, Vincenzo, Rocchio, Francesca, Miscione, Martina Sara, Formisano, Pietro, Pagni, Fabio, Novelli, Rubina, Ruffini, Pier Adelchi, Aramini, Andrea, Allegretti, Marcello, Perego, Roberto, De Filippis, Lidia, Grasselli, C, Bombelli, S, D'Esposito, V, Di Tolla, M, L'Imperio, V, Rocchio, F, Miscione, M, Formisano, P, Pagni, F, Novelli, R, Ruffini, P, Aramini, A, Allegretti, M, Perego, R, De Filippis, L, Grasselli, Chiara, Bombelli, Silvia, D'Esposito, Vittoria, Di Tolla, Michele Francesco, L'Imperio, Vincenzo, Rocchio, Francesca, Miscione, Martina Sara, Formisano, Pietro, Pagni, Fabio, Novelli, Rubina, Ruffini, Pier Adelchi, Aramini, Andrea, Allegretti, Marcello, Perego, Roberto, and De Filippis, Lidia

Abstract

Aims: Diabetic nephropathy is a major consequence of inflammation developing in type 1 diabetes, with interleukin-8 (IL-8)-CXCR1/2 axis playing a key role in kidney disease progression. In this study, we investigated the therapeutic potential of a CXCR1/2 non-competitive allosteric antagonist (Ladarixin) in preventing high glucose-mediated injury in human podocytes and epithelial cells differentiated from renal stem/progenitor cells (RSC) cultured as nephrospheres. Materials and Methods: We used human RSCs cultured as nephrospheres through a sphere-forming functional assay to investigate hyperglycemia-mediated effects on IL-8 signalling in human podocytes and tubular epithelial cells. Results: High glucose impairs RSC self-renewal, induces an increase in IL-8 transcript expression and protein secretion and induces DNA damage in RSC-differentiated podocytes, while exerting no effect on RSC-differentiated epithelial cells. Accordingly, the supernatant from epithelial cells or podocytes cultured in high glucose was able to differentially activate leucocyte-mediated secretion of pro-inflammatory cytokines, suggesting that the crosstalk between immune and non-immune cells may be involved in disease progression in vivo. Conclusions: Treatment with Ladarixin during RSC differentiation prevented high glucose-mediated effects on podocytes and modulated either podocyte or epithelial cell-dependent leucocyte secretion of pro-inflammatory cytokines, suggesting CXCR1/2 antagonists as possible pharmacological approaches for the treatment of diabetic nephropathy.

Published
2023

4. Prolonged XPO1 inhibition is essential for optimal antileukemic activity in NPM1-mutated AML

Author

Pianigiani, G., Gagliardi, A., Mezzasoma, F., Rocchio, F., Tini, V., Bigerna, B., Sportoletti, P., Caruso, S., Marra, A., Peruzzi, S., Petito, E., Spinozzi, G., Shacham, S., Landesman, Y., Quintarelli, C., Gresele, P., Locatelli, Franco, Martelli, M. P., Falini, B., Brunetti, L., Locatelli F. (ORCID:0000-0002-7976-3654), Pianigiani, G., Gagliardi, A., Mezzasoma, F., Rocchio, F., Tini, V., Bigerna, B., Sportoletti, P., Caruso, S., Marra, A., Peruzzi, S., Petito, E., Spinozzi, G., Shacham, S., Landesman, Y., Quintarelli, C., Gresele, P., Locatelli, Franco, Martelli, M. P., Falini, B., Brunetti, L., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

NPM1 is the most frequently mutated gene in adults with acute myeloid leukemia (AML). The interaction between mutant NPM1 (NPM1c) and exportin-1 (XPO1) causes aberrant cytoplasmic dislocation of NPM1c and promotes the high expression of homeobox (HOX) genes, which is critical for maintaining the leukemic state of NPM1-mutated cells. Although there is a rationale for using XPO1 inhibitors in NPM1-mutated AML, selinexor administered once or twice per week did not translate into clinical benefit in patients with NPM1 mutations. Here, we show that this dosing strategy results in only a temporary disruption of the XPO1-NPM1c interaction, limiting the efficacy of selinexor. Because the second-generation XPO1 inhibitor eltanexor can be administered more frequently, we tested the antileukemic activity of prolonged XPO1 inhibition in NPM1-mutated AML models. Eltanexor caused irreversible HOX downregulation, induced terminal AML differentiation, and prolonged the survival of leukemic mice. This study provides essential information for the appropriate design of clinical trials with XPO1 inhibitors in NPM1-mutated AML.

