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7. T-regulatory cells require Sin3a for stable expression of Foxp3.

Author

Christensen, Lanette M., Akimova, Tatiana, Liqing Wang, Rongxiang Han, Samanta, Arabinda, Di Giorgio, Eros, and Hancock, Wayne W.

Subjects
REGULATORY T cells, SCURFIN (Protein), GENETIC transcription regulation, PROTEIN stability, T cells
Abstract

Histone deacetylases 1 and 2 play a major role in the transcriptional regulation of T-regulatory (Treg) cells via interactions with a myriad of coregulatory factors. Sin3a has been well established as a Hdac1/2 cofactor, while its role within Tregs has not been established. In this study, the effects of conditional deletion of Sin3a within Foxp3+ Tregs were evaluated. Developmental deletion of Sin3a from Foxp3+ Tregs resulted in the rapid onset of fatal autoimmunity. Treg numbers were greatly reduced, while residual Tregs had impaired suppressive function. Mice also showed effector T-cell activation, autoantibody production, and widespread tissue injury. Mechanistically, Sin3a deletion resulted in decreased transcription of Foxp3 with a complete lack of CNS2 CpG demethylation. In addition, Foxp3 protein stability was impaired with an increased ex-Treg population. Thus, Sin3a plays a critical role in the maintenance of Treg identity and function and is essential for the expression and stability of Foxp3. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Inhibiting the coregulator CoREST impairs [Foxp3.sup.+] Treg function and promotes antitumor immunity

Author

Xiong, Yan, Wang, Liqing, Di Giorgio, Eros, Akimova, Tatiana, Beier, Ulf H., Han, Rongxiang, Trevisanut, Matteo, Kalin, Jay H., Cole, Philip A., and Hancock, Wayne W.

Subjects
Enzymes -- Comparative analysis, Gene expression -- Comparative analysis, Biochemistry, Genes, Transplantation, Homeostasis, Tumors, Health care industry
Abstract

[Foxp3.sup.+] Tregs are key to immune homeostasis, but the contributions of various large, multiprotein complexes that regulate gene expression remain unexplored. We analyzed the role in Tregs of the evolutionarily conserved CoREST complex, consisting of a scaffolding protein, Rcor1 or Rcor2, plus Hdac1 or Hdac2 and Lsd1 enzymes. Rcor1, Rcor2, and Lsd1 were physically associated with Foxp3, and mice with conditional deletion of Rcor1 in [Foxp3.sup.+] Tregs had decreased proportions of Tregs in peripheral lymphoid tissues and increased Treg expression of IL-2 and IFN-[gamma] compared with what was found in WT cells. Mice with conditional deletion of the gene encoding Rcor1 in their Tregs had reduced suppression of homeostatic proliferation, inability to maintain long-term allograft survival despite costimulation blockade, and enhanced antitumor immunity in syngeneic models. Comparable findings were seen in WT mice treated with CoREST complex bivalent inhibitors, which also altered the phenotype of human Tregs and impaired their suppressive function. Our data point to the potential for therapeutic modulation of Treg functions by pharmacologic targeting of enzymatic components of the CoREST complex and contribute to an understanding of the biochemical and molecular mechanisms by which Foxp3 represses large gene sets and maintains the unique properties of this key immune cell., Introduction Tregs are essential for maintenance of immune homeostasis and self-tolerance (1, 2). These cells also dampen host antitumor immunity, decreasing the efficacy of tumor immune surveillance (3). The key [...]

Published
2020
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13. Dual-targeting peptides@PMO, a mimetic to the pro-apoptotic protein Smac/DIABLO for selective activation of apoptosis in cancer cells.

