Your search keyword '"Calzari L"' showing total 72 results

1. Stochastic epigenetic mutations as possible explanation for phenotypical discordance among twins with congenital hypothyroidism

Author

Gentilini, D., Muzza, M., de Filippis, T., Vigone, M. C., Weber, G., Calzari, L., Cassio, A., Di Frenna, M., Bartolucci, M., Grassi, E. S., Carbone, E., Olivieri, A., and Persani, L.

Published

2023

2. Follicular Lymphoma Microenvironment Traits Associated with Event-Free Survival

Author

Tumedei, MM, Piccinini, F, Azzali, I, Pirini, F, Bravaccini, S, De Matteis, S, Agostinelli, C, Castellani, G, Zanoni, M, Cortesi, M, Vergani, B, Leone, BE, Righi, S, Gazzola, A, Casadei, B, Gentilini, D, Calzari, L, Limarzi, F, Sabattini, E, Pession, A, Tazzari, M, Bertuzzi, C, Tumedei, M, Piccinini, F, Azzali, I, Pirini, F, Bravaccini, S, De Matteis, S, Agostinelli, C, Castellani, G, Zanoni, M, Cortesi, M, Vergani, B, Leone, B, Righi, S, Gazzola, A, Casadei, B, Gentilini, D, Calzari, L, Limarzi, F, Sabattini, E, Pession, A, Tazzari, M, and Bertuzzi, C

Subjects

Follicular Lymphoma, immunohistochemistry, tumor microenvironment, progressive disease, tumor-associated macrophages, digital pathology

Abstract

The majority of patients with Follicular Lymphoma (FL) experience subsequent phases of remission and relapse, making the disease "virtually" incurable. To predict the outcome of FL patients at diagnosis, various clinical-based prognostic scores have been proposed; nonetheless, they continue to fail for a subset of patients. Gene expression profiling has highlighted the pivotal role of the tumor microenvironment (TME) in the FL prognosis; nevertheless, there is still a need to standardize the assessment of immune-infiltrating cells for the prognostic classification of patients with early or late progressing disease. We studied a retrospective cohort of 49 FL lymph node biopsies at the time of the initial diagnosis using pathologist-guided analysis on whole slide images, and we characterized the immune repertoire for both quantity and distribution (intrafollicular, IF and extrafollicular, EF) of cell subsets in relation to clinical outcome. We looked for the natural killer (CD56), T lymphocyte (CD8, CD4, PD1) and macrophage (CD68, CD163, MA4A4A)-associated markers. High CD163/CD8 EF ratios and high CD56/MS4A4A EF ratios, according to Kaplan-Meier estimates were linked with shorter EFS (event-free survival), with the former being the only one associated with POD24. In contrast to IF CD68+ cells, which represent a more homogeneous population, higher in non-progressing patients, EF CD68+ macrophages did not stratify according to survival. We also identify distinctive MS4A4A+CD163-macrophage populations with different prognostic weights. Enlarging the macrophage characterization and combining it with a lymphoid marker in the rituximab era, in our opinion, may enable prognostic stratification for low-/high-grade FL patients beyond POD24. These findings warrant validation across larger FL cohorts.

Published

2023

3. Follicular Lymphoma Microenvironment Traits Associated with Event-Free Survival

Author

Tumedei, M, Piccinini, F, Azzali, I, Pirini, F, Bravaccini, S, De Matteis, S, Agostinelli, C, Castellani, G, Zanoni, M, Cortesi, M, Vergani, B, Leone, B, Righi, S, Gazzola, A, Casadei, B, Gentilini, D, Calzari, L, Limarzi, F, Sabattini, E, Pession, A, Tazzari, M, Bertuzzi, C, Tumedei, MM, Leone, BE, Tumedei, M, Piccinini, F, Azzali, I, Pirini, F, Bravaccini, S, De Matteis, S, Agostinelli, C, Castellani, G, Zanoni, M, Cortesi, M, Vergani, B, Leone, B, Righi, S, Gazzola, A, Casadei, B, Gentilini, D, Calzari, L, Limarzi, F, Sabattini, E, Pession, A, Tazzari, M, Bertuzzi, C, Tumedei, MM, and Leone, BE

Abstract

The majority of patients with Follicular Lymphoma (FL) experience subsequent phases of remission and relapse, making the disease “virtually” incurable. To predict the outcome of FL patients at diagnosis, various clinical-based prognostic scores have been proposed; nonetheless, they continue to fail for a subset of patients. Gene expression profiling has highlighted the pivotal role of the tumor microenvironment (TME) in the FL prognosis; nevertheless, there is still a need to standardize the assessment of immune-infiltrating cells for the prognostic classification of patients with early or late progressing disease. We studied a retrospective cohort of 49 FL lymph node biopsies at the time of the initial diagnosis using pathologist-guided analysis on whole slide images, and we characterized the immune repertoire for both quantity and distribution (intrafollicular, IF and extrafollicular, EF) of cell subsets in relation to clinical outcome. We looked for the natural killer (CD56), T lymphocyte (CD8, CD4, PD1) and macrophage (CD68, CD163, MA4A4A)-associated markers. High CD163/CD8 EF ratios and high CD56/MS4A4A EF ratios, according to Kaplan–Meier estimates were linked with shorter EFS (event-free survival), with the former being the only one associated with POD24. In contrast to IF CD68+ cells, which represent a more homogeneous population, higher in non-progressing patients, EF CD68+ macrophages did not stratify according to survival. We also identify distinctive MS4A4A+CD163-macrophage populations with different prognostic weights. Enlarging the macrophage characterization and combining it with a lymphoid marker in the rituximab era, in our opinion, may enable prognostic stratification for low-/high-grade FL patients beyond POD24. These findings warrant validation across larger FL cohorts.

Published

2023

4. Stochastic epigenetic mutations as possible explanation for phenotypical discordance among twins with congenital hypothyroidism

Author

Gentilini, D., primary, Muzza, M., additional, de Filippis, T., additional, Vigone, M. C., additional, Weber, G., additional, Calzari, L., additional, Cassio, A., additional, Di Frenna, M., additional, Bartolucci, M., additional, Grassi, E. S., additional, Carbone, E., additional, Olivieri, A., additional, and Persani, L., additional

Published

2022

5. Transcriptome Analysis of iPSC-Derived Neurons from Rubinstein-Taybi Patients Reveals Deficits in Neuronal Differentiation

Author

Calzari L, Barcella M, Alari V, Braga D, Munoz-Viana R, Barlassina C, Finelli P, Gervasini C, Barco A, Russo S, and Larizza L

Subjects

iNeurons, Defective transcriptional program, Neuronal differentiation, iPSC-derived neural progenitors, Rubinstein Taybi, Intellectual disability, RNA-Seq

Abstract

Rubinstein-Taybi syndrome (RSTS) is a rare multisystem developmental disorder with moderate to severe intellectual disability caused by heterozygous mutations of eitherCREBBPorEP300genes encoding CBP/p300 chromatin regulators. We explored the gene programs and processes underlying the morphological and functional alterations shown by iPSC-derived neurons modeling RSTS to bridge the molecular changes resulting from defective CBP/p300 to cognitive impairment. By global transcriptome analysis, we compared the differentially expressed genes (DEGs) marking the transition from iPSC-derived neural progenitors to cortical neurons (iNeurons) of five RSTS patients carrying privateCREBBP/EP300mutations and manifesting differently graded neurocognitive signs with those of four healthy controls. Our data shows a defective and altered neuroprogenitor to neuron transcriptional program in the cells from RSTS patients. First, transcriptional regulation is weaker in RSTS as less genes than in controls are modulated, including genes of key processes of mature functional neurons, such as those for voltage-gated channels and neurotransmitters and their receptors. Second, regulation is subverted as genes acting at pre-terminal stages of neural differentiation in cell polarity and adhesive functions (members of the cadherin family) and axon extension/guidance (members of the semaphorins and SLIT receptors families) are improperly upregulated. Impairment or delay of RSTS neuronal differentiation program is also evidenced by decreased modulation of the overall number of neural differentiation markers, significantly impacting the initial and final stages of the differentiation cascade. Last, extensive downregulation of genes for RNA/DNA metabolic processes confirms that RSTS is a global transcription disorder, consistent with a syndrome driven by chromatin dysregulation. Interestingly, the morphological and functional alterations we have previously appointed as biomarkers of RSTS iNeurons provide functional support to the herein designed transcriptome profile pointing to key dysregulated neuronal genes as main contributors to patients' cognitive deficit. The impact of RSTS transcriptome may go beyond RSTS as comparison of dysregulated genes across modeled neurodevelopmental disorders could unveil convergent genes of cognitive impairment.