Published
2022

9. The therapeutic potential of an allosteric non-competitive CXCR1/2 antagonist for diabetic nephropathy

Author

Grasselli, Chiara, Bombelli, Silvia, D'Esposito, Vittoria, Di Tolla, Michele Francesco, L'Imperio, Vincenzo, Rocchio, Francesca, Miscione, Martina Sara, Formisano, Pietro, Pagni, Fabio, Novelli, Rubina, Ruffini, Pier Adelchi, Aramini, Andrea, Allegretti, Marcello, Perego, Roberto, De Filippis, Lidia, Grasselli, C, Bombelli, S, D'Esposito, V, Di Tolla, M, L'Imperio, V, Rocchio, F, Miscione, M, Formisano, P, Pagni, F, Novelli, R, Ruffini, P, Aramini, A, Allegretti, M, Perego, R, and De Filippis, L

Subjects
CXCR1/2, IL-8, type 1 diabetes, diabetic nephropathy, Ladarixin, renal stem cell
Abstract

Aims: Diabetic nephropathy is a major consequence of inflammation developing in type 1 diabetes, with interleukin-8 (IL-8)-CXCR1/2 axis playing a key role in kidney disease progression. In this study, we investigated the therapeutic potential of a CXCR1/2 non-competitive allosteric antagonist (Ladarixin) in preventing high glucose-mediated injury in human podocytes and epithelial cells differentiated from renal stem/progenitor cells (RSC) cultured as nephrospheres. Materials and methods: We used human RSCs cultured as nephrospheres through a sphere-forming functional assay to investigate hyperglycemia-mediated effects on IL-8 signalling in human podocytes and tubular epithelial cells. Results: High glucose impairs RSC self-renewal, induces an increase in IL-8 transcript expression and protein secretion and induces DNA damage in RSC-differentiated podocytes, while exerting no effect on RSC-differentiated epithelial cells. Accordingly, the supernatant from epithelial cells or podocytes cultured in high glucose was able to differentially activate leucocyte-mediated secretion of pro-inflammatory cytokines, suggesting that the crosstalk between immune and non-immune cells may be involved in disease progression in vivo. Conclusions: Treatment with Ladarixin during RSC differentiation prevented high glucose-mediated effects on podocytes and modulated either podocyte or epithelial cell-dependent leucocyte secretion of pro-inflammatory cytokines, suggesting CXCR1/2 antagonists as possible pharmacological approaches for the treatment of diabetic nephropathy.

Published
2023

10. The therapeutic potential of an allosteric non-competitive CXCR1/2 antagonist for diabetic nephropathy.

Author

Grasselli C, Bombelli S, D'Esposito V, Di Tolla MF, L'Imperio V, Rocchio F, Miscione MS, Formisano P, Pagni F, Novelli R, Ruffini PA, Aramini A, Allegretti M, Perego R, and De Filippis L

Abstract

Aims: Diabetic nephropathy is a major consequence of inflammation developing in type 1 diabetes, with interleukin-8 (IL-8)-CXCR1/2 axis playing a key role in kidney disease progression. In this study, we investigated the therapeutic potential of a CXCR1/2 non-competitive allosteric antagonist (Ladarixin) in preventing high glucose-mediated injury in human podocytes and epithelial cells differentiated from renal stem/progenitor cells (RSC) cultured as nephrospheres., Materials and Methods: We used human RSCs cultured as nephrospheres through a sphere-forming functional assay to investigate hyperglycemia-mediated effects on IL-8 signalling in human podocytes and tubular epithelial cells., Results: High glucose impairs RSC self-renewal, induces an increase in IL-8 transcript expression and protein secretion and induces DNA damage in RSC-differentiated podocytes, while exerting no effect on RSC-differentiated epithelial cells. Accordingly, the supernatant from epithelial cells or podocytes cultured in high glucose was able to differentially activate leucocyte-mediated secretion of pro-inflammatory cytokines, suggesting that the crosstalk between immune and non-immune cells may be involved in disease progression in vivo., Conclusions: Treatment with Ladarixin during RSC differentiation prevented high glucose-mediated effects on podocytes and modulated either podocyte or epithelial cell-dependent leucocyte secretion of pro-inflammatory cytokines, suggesting CXCR1/2 antagonists as possible pharmacological approaches for the treatment of diabetic nephropathy., (© 2023 Dompé Farmaceutici S.p.A. and The Authors. Diabetes/Metabolism Research and Reviews published by John Wiley & Sons Ltd.)