Author

Di Giorgio, Eros, Ferino, Annalisa, Weizhe Huang, Simonetti, Sigrid, Luigi Xodo, and De Marco, Rossella

Subjects
APOPTOSIS, PEPTIDES, HELA cells, CANCER cells, INTEGRINS, PROTEINS, NANOPARTICLES
Abstract

The refractoriness of tumor cells to apoptosis represents the main mechanism of resistance to chemotherapy. Smac/DIABLO mimetics proved to be effective in overcoming cancer-acquired resistance to apoptosis as a consequence of overexpression of the anti-apoptotic proteins XIAP, cIAP1, and cIAP2. In this work, we describe a dual-targeting peptide capable of selectively activating apoptosis in cancer cells. The complex consists of a fluorescent periodic mesoporous organosilica nanoparticle that carries the short sequences of Smac/DIABLO bound to the αvβ3--integrin ligand. The dual-targeting peptide @PMO shows significantly higher toxicity in αvβ3-positive HeLa cells with respect to αvβ3-negative Ht29 cells. @PMO exhibited synergistic effects in combination with oxaliplatin in a panel of αvβ3-positive cancer cells, while its toxicity is overcome by XIAP overexpression or integrin β3 silencing. The successful uptake of the molecule by αvβ3-positive cells makes @PMO promising for the re-sensitization to apoptosis of many cancer types. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Endogenous Retroviruses (ERVs): Does RLR (RIG-I-Like Receptors)-MAVS Pathway Directly Control Senescence and Aging as a Consequence of ERV De-Repression?

Author

Di Giorgio, Eros and Xodo, Luigi E.

Subjects
ENDOGENOUS retroviruses, HUMAN endogenous retroviruses, IMMUNOSENESCENCE, OLDER people, AGING, CELLULAR aging
Abstract

Bi-directional transcription of Human Endogenous Retroviruses (hERVs) is a common feature of autoimmunity, neurodegeneration and cancer. Higher rates of cancer incidence, neurodegeneration and autoimmunity but a lower prevalence of autoimmune diseases characterize elderly people. Although the re-expression of hERVs is commonly observed in different cellular models of senescence as a result of the loss of their epigenetic transcriptional silencing, the hERVs modulation during aging is more complex, with a peak of activation in the sixties and a decline in the nineties. What is clearly accepted, instead, is the impact of the re-activation of dormant hERV on the maintenance of stemness and tissue self-renewing properties. An innate cellular immunity system, based on the RLR-MAVS circuit, controls the degradation of dsRNAs arising from the transcription of hERV elements, similarly to what happens for the accumulation of cytoplasmic DNA leading to the activation of cGAS/STING pathway. While agonists and inhibitors of the cGAS–STING pathway are considered promising immunomodulatory molecules, the effect of the RLR-MAVS pathway on innate immunity is still largely based on correlations and not on causality. Here we review the most recent evidence regarding the activation of MDA5-RIG1-MAVS pathway as a result of hERV de-repression during aging, immunosenescence, cancer and autoimmunity. We will also deal with the epigenetic mechanisms controlling hERV repression and with the strategies that can be adopted to modulate hERV expression in a therapeutic perspective. Finally, we will discuss if the RLR-MAVS signalling pathway actively modulates physiological and pathological conditions or if it is passively activated by them. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Transcriptomic and genomic studies classify NKL54 as a histone deacetylase inhibitor with indirect influence on MEF2-dependent transcription.

Author

Minisini, Martina, Di Giorgio, Eros, Kerschbamer, Emanuela, Dalla, Emiliano, Faggiani, Massimo, Franforte, Elisa, Meyer-Almes, Franz-Josef, Ragno, Rino, Antonini, Lorenzo, Mai, Antonello, Fiorentino, Francesco, Rotili, Dante, Chinellato, Monica, Perin, Stefano, Cendron, Laura, Weichenberger, Christian X, Angelini, Alessandro, and Brancolini, Claudio

Published
2022
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17. A Biological Circuit Involving Mef2c, Mef2d, and Hdac9 Controls the Immunosuppressive Functions of CD4+Foxp3+ T-Regulatory Cells.

Author

Di Giorgio, Eros, Wang, Liqing, Xiong, Yan, Christensen, Lanette M., Akimova, Tatiana, Han, Rongxiang, Samanta, Arabinda, Trevisanut, Matteo, Brancolini, Claudio, Beier, Ulf H., and Hancock, Wayne W.