Published

2020

6. DNA Methylation in the Diagnosis of Monogenic Diseases.

Author

Cerrato, F, Sparago, A, Ariani, F, Brugnoletti, Fulvia, Calzari, L, Coppedè, F, De Luca, A, Gervasini, C, Giardina, E, Gurrieri, Fiorella, Lo Nigro, C, Merla, G, Miozzo, M, Russo, S, Sangiorgi, Eugenio, Sirchia, Sm, Squeo, Gm, Tabano, S, Tabolacci, Elisabetta, Torrente, I, Genuardi, Maurizio, Neri, Giovanni, Riccio, A., Brugnoletti F, Gurrieri F (ORCID:0000-0002-6775-5972), Sangiorgi E (ORCID:0000-0001-9079-9175), Tabolacci E (ORCID:0000-0002-4707-2242), Genuardi M (ORCID:0000-0002-7410-8351), Neri G, Cerrato, F, Sparago, A, Ariani, F, Brugnoletti, Fulvia, Calzari, L, Coppedè, F, De Luca, A, Gervasini, C, Giardina, E, Gurrieri, Fiorella, Lo Nigro, C, Merla, G, Miozzo, M, Russo, S, Sangiorgi, Eugenio, Sirchia, Sm, Squeo, Gm, Tabano, S, Tabolacci, Elisabetta, Torrente, I, Genuardi, Maurizio, Neri, Giovanni, Riccio, A., Brugnoletti F, Gurrieri F (ORCID:0000-0002-6775-5972), Sangiorgi E (ORCID:0000-0001-9079-9175), Tabolacci E (ORCID:0000-0002-4707-2242), Genuardi M (ORCID:0000-0002-7410-8351), and Neri G

Abstract

DNA methylation in the human genome is largely programmed and shaped by transcription factor binding and interaction between DNA methyltransferases and histone marks during gamete and embryo development. Normal methylation profiles can be modified at single or multiple loci, more frequently as consequences of genetic variants acting in cis or in trans, or in some cases stochastically or through interaction with environmental factors. For many developmental disorders, specific methylation patterns or signatures can be detected in blood DNA. The recent use of high-throughput assays investigating the whole genome has largely increased the number of diseases for which DNA methylation analysis provides information for their diagnosis. Here, we review the methylation abnormalities that have been associated with mono/oligogenic diseases, their relationship with genotype and phenotype and relevance for diagnosis, as well as the limitations in their use and interpretation of results.

Published

2020

7. Involvement of the yeast metacaspase Yca1 in ubp10Delta-programmed cell death

Author

BETTIGA, MAURIZIO, ORLANDI, IVAN, ALBERGHINA, LILIA, VAI, MARINA, Calzari, L, Bettiga, M, Calzari, L, Orlandi, I, Alberghina, L, and Vai, M

Subjects

Saccharomyces cerevisiae Proteins, Nuclear Proteins, Apoptosis, Ascorbic Acid, Saccharomyces cerevisiae, Spheroplasts, BIO/11 - BIOLOGIA MOLECOLARE, Flow Cytometry, Recombinant Proteins, Mutagenesis, Insertional, apoptosis, deubiquitinating enzyme, metacaspase,ascorbic acid, Microscopy, Fluorescence, Caspases, Gene Expression Regulation, Fungal, DNA, Fungal, Reactive Oxygen Species, Ubiquitin Thiolesterase

Abstract

UBP10 encodes a deubiquitinating enzyme of Saccharomyces cerevisiae. Its inactivation results in a complex phenotype characterized by a subpopulation of cells that exhibits the typical cellular markers of apoptosis. Here, we show that additional deletion of YCA1, coding for the yeast metacaspase, suppressed the ubp10 disruptant phenotype. Moreover, YCA1 overexpression, without any external stimulus, had a detrimental effect on growth and viability of ubp10 cells accompanied by an increase of apoptotic cells. This response was completely abrogated by ascorbic acid addition. We also observed that cells lacking UBP10 had an endogenous caspase activity, revealed by incubation in vivo with FITC-labeled VAD-fmk. All these results argue in favour of an involvement of the yeast metacaspase in the active cell death triggered by loss of UBP10 function. © 2004 Federation of European Microbiological Societies. Published by Elsevier B.V. All rights reserved.

Published

2004

8. Fetal growth patterns in Beckwith–Wiedemann syndrome

Author

Mussa, A., primary, Russo, S., additional, de Crescenzo, A., additional, Freschi, A., additional, Calzari, L., additional, Maitz, S., additional, Macchiaiolo, M., additional, Molinatto, C., additional, Baldassarre, G., additional, Mariani, M., additional, Tarani, L., additional, Bedeschi, M.F., additional, Milani, D., additional, Melis, D., additional, Bartuli, A., additional, Cubellis, M.V., additional, Selicorni, A., additional, Silengo, M.C., additional, Larizza, L., additional, Riccio, A., additional, and Ferrero, G.B., additional

Published

2016

9. The histone deubiquitinating enzyme Ubp10 is involved in rDNA locus control in Saccharomyces cerevisiae by affecting Sir2p association

Author

Calzari, L, Orlandi, I, Alberghina, L, Vai, M, ORLANDI, IVAN, ALBERGHINA, LILIA, VAI, MARINA, Calzari, L, Orlandi, I, Alberghina, L, Vai, M, ORLANDI, IVAN, ALBERGHINA, LILIA, and VAI, MARINA

Abstract

Histone modifications influence chromatin structure and thus regulate the accessibility of DNA to replication, recombination, repair, and transcription. We show here that the histone deubiquitinating enzyme Ubp10 contributes to the formation/maintenance of silenced chromatin at the rDNA by affecting Sir2p association. Copyright © 2006 by the Genetics Society of America.

Published

2006

10. This title is unavailable for guests, please login to see more information.

Author

Bettiga, M, Calzari, L, Orlandi, I, Alberghina, L, Vai, M, BETTIGA, MAURIZIO, ORLANDI, IVAN, ALBERGHINA, LILIA, VAI, MARINA, Bettiga, M, Calzari, L, Orlandi, I, Alberghina, L, Vai, M, BETTIGA, MAURIZIO, ORLANDI, IVAN, ALBERGHINA, LILIA, and VAI, MARINA

Abstract

UBP10 encodes a deubiquitinating enzyme of Saccharomyces cerevisiae. Its inactivation results in a complex phenotype characterized by a subpopulation of cells that exhibits the typical cellular markers of apoptosis. Here, we show that additional deletion of YCA1, coding for the yeast metacaspase, suppressed the ubp10 disruptant phenotype. Moreover, YCA1 overexpression, without any external stimulus, had a detrimental effect on growth and viability of ubp10 cells accompanied by an increase of apoptotic cells. This response was completely abrogated by ascorbic acid addition. We also observed that cells lacking UBP10 had an endogenous caspase activity, revealed by incubation in vivo with FITC-labeled VAD-fmk. All these results argue in favour of an involvement of the yeast metacaspase in the active cell death triggered by loss of UBP10 function. © 2004 Federation of European Microbiological Societies. Published by Elsevier B.V. All rights reserved.