Published
2023
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11. The role of extracellular vesicles and interleukin-8 in regulating and mediating neutrophil-dependent cancer drug resistance.

Author

Zippoli M, Ruocco A, Novelli R, Rocchio F, Miscione MS, Allegretti M, Cesta MC, and Amendola PG

Abstract

Tumor drug resistance is a multifactorial and heterogenous condition that poses a serious burden in clinical oncology. Given the increasing incidence of resistant tumors, further understanding of the mechanisms that make tumor cells able to escape anticancer drug effects is pivotal for developing new effective treatments. Neutrophils constitute a considerable proportion of tumor infiltrated immune cells, and studies have linked elevated neutrophil counts with poor prognosis. Tumor-associated neutrophils (TANs) can acquire in fact immunoregulatory capabilities, thus regulating tumor progression and resistance, or response to therapy. In this review, we will describe TANs' actions in the tumor microenvironment, with emphasis on the analysis of the role of interleukin-8 (IL-8) and extracellular vesicles (EVs) as crucial modulators and mediators of TANs biology and function in tumors. We will then discuss the main mechanisms through which TANs can induce drug resistance, finally reporting emerging therapeutic approaches that target these mechanisms and can thus be potentially used to reduce or overcome neutrophil-mediated tumor drug resistance., Competing Interests: The authors are employees of Dompé farmaceutici S.p.A., (Copyright © 2022 Zippoli, Ruocco, Novelli, Rocchio, Miscione, Allegretti, Cesta and Amendola.)

Published
2022
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12. Prolonged XPO1 inhibition is essential for optimal antileukemic activity in NPM1-mutated AML.

Author

Pianigiani G, Gagliardi A, Mezzasoma F, Rocchio F, Tini V, Bigerna B, Sportoletti P, Caruso S, Marra A, Peruzzi S, Petito E, Spinozzi G, Shacham S, Landesman Y, Quintarelli C, Gresele P, Locatelli F, Martelli MP, Falini B, and Brunetti L

Subjects
Mice, Animals, Gene Expression Regulation, Leukemic, Nuclear Proteins genetics, Nuclear Proteins metabolism, Nucleophosmin, Karyopherins genetics, Karyopherins metabolism, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute metabolism, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use
Abstract

NPM1 is the most frequently mutated gene in adults with acute myeloid leukemia (AML). The interaction between mutant NPM1 (NPM1c) and exportin-1 (XPO1) causes aberrant cytoplasmic dislocation of NPM1c and promotes the high expression of homeobox (HOX) genes, which is critical for maintaining the leukemic state of NPM1-mutated cells. Although there is a rationale for using XPO1 inhibitors in NPM1-mutated AML, selinexor administered once or twice per week did not translate into clinical benefit in patients with NPM1 mutations. Here, we show that this dosing strategy results in only a temporary disruption of the XPO1-NPM1c interaction, limiting the efficacy of selinexor. Because the second-generation XPO1 inhibitor eltanexor can be administered more frequently, we tested the antileukemic activity of prolonged XPO1 inhibition in NPM1-mutated AML models. Eltanexor caused irreversible HOX downregulation, induced terminal AML differentiation, and prolonged the survival of leukemic mice. This study provides essential information for the appropriate design of clinical trials with XPO1 inhibitors in NPM1-mutated AML., (© 2022 by The American Society of Hematology. Licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), permitting only noncommercial, nonderivative use with attribution. All other rights reserved.)

Published
2022
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13. The absent/low expression of CD34 in NPM1-mutated AML is not related to cytoplasmic dislocation of NPM1 mutant protein.