Subjects
REGULATORY T cells, B cells, MUSCLE cells, T cells, CELL differentiation
Abstract

The Mads/Mef2 (Mef2a/b/c/d) family of transcription factors (TFs) regulates differentiation of muscle cells, neurons and hematopoietic cells. By functioning in physiological feedback loops, Mef2 TFs promote the transcription of their repressor, Hdac9, thereby providing temporal control of Mef2-driven differentiation. Disruption of this feedback is associated with the development of various pathologic states, including cancer. Beside their direct involvement in oncogenesis, Mef2 TFs indirectly control tumor progression by regulating antitumor immunity. We recently reported that in CD4+CD25+Foxp3+ T-regulatory (Treg) cells, Mef2d is required for the acquisition of an effector Treg (eTreg) phenotype and for the activation of an epigenetic program that suppresses the anti-tumor immune responses of conventional T and B cells. We now report that as with Mef2d, the deletion of Mef2c in Tregs switches off the expression of Il10 and Icos and leads to enhanced antitumor immunity in syngeneic models of lung cancer. Mechanistically, Mef2c does not directly bind the regulatory elements of Icos and Il10 , but its loss-of-function in Tregs induces the expression of the transcriptional repressor, Hdac9. As a consequence, Mef2d, the more abundant member of the Mef2 family, is converted by Hdac9 into a transcriptional repressor on these loci. This leads to the impairment of Treg suppressive properties in vivo and to enhanced anti-cancer immunity. These data further highlight the central role played by the Mef2/Hdac9 axis in the regulation of CD4+Foxp3+ Treg function and adds a new level of complexity to the analysis and study of Treg biology. [ABSTRACT FROM AUTHOR]

Published
2021
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19. HDAC7‐mediated control of tumour microenvironment maintains proliferative and stemness competence of human mammary epithelial cells.

Author

Cutano, Valentina, Di Giorgio, Eros, Minisini, Martina, Picco, Raffaella, Dalla, Emiliano, and Brancolini, Claudio

Abstract

HDAC7 is a pleiotropic transcriptional coregulator that controls different cellular fates. Here, we demonstrate that in human mammary epithelial cells, HDAC7 sustains cell proliferation and favours a population of stem‐like cells, by maintaining a proficient microenvironment. In particular, HDAC7 represses a repertoire of cytokines and other environmental factors, including elements of the insulin‐like growth factor signalling pathway, IGFBP6 and IGFBP7. This HDAC7‐regulated secretome signature predicts negative prognosis for luminal A breast cancers. ChIP‐seq experiments revealed that HDAC7 binds locally to the genome, more frequently distal from the transcription start site. HDAC7 can colocalize with H3K27‐acetylated domains and its deletion further increases H3K27ac at transcriptionally active regions. HDAC7 levels are increased in RAS‐transformed cells, in which this protein was required not only for proliferation and cancer stem‐like cell growth, but also for invasive features. We show that an important direct target of HDAC7 is IL24, which is sufficient to suppress the growth of cancer stem‐like cells. [ABSTRACT FROM AUTHOR]

Published
2019
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20. Unscheduled HDAC4 repressive activity in human fibroblasts triggers TP53‐dependent senescence and favors cell transformation.

Author

Paluvai, Harikrishnareddy, Di Giorgio, Eros, and Brancolini, Claudio

Abstract

Expression of the class IIa HDACs is frequently altered in different human cancers. In mouse models these transcriptional repressors can trigger transformation, acting as bona fide oncogenes. Whether class IIa HDACs also exhibit transforming activities in human cells is currently unknown. We infected primary human fibroblasts with retroviruses to investigate the transforming activity of HDAC4 in cooperation with well‐known oncogenes. We have discovered that HDAC4 triple mutant (S246A, S467A, S632A) (HDAC4‐TM), a nuclear resident version of the deacetylase, triggers TP53 stabilization and OIS (oncogene‐induced senescence). Unlike RAS, HDAC4‐induced OIS was TP53‐dependent and characterized by rapid cell cycle arrest and accumulation of an unusual pattern of γH2AX‐positive foci. The inactivation of both TP53 and of the retinoblastoma (pRb) tumor suppressors, as induced by the viral oncogenes large and small T of SV40, triggers anchorage‐independent growth in RAS, HDAC4‐TM and, to a lesser extent, in HDAC4‐wild type (WT)‐expressing cells. Our results suggest an oncogenic function of class IIa HDACs in human cells, and justify further efforts to discover and evaluate isoform‐specific inhibitors of these epigenetic regulators from a therapeutic perspective. The identification of genes that can transform normal cells into cancer cells is a key aspect of validating new therapeutic targets. We have proved that the epigenetic regulator HDAC4 can cooperate with viral oncogenes to transform human cells. Our results argue for further investigations aimed at discovering and evaluating inhibitors of these epigenetic regulators as anticancer drugs. [ABSTRACT FROM AUTHOR]

Published
2018
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21. The co-existence of transcriptional activator and transcriptional repressor MEF2 complexes influences tumor aggressiveness.