Published

2004

11. Involvement of the yeast metacaspase Yca1 in Δ-programmed cell death

Author

BETTIGA, M, primary, CALZARI, L, additional, ORLANDI, I, additional, ALBERGHINA, L, additional, and VAI, M, additional

Published

2004

12. Fetal growth patterns in Beckwith-Wiedemann syndrome

Author

A, Mussa, S, Russo, A, de Crescenzo, A, Freschi, L, Calzari, S, Maitz, M, Macchiaiolo, C, Molinatto, G, Baldassarre, M, Mariani, L, Tarani, M F, Bedeschi, D, Milani, D, Melis, A, Bartuli, M V, Cubellis, A, Selicorni, M C, Silengo, L, Larizza, A, Riccio, G B, Ferrero, Mussa, A, Russo, S, de Crescenzo, A, Freschi, A, Calzari, L, Maitz, S, Macchiaiolo, M, Molinatto, C, Baldassarre, G, Mariani, M, Tarani, L, Bedeschi, M. F, Milani, D, Melis, D, Bartuli, A, Cubellis, MARIA VITTORIA, Selicorni, A, Silengo, M. C, Larizza, L, Riccio, A, Ferrero, G. B., Russo, S., de Crescenzo, A., Freschi, A., Calzari, L., Maitz, S., Macchiaiolo, M., Molinatto, C., Baldassarre, G., Mariani, M., Tarani, L., Bedeschi, M. F., Milani, D., Melis, D., Bartuli, A., Cubellis, M. V., Selicorni, A., Silengo, M. C., Larizza, L., and Riccio, Andrea

Subjects

Beckwith-Wiedemann Syndrome, phenotype, genotype, Beckwith–Wiedemann, Gene Expression, Gestational Age, fetal growth, overgrowth, Anthropometry, Chromosomes, Human, Pair 11, Cyclin-Dependent Kinase Inhibitor p57, Fetal Development, Fetus, Genotype, Humans, Infant, Newborn, Mutation, Phenotype, Premature Birth, DNA Methylation, Genomic Imprinting, Uniparental Disomy, Chromosomes, Beckwith-Wiedemann, Fetal growth, Overgrowth, Genetics (clinical), Genetics, Pair 11, Infant, Newborn, Human

Abstract

We provide data on fetal growth pattern on the molecular subtypes of Beckwith-Wiedemann syndrome (BWS): IC1 gain of methylation (IC1-GoM), IC2 loss of methylation (IC2-LoM), 11p15.5 paternal uniparental disomy (UPD), and CDKN1C mutation. In this observational study, gestational ages and neonatal growth parameters of 247 BWS patients were compared by calculating gestational age-corrected standard deviation scores (SDS) and proportionality indexes to search for differences among IC1-GoM (n = 21), UPD (n = 87), IC2-LoM (n = 147), and CDKN1C mutation (n = 11) patients. In IC1-GoM subgroup, weight and length are higher than in other subgroups. Body proportionality indexes display the following pattern: highest in IC1-GoM patients, lowest in IC2-LoM/CDKN1C patients, intermediate in UPD ones. Prematurity was significantly more prevalent in the CDKN1C (64%) and IC2-LoM subgroups (37%). Fetal growth patterns are different in the four molecular subtypes of BWS and remarkably consistent with altered gene expression primed by the respective molecular mechanisms. IC1-GoM cases show extreme macrosomia and severe disproportion between weight and length excess. In IC2-LoM/CDKN1C patients, macrosomia is less common and associated with more proportionate weight/length ratios with excess of preterm birth. UPD patients show growth patterns closer to those of IC2-LoM, but manifest a body mass disproportion rather similar to that seen in IC1-GoM cases.

Published

2016

13. DNA methylation in the diagnosis of monogenic diseases

Author

Maurizio Genuardi, Cristiana Lo Lo Nigro, Andrea Riccio, Flavia Cerrato, Eugenio Sangiorgi, Elisabetta Tabolacci, Francesca Ariani, Giovanni Neri, Fabio Coppedè, Luciano Calzari, Fiorella Gurrieri, Alessandro De Luca, Gabriella Maria Squeo, Angela Sparago, Giuseppe Merla, Fulvia Brugnoletti, Isabella Torrente, Monica Miozzo, Silvia Russo, Silvia Tabano, Silvia M. Sirchia, Cristina Gervasini, Emiliano Giardina, Cerrato, F., Sparago, A., Ariani, F., Brugnoletti, F., Calzari, L., Coppede, F., De Luca, A., Gervasini, C., Giardina, E., Gurrieri, F., Nigro, C. L., Merla, G., Miozzo, M., Russo, S., Sangiorgi, E., Sirchia, S. M., Squeo, G. M., Tabano, S., Tabolacci, E., Torrente, I., Genuardi, M., Neri, G., Riccio, A., and Lo Nigro, C.

Subjects

0301 basic medicine, Epigenomics, Methyltransferase, Genetic testing, lcsh:QH426-470, Prenatal diagnosis, neuromuscular diseases, Review, 030105 genetics & heredity, Settore MED/03 - GENETICA MEDICA, Genome, Imprinting disorder, 03 medical and health sciences, chemistry.chemical_compound, Developmental delay/intellectual disability disorder, Genetics, medicine, imprinting disorders, Humans, Genetics (clinical), DNA methylation, developmental delay/intellectual disability disorders, epi-signatures, genetic testing, hereditary tumors, high-throughput analysis, prenatal diagnosis, biology, medicine.diagnostic_test, Genome, Human, High-throughput analysi, Genetic Diseases, Inborn, Methylation, Developmental delay/intellectual disability disorders, Epi-signatures, Hereditary tumors, High-throughput analysis, Imprinting disorders, Neuromuscular diseases, Neuromuscular disease, lcsh:Genetics, 030104 developmental biology, Histone, Phenotype, chemistry, Settore MED/03, biology.protein, Hereditary tumor, Human genome, Epi-signature, DNA

Abstract

DNA methylation in the human genome is largely programmed and shaped by transcription factor binding and interaction between DNA methyltransferases and histone marks during gamete and embryo development. Normal methylation profiles can be modified at single or multiple loci, more frequently as consequences of genetic variants acting in cis or in trans, or in some cases stochastically or through interaction with environmental factors. For many developmental disorders, specific methylation patterns or signatures can be detected in blood DNA. The recent use of high-throughput assays investigating the whole genome has largely increased the number of diseases for which DNA methylation analysis provides information for their diagnosis. Here, we review the methylation abnormalities that have been associated with mono/oligogenic diseases, their relationship with genotype and phenotype and relevance for diagnosis, as well as the limitations in their use and interpretation of results.

Published

2020

14. A KHDC3L mutation resulting in recurrent hydatidiform mole causes genome-wide DNA methylation loss in oocytes and persistent imprinting defects post-fertilisation

Author

Luciano Calzari, Zahra Anvar, Bahia Namavar Jahromi, Mojgan Akbarzadeh Jahromi, Ankit Verma, Simon Andrews, Angela Sparago, Maryam Davari, Gavin Kelsey, Hannah Demond, Silvia Russo, David Monk, Andrea Riccio, Kelsey, Gavin [0000-0002-9762-5634], Apollo - University of Cambridge Repository, Demond, H., Anvar, Z., Jahromi, B. N., Sparago, A., Verma, A., Davari, M., Calzari, L., Russo, S., Jahromi, M. A., Monk, D., Andrews, S., Riccio, A., and Kelsey, G.