Author

Pianigiani G, Rocchio F, Peruzzi S, Andresen V, Bigerna B, Sorcini D, Capurro M, Gjertsen BT, Sportoletti P, Di Ianni M, Martelli MP, Brunetti L, and Falini B

Subjects
Antigens, CD34 metabolism, Cytoplasm metabolism, Humans, Mutant Proteins genetics, Mutation, Nuclear Proteins genetics, Nuclear Proteins metabolism, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute metabolism
Published
2022
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14. The IL-8-CXCR1/2 axis contributes to diabetic kidney disease.

Author

Loretelli C, Rocchio F, D'Addio F, Ben Nasr M, Castillo-Leon E, Dellepiane S, Vergani A, Abdelsalam A, Assi E, Maestroni A, Usuelli V, Bassi R, Pastore I, Yang J, El Essawy B, Elased KM, Fadini GP, Ippolito E, Seelam AJ, Pezzolesi M, Corradi D, Zuccotti GV, Gallieni M, Allegretti M, Niewczas MA, and Fiorina P

Subjects
Adult, Animals, Case-Control Studies, Cells, Cultured, Cohort Studies, Diabetes Mellitus, Experimental genetics, Diabetes Mellitus, Experimental metabolism, Diabetes Mellitus, Experimental pathology, Diabetes Mellitus, Type 2 complications, Diabetes Mellitus, Type 2 genetics, Diabetes Mellitus, Type 2 metabolism, Diabetes Mellitus, Type 2 pathology, Diabetic Nephropathies metabolism, Diabetic Nephropathies pathology, Humans, Interleukin-8 genetics, Interleukin-8 metabolism, Italy, Kidney metabolism, Kidney pathology, Mice, Mice, Inbred C57BL, Mice, Transgenic, Podocytes metabolism, Podocytes pathology, Receptors, Interleukin-8A genetics, Receptors, Interleukin-8A metabolism, Receptors, Interleukin-8B genetics, Receptors, Interleukin-8B metabolism, Signal Transduction physiology, Diabetic Nephropathies genetics, Interleukin-8 physiology, Receptors, CXCR physiology
Abstract

Aims/hypothesis: Inflammation has a major role in diabetic kidney disease. We thus investigated the role of the IL-8-CXCR1/2 axis in favoring kidney damage in diabetes., Methods: Urinary IL-8 levels were measured in 1247 patients of the Joslin Kidney Study in type 2 diabetes (T2D). The expression of IL-8 and of its membrane receptors CXCR1/CXCR2 was quantified in kidney tissues in patients with T2D and in controls. The effect of CXCR1/2 blockade on diabetic kidney disease was evaluated in db/db mice., Results: IL-8 urinary levels were increased in patients with T2D and diabetic kidney disease, with the highest urinary IL-8 levels found in the patients with the largest decline in glomerular filtration rate, with an increased albumin/creatine ratio and the worst renal outcome. Moreover, glomerular IL-8 renal expression was increased in patients with T2D, as compared to controls. High glucose elicits abundant IL-8 secretion in cultured human immortalized podocytes in vitro. Finally, in diabetic db/db mice and in podocytes in vitro, CXCR1/2 blockade mitigated albuminuria, reduced mesangial expansion, decreased podocyte apoptosis and reduced DNA damage., Conclusions/interpretation: The IL-8- CXCR1/2 axis may have a role in diabetic kidney disease by inducing podocyte damage. Indeed, targeting the IL-8-CXCR1/2 axis may reduce the burden of diabetic kidney disease., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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15. Clinicopathological Bird's-Eye View of Left Atrial Myocardial Fibrosis in 121 Patients With Persistent Atrial Fibrillation: Developing Architecture and Main Cellular Players.

Author

Callegari S, Macchi E, Monaco R, Magnani L, Tafuni A, Croci S, Nicastro M, Garrapa V, Banchini A, Becchi G, Corradini E, Goldoni M, Rocchio F, Sala R, Benussi S, Ferrara D, Alfieri O, and Corradi D

Subjects
Adult, Aged, Aged, 80 and over, Atrial Fibrillation metabolism, Atrial Fibrillation physiopathology, Atrial Fibrillation therapy, Atrial Function, Left, Atrial Remodeling, Biopsy, Collagen Type I analysis, Connexin 43 analysis, Female, Fibrosis, Heart Atria chemistry, Heart Atria physiopathology, Heart Valve Diseases metabolism, Heart Valve Diseases physiopathology, Heart Valve Diseases therapy, Humans, Male, Middle Aged, Myocardium chemistry, Retrospective Studies, Rheumatic Heart Disease metabolism, Rheumatic Heart Disease physiopathology, Rheumatic Heart Disease therapy, Atrial Fibrillation pathology, Heart Atria pathology, Heart Valve Diseases pathology, Myocardium pathology, Rheumatic Heart Disease pathology
Abstract