Author

Di Giorgio, Eros, Franforte, Elisa, Cefalù, Sebastiano, Rossi, Sabrina, Dei Tos, Angelo Paolo, Brenca, Monica, Polano, Maurizio, Maestro, Roberta, Paluvai, Harikrishnareddy, Picco, Raffaella, and Brancolini, Claudio

Subjects
*TUMOR growth, *TUMOR suppressor genes, *LEIOMYOSARCOMA, *GENETIC regulation, *TRANSCRIPTION factors
Abstract

The contribution of MEF2 TFs to the tumorigenic process is still mysterious. Here we clarify that MEF2 can support both pro-oncogenic or tumor suppressive activities depending on the interaction with co-activators or co-repressors partners. Through these interactions MEF2 supervise histone modifications associated with gene activation/repression, such as H3K4 methylation and H3K27 acetylation. Critical switches for the generation of a MEF2 repressive environment are class IIa HDACs. In leiomyosarcomas (LMS), this two-faced trait of MEF2 is relevant for tumor aggressiveness. Class IIa HDACs are overexpressed in 22% of LMS, where high levels of MEF2, HDAC4 and HDAC9 inversely correlate with overall survival. The knock out of HDAC9 suppresses the transformed phenotype of LMS cells, by restoring the transcriptional proficiency of some MEF2-target loci. HDAC9 coordinates also the demethylation of H3K4me3 at the promoters of MEF2-target genes. Moreover, we show that class IIa HDACs do not bind all the regulative elements bound by MEF2. Hence, in a cell MEF2-target genes actively transcribed and strongly repressed can coexist. However, these repressed MEF2-targets are poised in terms of chromatin signature. Overall our results candidate class IIa HDACs and HDAC9 in particular, as druggable targets for a therapeutic intervention in LMS. [ABSTRACT FROM AUTHOR]

Published
2017
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24. The MEF2-HDAC axis controls proliferation of mammary epithelial cells and acini formation in vitro.

Author

Clocchiatti, Andrea, Di Giorgio, Eros, Viviani, Giulia, Streuli, Charles, Sgorbissa, Andrea, Picco, Raffaella, Cutano, Valentina, and Brancolini, Claudio

Subjects
*MUSCLE cells, *HISTONE deacetylase, *EPITHELIAL cells, *CELL cycle regulation, *CYCLIN-dependent kinases regulation
Abstract

The myocyte enhancer factor 2 and histone deacetylase (MEF2-HDAC) axis is a master regulator of different developmental programs and adaptive responses in adults. In this paper, we have investigated the contribution of the axis to the regulation of epithelial morphogenesis, using 3D organotypic cultures of MCF10A cells as a model. We have demonstrated that MEF2 transcriptional activity is upregulated during acini formation, which coincides with exit from the proliferative phase. Upregulation of the transcription of MEF2 proteins is coupled to downregulation of HDAC7, which occurs independently from changes in mRNA levels, and proteasome- or autophagy-mediated degradation. During acini formation, the MEF2-HDAC axis contributes to the promotion of cell cycle exit, through the engagement of the CDK inhibitor CDKN1A. Only in proliferating cells can HDAC7 bind to the first intron of the CDKN1A gene, a region characterized by epigenetic markers of active promoters and enhancers. In cells transformed by the oncogene HER2 (ERBB2), acini morphogenesis is altered, MEF2 transcription is repressed and HDAC7 is continuously expressed. Importantly, reactivation of MEF2 transcriptional activity in these cells, through the use of a HER2 inhibitor or by enhancing MEF2 function, corrected the proliferative defect and re-established normal acini morphogenesis. [ABSTRACT FROM AUTHOR]

Published
2015
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25. The Control Operated by the Cell Cycle Machinery on MEF2 Stability Contributes to the Downregulation of CDKN1A and Entry into S Phase.