Subjects

Embryology, Oocyte, Genomic imprinting, Placenta, ADN, Bisulfite sequencing, lcsh:Medicine, Germline, 0302 clinical medicine, Pregnancy, Imprinting (psychology), Genetics (clinical), Genetics, 0303 health sciences, DNA methylation, 030219 obstetrics & reproductive medicine, Epigenetic, Hydatidiform Mole, Methylation, Single-cell analysis, Embryo, Single-cell analysi, Uterine Neoplasms, Molecular Medicine, Epigenetics, Female, Adult, lcsh:QH426-470, Biology, Polymorphism, Single Nucleotide, 03 medical and health sciences, Humans, Molecular Biology, 030304 developmental biology, Embriologia, Research, lcsh:R, Embryos, Proteins, DNA, Sequence Analysis, DNA, Epigenètica, Oocytes, lcsh:Genetics, Blastocyst, Differentially methylated regions, Neoplasm Recurrence, Local

Abstract

Background Maternal effect mutations in the components of the subcortical maternal complex (SCMC) of the human oocyte can cause early embryonic failure, gestational abnormalities and recurrent pregnancy loss. Enigmatically, they are also associated with DNA methylation abnormalities at imprinted genes in conceptuses: in the devastating gestational abnormality biparental complete hydatidiform mole (BiCHM) or in multi-locus imprinting disease (MLID). However, the developmental timing, genomic extent and mechanistic basis of these imprinting defects are unknown. The rarity of these disorders and the possibility that methylation defects originate in oocytes have made these questions very challenging to address. Methods Single-cell bisulphite sequencing (scBS-seq) was used to assess methylation in oocytes from a patient with BiCHM identified to be homozygous for an inactivating mutation in the human SCMC component KHDC3L. Genome-wide methylation analysis of a preimplantation embryo and molar tissue from the same patient was also performed. Results High-coverage scBS-seq libraries were obtained from five KHDC3Lc.1A>G oocytes, which revealed a genome-wide deficit of DNA methylation compared with normal human oocytes. Importantly, germline differentially methylated regions (gDMRs) of imprinted genes were affected similarly to other sequence features that normally become methylated in oocytes, indicating no selectivity towards imprinted genes. A range of methylation losses was observed across genomic features, including gDMRs, indicating variable sensitivity to defects in the SCMC. Genome-wide analysis of a pre-implantation embryo and molar tissue from the same patient showed that following fertilisation methylation defects at imprinted genes persist, while most non-imprinted regions of the genome recover near-normal methylation post-implantation. Conclusions We show for the first time that the integrity of the SCMC is essential for de novo methylation in the female germline. These findings have important implications for understanding the role of the SCMC in DNA methylation and for the origin of imprinting defects, for counselling affected families, and will help inform future therapeutic approaches.

Published

2019

15. Molecular Etiology Disclosed by Array CGH in Patients With Silver–Russell Syndrome or Similar Phenotypes

Author

Milena Crippa, Maria Teresa Bonati, Luciano Calzari, Chiara Picinelli, Cristina Gervasini, Alessandra Sironi, Ilaria Bestetti, Sara Guzzetti, Simonetta Bellone, Angelo Selicorni, Alessandro Mussa, Andrea Riccio, Giovanni Battista Ferrero, Silvia Russo, Lidia Larizza, Palma Finelli, Crippa, M., Bonati, M. T., Calzari, L., Picinelli, C., Gervasini, C., Sironi, A., Bestetti, I., Guzzetti, S., Bellone, S., Selicorni, A., Mussa, A., Riccio, A., Ferrero, G. B., Russo, S., Larizza, L., and Finelli, P.

Subjects

0301 basic medicine, lcsh:QH426-470, array CGH, differential diagnosis, Netchine–Harbison clinical scoring system, pathogenic CNVs, Silver–Russell syndrome, differential diagnosi, Bioinformatics, pathogenic CNV, 03 medical and health sciences, 0302 clinical medicine, parasitic diseases, medicine, Genetics, Copy-number variation, Epigenetics, Gene, Genetics (clinical), Original Research, business.industry, medicine.disease, Phenotype, lcsh:Genetics, 030104 developmental biology, 030220 oncology & carcinogenesis, Etiology, Molecular Medicine, Differential diagnosis, business, Comparative genomic hybridization

Abstract

Introduction: Silver-Russell syndrome (SRS) is an imprinting disorder primarily caused by genetic and epigenetic aberrations on chromosomes 11 and 7. SRS is a rare growth retardation disorder often misdiagnosed due to its heterogeneous and non-specific clinical features. The Netchine-Harbison clinical scoring system (NH-CSS) is the recommended tool for differentiating patients into clinical SRS or unlikely SRS. However, the clinical diagnosis is molecularly confirmed only in about 60% of patients, leaving the remaining substantial proportion of SRS patients with unknown genetic etiology. Materials and Methods: A cohort of 34 Italian patients with SRS or SRS-like features scored according to the NH-CSS and without any SRS-associated (epi)genetic alterations was analyzed by high-resolution array-based comparative genomic hybridization (CGH) in order to identify potentially pathogenic copy number variants (CNVs). Results and Discussion: In seven patients, making up 21% of the initial cohort, five pathogenic and two potentially pathogenic CNVs were found involving distinct genomic regions either previously associated with growth delay conditions (1q24.3-q25.3, 17p13.3, 17q22, and 22q11.2-q11.22) and with SRS spectrum (7p12.1 and 7p15.3-p14.3) or outlined for the first time (19q13.42), providing a better definition of reported and as yet unreported SRS overlapping syndromes. All the variants involve genes with a defined role in growth pathways, and for two genes mapping at 7p, IGF2BP3 and GRB10, the association with SRS turns out to be reinforced. The deleterious effect of the two potentially pathogenic variants, comprising GRB10 and ZNF331 genes, was explored by targeted approaches, though further studies are needed to validate their pathogenic role in the SRS etiology. In conclusion, we reconfirm the utility of performing a genome-wide scan to achieve a differential diagnosis in patients with SRS or similar features and to highlight novel chromosome alterations associated with SRS and growth retardation disorders.

Published

2019

16. The phenotypic variations of multi-locus imprinting disturbances associated with maternal-effect variants of NLRP5 range from overt imprinting disorder to apparently healthy phenotype

Author

Faisal I. Rezwan, Flavia Cerrato, Andrea Riccio, Laura Pignata, Deborah J G Mackay, Maria Vittoria Cubellis, Ankit Verma, Claudia Angelini, Maria Grazia Patricelli, Massimo Carella, Luciano Calzari, Naomi De Francesco, Rosita Del Prete, Angela Sparago, Silvia Russo, Orazio Palumbo, Sparago, A., Verma, A., Patricelli, M. G., Pignata, L., Russo, S., Calzari, L., De Francesco, N., Del Prete, R., Palumbo, O., Carella, M., Mackay, D. J. G., Rezwan, F. I., Angelini, C., Cerrato, F., Cubellis, M. V., and Riccio, A.