Background: Scientific research on atrial fibrosis in atrial fibrillation (AF) has mainly focused on quantitative or molecular features. The purpose of this study was to perform a clinicoarchitectural/structural investigation of fibrosis to provide one key to understanding the electrophysiological/clinical aspects of AF., Methods: We characterized the fibrosis (amount, architecture, cellular components, and ultrastructure) in left atrial biopsies from 121 patients with persistent/long-lasting persistent AF (group 1; 59 males; 60±11 years; 91 mitral disease-related AF, 30 nonmitral disease-related AF) and from 39 patients in sinus rhythm with mitral valve regurgitation (group 2; 32 males; 59±12 years). Ten autopsy hearts served as controls., Results: Qualitatively, the fibrosis exhibited the same characteristics in all cases and displayed particular architectural scenarios (which we arbitrarily subdivided into 4 stages) ranging from isolated foci to confluent sclerotic areas. The percentage of fibrosis was larger and at a more advanced stage in group 1 versus group 2 and, within group 1, in patients with rheumatic disease versus nonrheumatic cases. In patients with AF with mitral disease and no rheumatic disease, the percentage of fibrosis and the fibrosis stages correlated with both left atrial volume index and AF duration. The fibrotic areas mainly consisted of type I collagen with only a minor cellular component (especially fibroblasts/myofibroblasts; average value range 69-150 cells/mm 2 , depending on the areas in AF biopsies). A few fibrocytes-circulating and bone marrow-derived mesenchymal cells-were also detectable. The fibrosis-entrapped cardiomyocytes showed sarcolemmal damage and connexin 43 redistribution/internalization., Conclusions: Atrial fibrosis is an evolving and inhomogeneous histological/architectural change that progresses through different stages ranging from isolated foci to confluent sclerotic zones which-seemingly-constrain impulse conduction across restricted regions of electrotonically coupled cardiomyocytes. The fibrotic areas mainly consist of type I collagen extracellular matrix and, only to a lesser extent, mesenchymal cells.

Published
2020
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17. A nicotinamide phosphoribosyltransferase-GAPDH interaction sustains the stress-induced NMN/NAD + salvage pathway in the nucleus.

Author

Grolla AA, Miggiano R, Di Marino D, Bianchi M, Gori A, Orsomando G, Gaudino F, Galli U, Del Grosso E, Mazzola F, Angeletti C, Guarneri M, Torretta S, Calabrò M, Boumya S, Fan X, Colombo G, Travelli C, Rocchio F, Aronica E, Wohlschlegel JA, Deaglio S, Rizzi M, Genazzani AA, and Garavaglia S

Subjects
Animals, Cell Line, Tumor, HeLa Cells, Humans, Kinetics, Melanoma, Experimental enzymology, Melanoma, Experimental pathology, Mice, NIH 3T3 Cells, Nicotinamide Mononucleotide chemistry, Nicotinamide Phosphoribosyltransferase chemistry, Protein Binding, Protein Multimerization, Protein Transport, Cell Nucleus enzymology, Glyceraldehyde-3-Phosphate Dehydrogenase (Phosphorylating) metabolism, NAD metabolism, Nicotinamide Mononucleotide metabolism, Nicotinamide Phosphoribosyltransferase metabolism, Stress, Physiological
Abstract