Author

Di Giorgio, Eros, Gagliostro, Enrico, Clocchiatti, Andrea, and Brancolini, Claudio

Subjects
*CELL cycle, *BIOLOGICAL rhythms, *CYCLIN-dependent kinase inhibitor-2A, *CYCLIN-dependent kinase inhibitors, *TRANSCRIPTION factors
Abstract

MEF2s are pleiotropic transcription factors (TFs) which supervise multiple cellular activities. During the cell cycle, MEF2s are activated at the G0/G1 transition to orchestrate the expression of the immediate early genes in response to growth factor stimulation. Here we show that, in human and murine fibroblasts, MEF2 activities are downregulated during late G1. MEF2C and MEF2D interact with the E3 ligase F-box protein SKP2, which mediates their subsequent degradation through the ubiquitinproteasome system. The cyclin-dependent kinase 4 (CDK4)/cyclin D1 complex phosphorylates MEF2D on serine residues 98 and 110, and phosphorylation of these residues is an important determinant for SKP2 binding. Unscheduled MEF2 transcription during the cell cycle reduces cell proliferation, whereas its containment sustains DNA replication. The CDK inhibitor p21/ CDKN1A gene is a MEF2 target gene required to exert this antiproliferative influence. MEF2C and MEF2D bind a region within the first intron of CDKN1A, presenting epigenetic markers of open chromatin. Importantly, H3K27 acetylation within this regulative region depends on the presence of MEF2D. We propose that following the initial engagement in the G0/G1 transition, MEF2C and MEF2D must be polyubiquitylated and degraded during G1 progression to diminish the transcription of the CDKN1A gene, thus favoring entry into S phase. [ABSTRACT FROM AUTHOR]

Published
2015
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26. MEF2 Is a Converging Hub for Histone Deacetylase 4 and Phosphatidylinositol 3-Kinase/Akt-Induced Transformation.

Author

Di Giorgio, Eros, Clocchiatti, Andrea, Piccinin, Sara, Sgorbissa, Andrea, Viviani, Giulia, Peruzzo, Paolo, Romeo, Salvatore, Rossi, Sabrina, Dei Tos, Angelo Paolo, Maestro, Roberta, and Brancolini, Claudio

Subjects
*HISTONE deacetylase, *ONCOGENES, *SOFT tissue tumors, *SARCOMA, *GENE targeting
Abstract

The MEF2-class IIa histone deacetylase (HDAC) axis operates in several differentiation pathways and in numerous adaptive responses. We show here that nuclear active HDAC4 and HDAC7 display transforming capability. HDAC4 oncogenic potential depends on the repression of a limited set of genes, most of which are MEF2 targets. Genes verified as targets of the MEF2-HDAC axis are also under the influence of the phosphatidylinositol 3-kinase (PI3K)/Akt pathway that affects MEF2 protein stability. A signature of MEF2 target genes identified by this study is recurrently repressed in soft tissue sarcomas. Correlation studies depicted two distinct groups of soft tissue sarcomas: one in which MEF2 repression correlates with PTEN downregulation and a second group in which MEF2 repression correlates with HDAC4 levels. Finally, simultaneous pharmacological inhibition of the PI3K/Akt pathway and of MEF2-HDAC interaction shows additive effects on the transcription of MEF2 target genes and on sarcoma cells proliferation. Overall, our work pinpoints an important role of the MEF2-HDAC class IIa axis in tumorigenesis. [ABSTRACT FROM AUTHOR]

Published
2013
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27. Class IIa HDACs repressive activities on MEF2-depedent transcription are associated with poor prognosis of ER+ breast tumors.