Subjects

Male, Genomic imprinting, Multi-locus imprinting disturbance, Beckwith–Wiedemann syndrome, Short Report, DNA- methylation, Biology, Compound heterozygosity, Autoantigens, NLRP5, Mitochondrial Proteins, Young Adult, Loss of Function Mutation, Exome Sequencing, Genetics, medicine, Humans, Imprinting (psychology), Maternal-effect variants, Child, Molecular Biology, Genetics (clinical), Maternal-effect variant, Nuclear Proteins, Sequence Analysis, DNA, medicine.disease, Phenotype, Human genetics, Pedigree, Abortion, Spontaneous, Differentially methylated regions, Multi-locus imprinting disturbances, DNA methylation, Beckwith-Wiedemann syndrome, Female, Maternal Inheritance, DNA-methylation, Developmental Biology, Genome-Wide Association Study

Abstract

Background A subset of individuals affected by imprinting disorders displays multi-locus imprinting disturbances (MLID). MLID has been associated with maternal-effect variants that alter the maintenance of methylation at germline-derived differentially methylated regions (gDMRs) in early embryogenesis. Pedigrees of individuals with MLID also include siblings with healthy phenotype. However, it is unknown if these healthy individuals have MLID themselves or if their methylation patterns differ from those associated with imprinting disorders, and in general, if MLID affects the clinical phenotype. Methods We have investigated gDMR methylation by locus-specific and whole-genome analyses in a family with multiple pregnancy losses, a child with Beckwith-Wiedemann syndrome (BWS) and a further child with no clinical diagnosis of imprinting disorder or other pathologies. Results We detected MLID with different methylation profiles in the BWS-affected and healthy siblings. Whole-exome sequencing demonstrated the presence of novel loss-of-function variants of NLRP5 in compound heterozygosity in the mother. The methylation profiles of the two siblings were compared with those of other cases with MLID and control groups by principal component analysis and unsupervised hierarchical clustering, but while their patterns were clearly separated from those of controls, we were unable to cluster those associated with specific clinical phenotypes among the MLID cases. Conclusion The identification of two novel maternal-effect variants of NLRP5 associated with poly-abortivity and MLID adds further evidence to the role of this gene in the maintenance of genomic imprinting in early embryos. Furthermore, our results demonstrate that within these pedigrees, MLID can also be present in the progeny with healthy phenotype, indicating that some sort of compensation occurs between altered imprinted loci in these individuals. The analysis of larger cohorts of patients with MLID is needed to formulate more accurate epigenotype-phenotype correlations.

Published

2019

17. The Histone Deubiquitinating Enzyme Ubp10 Is Involved in rDNA Locus Control in Saccharomyces cerevisiae by Affecting Sir2p Association

Author

Ivan Orlandi, Lilia Alberghina, Marina Vai, Luciano Calzari, Calzari, L, Orlandi, I, Alberghina, L, and Vai, M

Subjects

Saccharomyces cerevisiae Proteins, Transcription, Genetic, Saccharomyces cerevisiae, Biology, DNA, Ribosomal, Methylation, Histone Deacetylases, Chromatin remodeling, Histones, Sirtuin 2, Histone H1, Histone methylation, Histone H2A, Genetics, Immunoprecipitation, Sirtuins, Histone code, Gene Silencing, Silent Information Regulator Proteins, Saccharomyces cerevisiae, Histone modification, Ubp10p, rDNA, Sir2p, silencing, Ubiquitin, Nuclear Proteins, Acetylation, Note, Chromatin, Histone methyltransferase, Ubiquitin Thiolesterase, Chromatin immunoprecipitation

Abstract

Histone modifications influence chromatin structure and thus regulate the accessibility of DNA to replication, recombination, repair, and transcription. We show here that the histone deubiquitinating enzyme Ubp10 contributes to the formation/maintenance of silenced chromatin at the rDNA by affecting Sir2p association.

Published

2006

18. Painful diabetic neuropathy is associated with accelerated epigenetic aging.

Author

Kwiatkowska KM, Garagnani P, Bonafé M, Bacalini MG, Calzari L, Gentilini D, Ziegler D, Gerrits MM, Faber CG, Malik RA, Marchi M, Salvi E, Lauria G, and Pirazzini C

Abstract

About one out of two diabetic patients develop diabetic neuropathy (DN), of these 20% experience neuropathic pain (NP) leading to individual, social, and health-economic burden. Risk factors for NP are largely unknown; however, premature aging was recently associated with several chronic pain disorders. DNA methylation-based biological age (DNAm) is associated with disease risk, morbidity, and mortality in different clinical settings. The purpose of this work was to study, for the first time, whether biological age is involved in pain development in a huge cohort of DN patients with neuropathy assessed by anatomopathological assay (99 painful (PDN), 132 painless (PLDN) patients, 84 controls (CTRL)). Six subsets of DNAm biomarkers were calculated to evaluate NP-associated changes in epigenetic aging, telomere shortening, blood cell count estimates, and plasma protein surrogates. We observed pain-related acceleration of epigenetic age (DNAmAgeHannum, DNAmGrimAgeBasedOnPredictedAge, DNAmAgeSkinBloodClock), pace of aging (DunedinPoAm), and shortening of telomeres between PDN and PLDN patients. PDN showed decreased predicted counts of B lymphocytes, naive and absolute CD8 T cells, and increased granulocyte counts. Several surrogates of plasma proteins were significantly different (GHR, MMP1, THBS2, PAPPA, TGF-α, GDF8, EDA, MPL, CCL21) in PDNs compared to PLDNs. These results provide the first evidence of an acceleration of biological aging in patients with painful compared to painless DN. This achievement has been possible thanks to the state of the art clinical phenotyping of the enrolled patients. Our findings indicate that the aging process may be directly involved in the PDN progression and in general health degeneration in the T2DM patients. Therefore, it is possible to hypothesize that the administration of effective antiaging drugs could slow down or even block the disease advancement., Competing Interests: Declarations. Ethics approval and consent to participate: Informed consent was given by all patients to participate in the study. The study was approved by the Lombardy Region Ethic Committee Section of the FONDAZIONE IRCCS ISTITUTO NEUROLOGICO “CARLO BESTA” (n. 56, November 7th, 2018) and by the Ethics Committee of Maastricht University (NL36128.06S.11 / METC 11–2-030). Competing interests: The authors declare no competing interests., (© 2025. The Author(s).)

Published

2025

19. High-resolution whole-genome DNA methylation revealed unique signatures of painful diabetic neuropathy.

Author

Kwiatkowska KM, Garagnani P, Bonafé M, Bacalini MG, Sala C, Castellani G, Gentilini D, Calzari L, Ziegler D, Gerrits MM, Faber CG, Malik RA, Marchi M, Salvi E, Lauria G, and Pirazzini C

Abstract

The aim of this work was to describe the DNA methylation signature and to identify genes associated with neuropathic pain in type 2 diabetes mellitus. We analyzed two independent diabetic neuropathy cohorts: PROPGER consisting of 72 painful and 67 painless patients recruited at the German Diabetes Center in Düsseldorf (DE), and PROPENG comprising 27 painful and 65 painless diabetic neuropathy patients recruited at the University of Manchester (UK). Genome-wide methylation data was generated using Illumina Infinium Methylation EPIC v1.0 BeadChip. We used four different selection criteria to identify promising pain-related genes. Our findings revealed significant differences in methylation patterns between painful and painless diabetic neuropathy and identified a set of individual CpG sites of unique candidate genes associated with the painful phenotype. Several of these genes, including GCH1, MYT1L and MED16, have been previously linked to pain-related phenotypes or diabetes. Through pathway enrichment analysis, we demonstrated that specific epigenetic signatures could contribute to the complex phenotype of diabetic neuropathy and cluster analyses highlighted significant epigenetic dissimilarities between painful and painless phenotypes. Our results uncovered epigenetic differences between painful and painless diabetic neuropathy patients and identified targeted genes linked to neuropathic pain through DNA methylation mechanisms. This approach holds promise for investigating other chronic pain conditions, such as secondary chronic pain from cancer treatment, thoracic surgery, and various transplant settings., (© 2025 by the American Diabetes Association.)