All cells require sustained intracellular energy flux, which is driven by redox chemistry at the subcellular level. NAD + , its phosphorylated variant NAD(P) + , and its reduced forms NAD(P)/NAD(P)H are all redox cofactors with key roles in energy metabolism and are substrates for several NAD-consuming enzymes ( e.g. poly(ADP-ribose) polymerases, sirtuins, and others). The nicotinamide salvage pathway, constituted by nicotinamide mononucleotide adenylyltransferase (NMNAT) and nicotinamide phosphoribosyltransferase (NAMPT), mainly replenishes NAD + in eukaryotes. However, unlike NMNAT1, NAMPT is not known to be a nuclear protein, prompting the question of how the nuclear NAD + pool is maintained and how it is replenished upon NAD + consumption. In the present work, using human and murine cells; immunoprecipitation, pulldown, and surface plasmon resonance assays; and immunofluorescence, small-angle X-ray scattering, and MS-based analyses, we report that GAPDH and NAMPT form a stable complex that is essential for nuclear translocation of NAMPT. This translocation furnishes NMN to replenish NAD + to compensate for the activation of NAD-consuming enzymes by stressful stimuli induced by exposure to H 2 O 2 or S -nitrosoglutathione and DNA damage inducers. These results indicate that by forming a complex with GAPDH, NAMPT can translocate to the nucleus and thereby sustain the stress-induced NMN/NAD + salvage pathway., (© 2020 Grolla et al.)

Published
2020
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18. Gene expression, proteome and calcium signaling alterations in immortalized hippocampal astrocytes from an Alzheimer's disease mouse model.

Author

Rocchio F, Tapella L, Manfredi M, Chisari M, Ronco F, Ruffinatti FA, Conte E, Canonico PL, Sortino MA, Grilli M, Marengo E, Genazzani AA, and Lim D

Subjects
Animals, Cells, Cultured, Disease Models, Animal, Excitatory Amino Acid Transporter 2 metabolism, Glutamic Acid metabolism, Mice, Mice, Inbred C57BL, Mice, Transgenic, Protein Interaction Maps, Synaptic Transmission, Transfection, Alzheimer Disease genetics, Alzheimer Disease metabolism, Astrocytes metabolism, Calcium Signaling, Gene Expression, Hippocampus pathology, Proteome
Abstract

Evidence is rapidly growing regarding a role of astroglial cells in the pathogenesis of Alzheimer's disease (AD), and the hippocampus is one of the important brain regions affected in AD. While primary astroglial cultures, both from wild-type mice and from rodent models of AD, have been useful for studying astrocyte-specific alterations, the limited cell number and short primary culture lifetime have limited the use of primary hippocampal astrocytes. To overcome these limitations, we have now established immortalized astroglial cell lines from the hippocampus of 3xTg-AD and wild-type control mice (3Tg-iAstro and WT-iAstro, respectively). Both 3Tg-iAstro and WT-iAstro maintain an astroglial phenotype and markers (glutamine synthetase, aldehyde dehydrogenase 1 family member L1 and aquaporin-4) but display proliferative potential until at least passage 25. Furthermore, these cell lines maintain the potassium inward rectifying (Kir) current and present transcriptional and proteomic profiles compatible with primary astrocytes. Importantly, differences between the 3Tg-iAstro and WT-iAstro cell lines in terms of calcium signaling and in terms of transcriptional changes can be re-conducted to the changes previously reported in primary astroglial cells. To illustrate the versatility of this model we performed shotgun mass spectrometry proteomic analysis and found that proteins related to RNA binding and ribosome are differentially expressed in 3Tg-iAstro vs WT-iAstro. In summary, we present here immortalized hippocampal astrocytes from WT and 3xTg-AD mice that might be a useful model to speed up research on the role of astrocytes in AD.

Published
2019
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19. Human papillomavirus type 16 E6 and E7 oncoproteins interact with the nuclear p53-binding protein 1 in an in vitro reconstructed 3D epithelium: new insights for the virus-induced DNA damage response.

Author

Squarzanti DF, Sorrentino R, Landini MM, Chiesa A, Pinato S, Rocchio F, Mattii M, Penengo L, and Azzimonti B

Subjects
Cell Culture Techniques, Female, Humans, Models, Biological, Oncogene Proteins, Viral genetics, Papillomavirus E7 Proteins genetics, Papillomavirus Infections, Protein Binding, Repressor Proteins genetics, DNA Breaks, Double-Stranded, Epithelial Cells virology, Human papillomavirus 16 pathogenicity, Oncogene Proteins, Viral metabolism, Papillomavirus E7 Proteins metabolism, Repressor Proteins metabolism, Tumor Suppressor p53-Binding Protein 1 metabolism
Abstract