Author

Clocchiatti, Andrea, Di Giorgio, Eros, Ingrao, Sabrina, Meyer-Almes, Franz-Josef, Tripodo, Claudio, and Brancolini, Claudio

Subjects
*BREAST tumors, *PROGNOSIS, *TUMORS, *PATHOLOGY, *FORECASTING
Abstract

MEF2s transcription factors and class IIa HDACs compose a fundamental axis for several differentiation pathways. Functional relationships between this axis and cancer are largely unexplored. We have found that class IIa HDACs are heterogeneously expressed and display redundant activities in breast cancer cells. Applying gene set enrichment analysis to compare the expression profile of a list of putative MEF2 target genes, we have discovered a correlation between the down-regulation of the MEF2 signature and the aggressiveness of ER+ breast tumors. Kaplan-Meier analysis in ER+ breast tumors evidenced an association between increased class IIa HDACs expression and reduced survival. The important role of the MEF2-HDAC axis in ER+ breast cancer was confirmed in cultured cells. MCF7 ER+ cells were susceptible to silencing of class IIa HDACs in terms of both MEF2- dependent transcription and apoptosis. Conversely, in ER- MDA-MB-231 cells, the repressive influence of class IIa HDACs was dispensable. Similarly, a class IIa HDAC-specific inhibitor preferentially promoted the up-regulation of several MEF2 target genes and apoptosis in ER+ cell lines. The prosurvival function of class IIa HDACs could be explained by the repression of NR4A1/Nur77, a proapoptotic MEF2 target. In summary, our studies underscore a contribution of class IIa HDACs to aggressiveness of ER+ tumors. [ABSTRACT FROM AUTHOR]

Published
2013
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28. Beside the MEF2 axis: Unconventional functions of HDAC4

Author

Clocchiatti, Andrea, Di Giorgio, Eros, Demarchi, Francesca, and Brancolini, Claudio

Subjects
*HISTONE deacetylase, *MUSCLE cells, *GENETIC transcription, *CELLULAR signal transduction, *MOLECULAR biology, *CELL physiology
Abstract

Abstract: The class IIa deacetylase HDAC4 is unequivocally known as a negative regulator of MEF2-dependent transcription. In the past years several works have allowed us to understand how different signals, mirroring specific environmental circumstances keep in check the repressive action of HDAC4 against MEF2s. At the same time, pieces of evidence have gradually accumulated about HDAC4 activities emancipated from MEF2s. The aim of this review is to discuss about these “unconventional functions” of HDAC4. [Copyright &y& Elsevier]

Published
2013
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29. Quis Custodiet Ipsos Custodes (Who Controls the Controllers)? Two Decades of Studies on HDAC9.

Author

Brancolini, Claudio, Di Giorgio, Eros, Formisano, Luigi, and Gagliano, Teresa

Subjects
*HISTONE deacetylase, *GENES, *EPIGENETICS
Abstract

Understanding how an epigenetic regulator drives different cellular responses can be a tricky task. Very often, their activities are modulated by large multiprotein complexes, the composition of which is context- and time-dependent. As a consequence, experiments aimed to unveil the functions of an epigenetic regulator can provide different outcomes and conclusions, depending on the circumstances. HDAC9 (histone deacetylase), an epigenetic regulator that influences different differentiating and adaptive responses, makes no exception. Since its discovery, different phenotypes and/or dysfunctions have been observed after the artificial manipulation of its expression. The cells and the microenvironment use multiple strategies to control and monitor HDAC9 activities. To date, some of the genes under HDAC9 control have been identified. However, the exact mechanisms through which HDAC9 can achieve all the different tasks so far described, remain mysterious. Whether it can assemble into different multiprotein complexes and how the cells modulate these complexes is not clearly defined. In summary, despite several cellular responses are known to be affected by HDAC9, many aspects of its network of interactions still remain to be defined. [ABSTRACT FROM AUTHOR]

Published
2021
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30. The Histone Code of Senescence.