Published

2025

20. Epigenetic Drift Is Involved in the Efficacy of HBV Vaccination.

Author

Ferraresi F, Anticoli S, Salvioli S, Pirazzini C, Calzari L, Gentilini D, Albano C, Di Prinzio RR, Zaffina S, Carsetti R, Garagnani P, Ruggieri A, and Kwiatkowska KM

Abstract

Background/Objectives : HBV infections can lead to serious liver complications that can have fatal consequences. In 2022, around 1.1 million individuals died from HBV-related cirrhosis and hepatocellular carcinoma. Vaccines allow us to save more than 2.5 million lives each year; however, up to 10% of vaccinated individuals may not develop sufficient protective antibody levels. The aim of this study was to investigate the epigenetic drift in the response to HBV vaccine in isolated B cells. Methods : Epigenetic drift was measured by counting rare DNA methylation variants. These epivariants were detected in epigenome-wide data collected from isolated B cell samples from 41 responders and 30 non-responders (age range 22-62 years) to vaccination against HBV. Results : We found an accumulation of epivariants in the NR group, with a significant increase in hyper-methylated aberrations. We identified the chromosomes (1, 3, 11, 12, and 14) and genes (e.g., RUSC1_AS1 or TROVE2 ) particularly enriched in epivariants in NRs. The literature search and pathway analysis indicate that such genes are involved in the correct functioning of the immune system. Moreover, we observed a correlation between epigenetic drift and DNA methylation entropy in the male population of the cohort. Finally, we confirmed the correlation between epivariant loads and age-related epigenetic clocks. Conclusions : Our findings support the idea that an age-related derangement of the epigenetic architecture is involved in unresponsiveness to the HBV vaccine. Furthermore, the overall results highlight the interconnection between various epigenetic dynamics (such as drift, clocks, and entropy), although these interconnections seem not to be involved in the altered immunological activity.

Published

2024

21. Correction: Epigenetic patterns, accelerated biological aging, and enhanced epigenetic drift detected 6 months following COVID‑19 infection: insights from a genome‑wide DNA methylation study.

Author

Calzari L, Dragani DF, Zanotti L, Inglese E, Danesi R, Cavagnola R, Brusati A, Ranucci F, Di Blasio AM, Persani L, Campi I, De Martino S, Farsetti A, Barbi V, Gottardi Zamperla M, Baldrighi GN, Gaetano C, Parati G, and Gentilini D

Published

2024

22. Association Between TTV Viremia, Chronic Inflammation, and Ischemic Heart Disease Risk: Insights From MARK-AGE and Report-Age Projects.

Author

Giacconi R, Piacenza F, Maggi F, Bürkle A, Moreno-Villanueva M, Mancinelli L, Spezia PG, Novazzi F, Drago Ferrante F, Minosse C, Grossi PA, Mancini N, Cecati M, Dollé MET, Jansen E, Grune T, Gonos ES, Franceschi C, Capri M, Weinberger B, Sikora E, Debacq-Chainiaux F, Stuetz W, Hurme M, Slagboom PE, Bernhardt J, Gentilini D, Calzari L, Di Rosa M, Bonfigli AR, Galeazzi R, Cherubini A, Lattanzio F, Provinciali M, and Malavolta M

Subjects

Humans, Male, Female, Aged, Middle Aged, Cross-Sectional Studies, Cytokines blood, Aged, 80 and over, Risk Factors, DNA Virus Infections blood, DNA Virus Infections immunology, Chronic Disease, Myocardial Ischemia epidemiology, Myocardial Ischemia blood, Torque teno virus, Inflammation blood, Viremia

Abstract

The implication of Torquetenovirus (TTV) in ischemic heart disease (IHD) has not been thoroughly explored. This study investigated the association between TTV viremia, pro-inflammatory cytokines, and IHD risk in an aging population. This cross-sectional study included 900 non-IHD subjects and 86 individuals with IHD (aged 55-75 years) selected from the MARK-AGE project. Results were verified in another independent Report-Age cohort, including 94 inpatients with chronic IHD and 111 inpatients with non-IHD (aged 65-96 years). Multivariable logistic regression in the MARK-AGE cohort revealed that male sex, TTV viremia ≥4log, Cu/Zn ratio, diabetes, hypertension, and smoking were significant IHD predictors. Notably, TTV viremia ≥4log independently increased the IHD risk (odds ratio [OR]: 2.51, 95% confidence interval [CI]: 1.42-4.43), confirmed in the Report-Age cohort (OR: 4.90, 95% CI: 2.32-10.39). In a RASIG subgroup, individuals with TTV viremia ≥4 log, both with and without IHD, exhibited increased plasma pro-inflammatory cytokine levels (IFN-γ, IL-1β, IL-6, IL-10, IL-12p70, TNF-α) compared to those with TTV viremia <4 log. No significant difference in cytokine production was observed between IHD patients and non-IHD with TTV viremia ≥4 log. A positive correlation between TTV viremia and DNA methylation estimator of leukocyte telomere length was observed in Report-Age patients. Additionally, IHD Report-Age patients with TTV viremia ≥4 log displayed higher NLR and SIRI index than those with TTV viremia <4 log. In conclusion, a high TTV viremia is associated with an elevated IHD risk in the older population, potentially arising from an augmented pro-inflammatory response and immunosenescence., (© The Author(s) 2024. Published by Oxford University Press on behalf of The Gerontological Society of America.)

Published

2024

23. Distinguishing genetic alterations versus (epi)mutations in Silver-Russell syndrome and focus on the IGF1R gene.

Author

Vimercati A, Tannorella P, Guzzetti S, Calzari L, Gentilini D, Manfredini E, Gori G, Gaudino R, Antona V, Piccione M, Daolio C, Auricchio R, Sirchia F, Minelli A, Rossi E, Bellini M, Biasucci G, Raucci AR, Pozzobon G, Patti G, Napoli F, Larizza L, Maghnie M, and Russo S

Abstract

Context: Silver-Russell Syndrome (SRS) is a growth retardation disorder characterized by pre- and post-natal growth failure, relative macrocephaly at birth, prominent forehead, body asymmetry, and feeding difficulties. The main molecular mechanisms are imprinting alterations at multiple loci, though a small number of pathogenic variants have been reported in the SRS genes IGF2-PLAG1-HMGA2 and CDKN1C. However, around 40% of clinically suspected SRS cases do not achieve a molecular diagnosis, highlighting the necessity to uncover the underlying mechanism in unsolved cases., Objective: evaluate the frequency of genetic variants in undiagnosed SRS patients (NH-CSS≥4), and investigate whether (epi)genetic patients may be distinguished from genetic patients., Methods: 132 clinically SRS patients without (epi)genetic deregulations were investigated by Whole Exome (n=15) and Targeted (n=117) Sequencing. Clinical data from our cohort and from an extensive revision of literature were compared., Results: pathogenic variants were identified in 9.1% of this cohort: 3% in IGF2, PLAG1, and HMGA2 genes, while 3% in the IGF1R gene, associated with IGF-1 resistance (IGF1RES), an SRS differential diagnosis. Overall, IGF2-PLAG1-HMGA2 and IGF1R account for 3.6% of SRS with NH-CSS score ≥ 4. A clinical cross-comparison of (epi)genetic versus genetic SRS underlined (epi)genotype-phenotype correlation, highlighted the prevalence of body asymmetry and relative macrocephaly in mosaic (epi)genetic SRS and recurrence of genetic familial cases. Furthermore, overlapping features were evidenced in (epi)genetic SRS and IGF1RES patients., Conclusion: Our study explores the frequency of genetic SRS, underscores body asymmetry as distinctive phenotype in (epi)genetic SRS and suggests IGF1R sequencing in SRS diagnostic flow-chart., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Endocrine Society.)

Published

2024

24. Investigating the Epigenetic Landscape of Major Depressive Disorder: A Genome-Wide Meta-Analysis of DNA Methylation Data, Including New Insights into Stochastic Epigenetic Mutations and Epivariations.