Background: Despite vaccination and screening measures, anogenital cancer, mainly promoted by HPV16 oncoproteins, still represents the fourth tumor and the second cause of death among women. Cell replication fidelity is the result of the host DNA damage response (DDR). Unlike many DNA viruses that promote their life cycle through the DDR inactivation, HR-HPVs encourage cells proliferation despite the DDR turned on. Why and how it occurs has been only partially elucidated. During HPV16 infection, E6 links and degrades p53 via the binding to the E6AP LXXLL sequence; unfortunately, E6 direct role in the DDR response has not clearly identified yet. Similarly, E7 increases DDR by competing with E2F1-pRb interaction, thus leading to the inactivation of pRb, and promotion, E2F1 mediated, of DDR genes translation, by binding to the pRb-like proteins CBP/p300 and p107, that also harbour LXXLL sequence, and via the interaction and activation of several DDR proteins., Methods: To gain information regarding E6 and E7 contribution in DDR activation, we produced an in vitro 3D HPV16-E6E7 infected epithelium, already consolidated study model for HPVs, and validated it by assessing H&E staining and BrdU, HPV16 DNA, E6E7 proteins and γH2A.X/53BP1 double-strand break (DSBs) sensors expression; then we made an immuno-colocalization of E6 and E7 with cyclin E2 and B1. Since 53BP1, like E6 and E7, also binds p53 and pRb, we supposed their possible direct binding. To explore this hypothesis, we performed a double immunofluorescence of E6 and E7 with 53BP1, a sequence analysis of 53BP1 within its BRCT2 domain and then an in situ PLA within CaSki, E6E7HPV16 NHEKs and the 3D model., Results: The in vitro epithelium resembled the histology and the events typical of in vivo infected tissues. E6E7HPV16 were both expressed in basal and differentiated strata and induced H2A.X phosphorylation and 53BP1 increment into nuclear foci. After highlighting E6 and E7 co-expression with 53BP1 and a LKVLL sequence within the 53BP1 BRCT2 domain, we demonstrated the bindings via the PLA technique., Conclusions: Our results reinforce E6 and E7 role in cellular function control providing potentially new insights into the activity of this tumor virus.

Published
2018
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20. Prostaglandin E2 Stimulates the Expansion of Regulatory Hematopoietic Stem and Progenitor Cells in Type 1 Diabetes.

Author

Ben Nasr M, D'Addio F, Malvandi AM, Faravelli S, Castillo-Leon E, Usuelli V, Rocchio F, Letizia T, El Essawy AB, Assi E, Mameli C, Giani E, Macedoni M, Maestroni A, Dassano A, Loretelli C, Paroni M, Cannalire G, Biasucci G, Sala M, Biffi A, Zuccotti GV, and Fiorina P

Abstract

Hematopoietic stem and progenitor cells (HSPCs) are multipotent stem cells that have been harnessed as a curative therapy for patients with hematological malignancies. Notably, the discovery that HSPCs are endowed with immunoregulatory properties suggests that HSPC-based therapeutic approaches may be used to treat autoimmune diseases. Indeed, infusion with HSPCs has shown promising results in the treatment of type 1 diabetes (T1D) and remains the only "experimental therapy" that has achieved a satisfactory rate of remission (nearly 60%) in T1D. Patients with newly diagnosed T1D have been successfully reverted to normoglycemia by administration of autologous HSPCs in association with a non-myeloablative immunosuppressive regimen. However, this approach is hampered by a high incidence of adverse effects linked to immunosuppression. Herein, we report that while the use of autologous HSPCs is capable of improving C-peptide production in patients with T1D, ex vivo modulation of HSPCs with prostaglandins (PGs) increases their immunoregulatory properties by upregulating expression of the immune checkpoint-signaling molecule PD-L1. Surprisingly, CXCR4 was upregulated as well, which could enhance HSPC trafficking toward the inflamed pancreatic zone. When tested in murine and human in vitro autoimmune assays, PG-modulated HSPCs were shown to abrogate the autoreactive T cell response. The use of PG-modulated HSPCs may thus provide an attractive and novel treatment of autoimmune diabetes.

Published
2018
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21. TGF-β2 and TGF-β3 from cultured β-amyloid-treated or 3xTg-AD-derived astrocytes may mediate astrocyte-neuron communication.