Author

Paluvai, Harikrishnareddy, Di Giorgio, Eros, and Brancolini, Claudio

Subjects
*AGING, *PREMATURE aging (Medicine), *DNA damage, *CELLULAR aging
Abstract

Senescence is the end point of a complex cellular response that proceeds through a set of highly regulated steps. Initially, the permanent cell-cycle arrest that characterizes senescence is a pro-survival response to irreparable DNA damage. The maintenance of this prolonged condition requires the adaptation of the cells to an unfavorable, demanding and stressful microenvironment. This adaptation is orchestrated through a deep epigenetic resetting. A first wave of epigenetic changes builds a dam on irreparable DNA damage and sustains the pro-survival response and the cell-cycle arrest. Later on, a second wave of epigenetic modifications allows the genomic reorganization to sustain the transcription of pro-inflammatory genes. The balanced epigenetic dynamism of senescent cells influences physiological processes, such as differentiation, embryogenesis and aging, while its alteration leads to cancer, neurodegeneration and premature aging. Here we provide an overview of the most relevant histone modifications, which characterize senescence, aging and the activation of a prolonged DNA damage response. [ABSTRACT FROM AUTHOR]

Published
2020
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31. Genetic Programs Driving Oncogenic Transformation: Lessons from In Vitro Models.

Author

Di Giorgio, Eros, Paluvai, Harikrishnareddy, Picco, Raffaella, and Brancolini, Claudio

Subjects
*CELL culture, *NETWORK hubs, *TUMORS, *CANCER, *GENES
Abstract

Cancer complexity relies on the intracellular pleiotropy of oncogenes/tumor suppressors and in the strong interplay between tumors and micro- and macro-environments. Here we followed a reductionist approach, by analyzing the transcriptional adaptations induced by three oncogenes (RAS, MYC, and HDAC4) in an isogenic transformation process. Common pathways, in place of common genes became dysregulated. From our analysis it emerges that, during the process of transformation, tumor cells cultured in vitro prime some signaling pathways suitable for coping with the blood supply restriction, metabolic adaptations, infiltration of immune cells, and for acquiring the morphological plasticity needed during the metastatic phase. Finally, we identified two signatures of genes commonly regulated by the three oncogenes that successfully predict the outcome of patients affected by different cancer types. These results emphasize that, in spite of the heterogeneous mutational burden among different cancers and even within the same tumor, some common hubs do exist. Their location, at the intersection of the various signaling pathways, makes a therapeutic approach exploitable. [ABSTRACT FROM AUTHOR]

Published
2019
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32. Inhibiting the coregulator CoREST impairs Foxp3+ Treg function and promotes antitumor immunity.

Author

Yan Xiong, Liqing Wang, Di Giorgio, Eros, Akimova, Tatiana, Beier, Ulf H., Rongxiang Han, Trevisanut, Matteo, Kalin, Jay H., Cole, Philip A., Hancock, Wayne W., Xiong, Yan, Wang, Liqing, and Han, Rongxiang

Subjects
*ANIMALS, *CELL lines, *CELLULAR immunity, *MICE, *NERVE tissue proteins, *PROTEINS, *T cells, *TUMORS
Abstract

Foxp3+ Tregs are key to immune homeostasis, but the contributions of various large, multiprotein complexes that regulate gene expression remain unexplored. We analyzed the role in Tregs of the evolutionarily conserved CoREST complex, consisting of a scaffolding protein, Rcor1 or Rcor2, plus Hdac1 or Hdac2 and Lsd1 enzymes. Rcor1, Rcor2, and Lsd1 were physically associated with Foxp3, and mice with conditional deletion of Rcor1 in Foxp3+ Tregs had decreased proportions of Tregs in peripheral lymphoid tissues and increased Treg expression of IL-2 and IFN-γ compared with what was found in WT cells. Mice with conditional deletion of the gene encoding Rcor1 in their Tregs had reduced suppression of homeostatic proliferation, inability to maintain long-term allograft survival despite costimulation blockade, and enhanced antitumor immunity in syngeneic models. Comparable findings were seen in WT mice treated with CoREST complex bivalent inhibitors, which also altered the phenotype of human Tregs and impaired their suppressive function. Our data point to the potential for therapeutic modulation of Treg functions by pharmacologic targeting of enzymatic components of the CoREST complex and contribute to an understanding of the biochemical and molecular mechanisms by which Foxp3 represses large gene sets and maintains the unique properties of this key immune cell. [ABSTRACT FROM AUTHOR]

Published
2020
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33. Folding of Class IIa HDAC Derived Peptides into α-helices Upon Binding to Myocyte Enhancer Factor-2 in Complex with DNA.