Author

Baldrighi GN, Cavagnola R, Calzari L, Sacco D, Costantino L, Ferrara F, and Gentilini D

Abstract

Background/Objectives: Major depressive disorder (MDD) is a mental health condition that can severely impact patients' social lives, leading to withdrawal and difficulty in maintaining relationships. Environmental factors such as trauma and stress can worsen MDD by interacting with genetic predispositions. Epigenetics, which examines changes in gene expression influenced by the environment, may help identify patterns linked to depression. This study aimed to explore the epigenetic mechanisms behind MDD by analysing six public datasets (n = 1125 MDD cases, 398 controls in blood; n = 95 MDD cases, 96 controls in brain tissues) from the Gene Expression Omnibus. Methods: As an innovative approach, two meta-analyses of DNA methylation patterns were conducted alongside an investigation of stochastic epigenetic mutations (SEMs), epigenetic age acceleration, and rare epivariations. Results: While no significant global methylation differences were observed between MDD cases and controls, hypomethylation near the SHF gene (brain-specific probe cg25801113) was consistently found in MDD cases. SEMs revealed a gene-level burden in MDD, though epigenetic age acceleration was not central to the disorder. Additionally, 51 rare epivariations were identified in blood tissue and 1 in brain tissue linked to MDD. Conclusions: The study emphasises the potential role of rare epivariations in MDD's epigenetic regulation but calls for further research with larger, more diverse cohorts to confirm these findings.

Published

2024

25. Epigenetic patterns, accelerated biological aging, and enhanced epigenetic drift detected 6 months following COVID-19 infection: insights from a genome-wide DNA methylation study.

Author

Calzari L, Dragani DF, Zanotti L, Inglese E, Danesi R, Cavagnola R, Brusati A, Ranucci F, Di Blasio AM, Persani L, Campi I, De Martino S, Farsetti A, Barbi V, Gottardi Zamperla M, Baldrighi GN, Gaetano C, Parati G, and Gentilini D

Subjects

Humans, Male, Female, Middle Aged, Adult, Aging genetics, Aged, Genome-Wide Association Study methods, Post-Acute COVID-19 Syndrome, Italy, DNA Methylation genetics, COVID-19 genetics, Epigenesis, Genetic genetics, SARS-CoV-2, CpG Islands genetics

Abstract

Background: The epigenetic status of patients 6-month post-COVID-19 infection remains largely unexplored. The existence of long-COVID, or post-acute sequelae of SARS-CoV-2 infection (PASC), suggests potential long-term changes. Long-COVID includes symptoms like fatigue, neurological issues, and organ-related problems, regardless of initial infection severity. The mechanisms behind long-COVID are unclear, but virus-induced epigenetic changes could play a role., Methods and Results: Our study explores the lasting epigenetic impacts of SARS-CoV-2 infection. We analyzed genome-wide DNA methylation patterns in an Italian cohort of 96 patients 6 months after COVID-19 exposure, comparing them to 191 healthy controls. We identified 42 CpG sites with significant methylation differences (FDR < 0.05), primarily within CpG islands and gene promoters. Dysregulated genes highlighted potential links to glutamate/glutamine metabolism, which may be relevant to PASC symptoms. Key genes with potential significance to COVID-19 infection and long-term effects include GLUD1, ATP1A3, and ARRB2. Furthermore, Horvath's epigenetic clock showed a slight but significant age acceleration in post-COVID-19 patients. We also observed a substantial increase in stochastic epigenetic mutations (SEMs) in the post-COVID-19 group, implying potential epigenetic drift. SEM analysis identified 790 affected genes, indicating dysregulation in pathways related to insulin resistance, VEGF signaling, apoptosis, hypoxia response, T-cell activation, and endothelin signaling., Conclusions: Our study provides valuable insights into the epigenetic consequences of COVID-19. Results suggest possible associations with accelerated aging, epigenetic drift, and the disruption of critical biological pathways linked to insulin resistance, immune response, and vascular health. Understanding these epigenetic changes could be crucial for elucidating the complex mechanisms behind long-COVID and developing targeted therapeutic interventions., (© 2024. The Author(s).)

Published

2024

26. B Cells Isolated from Individuals Who Do Not Respond to the HBV Vaccine Are Characterized by Higher DNA Methylation-Estimated Aging Compared to Responders.

Author

Kwiatkowska KM, Anticoli S, Salvioli S, Calzari L, Gentilini D, Albano C, Di Prinzio RR, Zaffina S, Carsetti R, Ruggieri A, and Garagnani P

Abstract

Healthcare workers (HCWs) are a high-risk group for hepatitis B virus (HBV) infection. Notably, about 5-10% of the general population does not respond to the HBV vaccination. In this study, we aimed to investigate DNA methylation (DNAm) in order to estimate the biological age of B cells from HCW of both sexes, either responder (R) or non-responder (NR), to HBV vaccination. We used genome-wide DNA methylation data to calculate a set of biomarkers in B cells collected from 41 Rs and 30 NRs between 22 and 62 years old. Unresponsiveness to HBV vaccination was associated with accelerated epigenetic aging (DNAmAge, AltumAge, DunedinPoAm) and was accompanied by epigenetic drift. Female non-responders had higher estimates of telomere length and lower CRP inflammation risk score when compared to responders. Overall, epigenetic differences between responders and non-responders were more evident in females than males. In this study we demonstrated that several methylation DNAm-based clocks and biomarkers are associated with an increased risk of non-response to HBV vaccination, particularly in females. Based on these results, we propose that accelerated epigenetic age could contribute to vaccine unresponsiveness. These insights may help improve the evaluation of the effectiveness of vaccination strategies, especially among HCWs and vulnerable patients.

Published

2024

27. Correction: Corsaro et al. Notch, SUMOylation, and ESR-Mediated Signalling Are the Main Molecular Pathways Showing Significantly Different Epimutation Scores between Expressing or Not Oestrogen Receptor Breast Cancer in Three Public EWAS Datasets. Cancers 2023 , 15 , 4109.

Author

Corsaro L, Gentilini D, Calzari L, and Gambino VS

Abstract

Additional Affiliation(s) [...].

Published

2024

28. Genomic analysis of 116 autism families strengthens known risk genes and highlights promising candidates.

Author

Viggiano M, Ceroni F, Visconti P, Posar A, Scaduto MC, Sandoni L, Baravelli I, Cameli C, Rochat MJ, Maresca A, Vaisfeld A, Gentilini D, Calzari L, Carelli V, Zody MC, Maestrini E, and Bacchelli E

Abstract

Autism spectrum disorder (ASD) is a complex neurodevelopmental condition with a strong genetic component in which rare variants contribute significantly to risk. We performed whole genome and/or exome sequencing (WGS and WES) and SNP-array analysis to identify both rare sequence and copy number variants (SNVs and CNVs) in 435 individuals from 116 ASD families. We identified 37 rare potentially damaging de novo SNVs (pdSNVs) in the cases (n = 144). Interestingly, two of them (one stop-gain and one missense variant) occurred in the same gene, BRSK2. Moreover, the identification of 8 severe de novo pdSNVs in genes not previously implicated in ASD (AGPAT3, IRX5, MGAT5B, RAB8B, RAP1A, RASAL2, SLC9A1, YME1L1) highlighted promising candidates. Potentially damaging CNVs (pdCNVs) provided support to the involvement of inherited variants in PHF3, NEGR1, TIAM1 and HOMER1 in neurodevelopmental disorders (NDD), although mostly acting as susceptibility factors with incomplete penetrance. Interpretation of identified pdSNVs/pdCNVs according to the ACMG guidelines led to a molecular diagnosis in 19/144 cases, although this figure represents a lower limit and is expected to increase thanks to further clarification of the role of likely pathogenic variants in ASD/NDD candidate genes not yet established. In conclusion, our study highlights promising ASD candidate genes and contributes to characterize the allelic diversity, mode of inheritance and phenotypic impact of de novo and inherited risk variants in ASD/NDD genes., (© 2024. The Author(s).)