Author

Tapella L, Cerruti M, Biocotino I, Stevano A, Rocchio F, Canonico PL, Grilli M, Genazzani AA, and Lim D

Subjects
Alzheimer Disease metabolism, Animals, Cells, Cultured, Culture Media, Conditioned metabolism, Mice, Protein Isoforms metabolism, RNA, Messenger metabolism, Astrocytes metabolism, Neurons metabolism, Transforming Growth Factor beta2 metabolism, Transforming Growth Factor beta3 metabolism
Abstract

Astrocytes participate in the development and resolution of neuroinflammation in numerous ways, including the release of cytokines and growth factors. Among many, astrocytes release transforming growth factors beta (TGF-β) TGF-β1, TGF-β2 and TGF-β3. TGF-β1 is the most studied isoform, while production and release of TGF-β2 and TGF-β3 by astrocytes have been poorly characterized. Here, we report that purified cultures of hippocampal astrocytes produce mainly TGF-β3 followed by TGF-β2 and TGF-β1. Furthermore, astrocytes release principally the active form of TGF-β3 over the other two. Changes in release of TGF-β were sensitive to the calcineurin (CaN) inhibitor FK506. Starvation had no effect on TGF-β1 and TGF-β3 while TGF-β2 mRNA was significantly up-regulated in a CaN-dependent manner. We further investigated production and release of astroglial TGF-β in Alzheimer's disease-related conditions. Oligomeric β-amyloid (Aβ) down-regulated TGF-β1, while up-regulating TGF-β2 and TGF-β3, in a CaN-dependent manner. In cultured hippocampal astrocytes from 3xTg-AD mice, TGF-β2 and TGF-β3, but not TGF-β1, were up-regulated, and this was CaN-independent. In hippocampal tissues from symptomatic 3xTg-AD mice, TGF-β2 was up-regulated with respect to control mice. Finally, treatment with recombinant TGF-βs showed that TGF-β2 and TGF-β3 significantly reduced PSD95 protein in cultured hippocampal neurons, and this effect was paralleled by conditioned media from Aβ-treated astrocytes or from astrocytes from 3xTg-AD mice. Taken together, our data suggest that TGF-β2 and TGF-β3 are produced by astrocytes in a CaN-dependent manner and should be investigated further in the context of astrocyte-mediated neurodegeneration., (© 2017 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published
2018
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22. RNF168 promotes noncanonical K27 ubiquitination to signal DNA damage.

Author

Gatti M, Pinato S, Maiolica A, Rocchio F, Prato MG, Aebersold R, and Penengo L

Subjects
Amino Acid Sequence, BRCA1 Protein metabolism, Cell Line, Tumor, Chromatin metabolism, DNA Repair, HEK293 Cells, Histones chemistry, Histones metabolism, Humans, Intracellular Signaling Peptides and Proteins metabolism, Molecular Sequence Data, RNA Interference, RNA, Small Interfering metabolism, Tumor Suppressor p53-Binding Protein 1, Ubiquitin antagonists & inhibitors, Ubiquitin genetics, Ubiquitin metabolism, Ubiquitin-Conjugating Enzymes metabolism, Ubiquitin-Protein Ligases antagonists & inhibitors, Ubiquitin-Protein Ligases genetics, Ubiquitination, DNA Damage, Ubiquitin-Protein Ligases metabolism
Abstract

Ubiquitination regulates numerous cellular processes by generating a versatile communication system based on eight structurally and functionally different chains linked through distinct residues. Except for K48 and K63, the biological relevance of different linkages is largely unclear. Here, we show that RNF168 ubiquitin ligase promotes noncanonical K27-linked ubiquitination both in vivo and in vitro. We demonstrate that residue K27 of ubiquitin (UbK27) is required for RNF168-dependent chromatin ubiquitination, by targeting histones H2A/H2A.X, and that it is the major ubiquitin-based modification marking chromatin upon DNA damage. Indeed, UbK27 is strictly required for the proper activation of the DNA damage response (DDR) and is directly recognized by crucial DDR mediators, namely 53BP1, Rap80, RNF168, and RNF169. Mutation of UbK27 has dramatic consequences on DDR activation, preventing the recruitment of 53BP1 and BRCA1 to DDR foci. Similarly to the DDR, atypical ubiquitin chains could play unanticipated roles in other crucial ubiquitin-mediated biological processes., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2015
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