Author

Chinellato, Monica, Perin, Stefano, Carli, Alberto, Lastella, Luana, Biondi, Barbara, Borsato, Giuseppe, Di Giorgio, Eros, Brancolini, Claudio, Cendron, Laura, and Angelini, Alessandro

Subjects
*PEPTIDES, *GENE enhancers, *ADAPTOR proteins, *AMINO acids, *PROTEIN-protein interactions, *DNA, *MOLECULAR interactions
Abstract

[Display omitted] • MEF2 serves as a versatile adaptor mediating interactions with multiple class IIa HDAC peptide motifs. • Binding class IIa HDAC derived peptide with MEF2 occurs primarily through nonpolar interactions and intimate surface complementarities. • Folding of unstructured class IIa HDAC derived peptides into α-helices occurs only upon interaction with MEF2. Interaction of transcription factor myocyte enhancer factor-2 (MEF2) family members with class IIa histone deacetylases (HDACs) has been implicated in a wide variety of diseases. Though considerable knowledge on this topic has been accumulated over the years, a high resolution and detailed analysis of the binding mode of multiple class IIa HDAC derived peptides with MEF2D is still lacking. To fulfil this gap, we report here the crystal structure of MEF2D in complex with double strand DNA and four different class IIa HDAC derived peptides, namely HDAC4, HDAC5, HDAC7 and HDAC9. All class IIa HDAC derived peptides form extended amphipathic α-helix structures that fit snugly in the hydrophobic groove of MEF2D domain. Binding mode of class IIa HDAC derived peptides to MEF2D is very similar and occur primarily through nonpolar interactions mediated by highly conserved branched hydrophobic amino acids. Further studies revealed that class IIa HDAC derived peptides are unstructured in solution and appear to adopt a folded α-helix structure only upon binding to MEF2D. Comparison of our peptide-protein complexes with previously characterized structures of MEF2 bound to different co-activators and co-repressors, highlighted both differences and similarities, and revealed the adaptability of MEF2 in protein–protein interactions. The elucidation of the three-dimensional structure of MEF2D in complex with multiple class IIa HDAC derived peptides provide not only a better understanding of the molecular basis of their interactions but also have implications for the development of novel antagonist. [ABSTRACT FROM AUTHOR]

Published
2024
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34. MEF2D sustains activation of effector Foxp3+ Tregs during transplant survival and anticancer immunity.

Author

Giorgio, Eros Di, Liqing Wang, Yan Xiong, Akimova, Tatiana, Christensen, Lanette M., Rongxiang Han, Samanta, Arabinda, Trevisanut, Matteo, Bhatti, Tricia R., Beier, Ulf H., Hancock, Wayne W., Di Giorgio, Eros, Wang, Liqing, Xiong, Yan, and Han, Rongxiang

Subjects
*SUPPRESSOR cells, *IMMUNITY, *TRANSCRIPTION factors, *T cells, *DELETION mutation, *ANIMAL experimentation, *COMPARATIVE studies, *EPITHELIAL cells, *GRAFT versus host reaction, *HEART transplantation, *HOMOGRAFTS, *IMMUNOLOGY technique, *RESEARCH methodology, *MEDICAL cooperation, *MICE, *MUSCLE proteins, *RESEARCH, *TUMORS, *EVALUATION research
Abstract

The transcription factor MEF2D is important in the regulation of differentiation and adaptive responses in many cell types. We found that among T cells, MEF2D gained new functions in Foxp3+ T regulatory (Treg) cells due to its interactions with the transcription factor Foxp3 and its release from canonical partners, like histone/protein deacetylases. Though not necessary for the generation and maintenance of Tregs, MEF2D was required for the expression of IL-10, CTLA4, and Icos, and for the acquisition of an effector Treg phenotype. At these loci, MEF2D acted both synergistically and additively to Foxp3, and downstream of Blimp1. Mice with the conditional deletion in Tregs of the gene encoding MEF2D were unable to maintain long-term allograft survival despite costimulation blockade, had enhanced antitumor immunity in syngeneic models, but displayed only minor evidence of autoimmunity when maintained under normal conditions. The role played by MEF2D in sustaining effector Foxp3+ Treg functions without abrogating their basal actions suggests its suitability for drug discovery efforts in cancer therapy. [ABSTRACT FROM AUTHOR]

Published
2020
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