Published

2024

29. Exploring epigenetic drift and rare epivariations in amyotrophic lateral sclerosis by epigenome-wide association study.

Author

Brusati A, Peverelli S, Calzari L, Tiloca C, Casiraghi V, Sorce MN, Invernizzi S, Carbone E, Cavagnola R, Verde F, Silani V, Ticozzi N, Ratti A, and Gentilini D

Abstract

During the last decades, our knowledge about the genetic architecture of sporadic amyotrophic lateral sclerosis (sALS) has significantly increased. However, besides the recognized genetic risk factors, also the environment is supposed to have a role in disease pathogenesis. Epigenetic modifications reflect the results of the interaction between environmental factors and genes and may play a role in the development and progression of ALS. A recent epigenome-wide association study (EWAS) in blood identified differentially methylated positions mapping to 42 genes involved in cholesterol biosynthesis and immune-related pathways. Here we performed a genome-wide DNA methylation analysis in the blood of an Italian cohort of 61 sALS patients and 61 healthy controls. Initially, a conventional genome-wide association analysis was performed, and results were subsequently integrated with the findings from the previous EWAS using a meta-analytical approach. To delve deeper into the significant outcomes, over-representation analysis (ORA) was employed. Moreover, the epigenetic signature obtained from the meta-analysis was examined to determine potential associations with chemical compounds, utilizing the Toxicogenomic Database. Expanding the scope of the epigenetic analysis, we explored both epigenetic drift and rare epivariations. Notably, we observed an elevated epigenetic drift in sALS patients compared to controls, both at a global and single gene level. Interestingly, epigenetic drift at a single gene level revealed an enrichment of genes related to the neurotrophin signaling pathway. Moreover, for the first time, we identified rare epivariations exclusively enriched in sALS cases associated with 153 genes, 88 of whom with a strong expression in cerebral areas. Overall, our study reinforces the evidence that epigenetics may contribute to the pathogenesis of ALS and that epigenetic drift may be a useful diagnostic marker. Moreover, this study suggests the potential role of epivariations in ALS., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2023 Brusati, Peverelli, Calzari, Tiloca, Casiraghi, Sorce, Invernizzi, Carbone, Cavagnola, Verde, Silani, Ticozzi, Ratti and Gentilini.)

Published

2023

30. Whole genome analysis of rare deleterious variants adds further evidence to BRSK2 and other risk genes in Autism Spectrum Disorder.

Author

Bacchelli E, Viggiano M, Ceroni F, Visconti P, Posar A, Scaduto M, Sandoni L, Baravelli I, Cameli C, Rochat M, Maresca A, Vaisfeld A, Gentilini D, Calzari L, Carelli V, Zody M, and Maestrini E

Abstract

Autism spectrum disorder (ASD) is a complex neurodevelopmental condition with a strong genetic component in which rare variants contribute significantly to risk. We have performed whole genome and/or exome sequencing (WGS and WES) and SNP-array analysis to identify both rare sequence and copy number variants (SNVs and CNVs) in 435 individuals from 116 ASD families. We identified 37 rare potentially damaging de novo SNVs (pdSNVs) in cases (n = 144). Interestingly, two of them (one stop-gain and one missense variant) occurred in the same gene, BRSK2. Moreover, the identification of 9 severe de novo pdSNVs in genes not previously implicated in ASD ( RASAL2, RAP1A, IRX5, SLC9A1, AGPAT3, MGAT3, RAB8B, MGAT5B, YME1L1 ), highlighted novel candidates. Potentially damaging CNVs (pdCNVs) provided support to the involvement of inherited variants in PHF3, NEGR1, TIAM1 and HOMER1 in neurodevelopmental disorders (NDD), although mostly acting as susceptibility factors with incomplete penetrance. Interpretation of identified pdSNVs/pdCNVs according to the ACMG guidelines led to a molecular diagnosis in 19/144 cases, but this figure represents a lower limit and is expected to increase thanks to further clarification of the role of likely pathogenic variants in new ASD/NDD candidates. In conclusion, our study strengthens the role of BRSK2 and other neurodevelopmental genes in ASD risk, highlights novel candidates and contributes to characterize the allelic diversity, mode of inheritance and phenotypic impact of de novo and inherited risk variants in ASD/NDD genes., Competing Interests: Conflict of Interest MCZ declares to be a shareholder in Abbott, Abbvie, BMS, Merck, Pfizer, Thermo Fisher, and J&J.

Published

2023

31. Epigenetic aging differences between Wichí and Criollos from Argentina: Insights from genomic history and ecology.

Author

Iannuzzi V, Sarno S, Sazzini M, Abondio P, Sala C, Bacalini MG, Gentilini D, Calzari L, Masciotta F, Garagnani P, Castellani G, Moretti E, Dasso MC, Sevini F, Franceschi ZA, Franceschi C, Pettener D, Luiselli D, and Giuliani C

Abstract

Background and Objectives: Epigenetic estimators based on DNA methylation levels have emerged as promising biomarkers of human aging. These estimators exhibit natural variations across human groups, but data about indigenous populations remain underrepresented in research. This study aims to investigate differences in epigenetic estimators between two distinct human populations, both residing in the Gran Chaco region of Argentina, the Native-American Wichí, and admixed Criollos who are descendants of intermarriages between Native Americans and the first European colonizers, using a population genetic approach., Methodology: We analyzed 24 Wichí (mean age: 39.2 ± 12.9 yo) and 24 Criollos (mean age: 41.1 ± 14.0 yo) for DNA methylation levels using the Infinium MethylationEPIC (Illumina) to calculate 16 epigenetic estimators. Additionally, we examined genome-wide genetic variation using the HumanOmniExpress BeadChip (Illumina) to gain insights into the genetic history of these populations., Results: Our results indicate that Native-American Wichí are epigenetically older compared to Criollos according to five epigenetic estimators. Analyses within the Criollos population reveal that global ancestry does not influence the differences observed, while local (chromosomal) ancestry shows positive associations between specific SNPs located in genomic regions over-represented by Native-American ancestry and measures of epigenetic age acceleration (AgeAccelHannum). Furthermore, we demonstrate that differences in population ecologies also contribute to observed epigenetic differences., Conclusions and Implications: Overall, our study suggests that while the genomic history may partially account for the observed epigenetic differences, non-genetic factors, such as lifestyle and ecological factors, play a substantial role in the variability of epigenetic estimators, thereby contributing to variations in human epigenetic aging., Competing Interests: The authors declare no conflict of interests., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Foundation for Evolution, Medicine, and Public Health.)

Published

2023

32. Notch, SUMOylation, and ESR-Mediated Signalling Are the Main Molecular Pathways Showing Significantly Different Epimutation Scores between Expressing or Not Oestrogen Receptor Breast Cancer in Three Public EWAS Datasets.

Author

Corsaro L, Gentilini D, Calzari L, and Gambino VS

Abstract

Oestrogen receptor expression in breast cancer (BC) cells is a marker of high cellular differentiation and allows the identification of two BC groups (ER-positive and ER-negative) that, although not completely homogeneous, differ in biological characteristics, clinical behaviour, and therapeutic options. The study, based on three publicly available EWAS (Epigenetic Wide Association Study) datasets, focuses on the comparison between these two groups of breast cancer using an epimutation score. The score is calculated not only based on the presence of the epimutation, but also on the deviation amplitude of the methylation outlier value. For each dataset, we performed a functional analysis based first on the functional gene region of each annotated gene (we aggregated the data per gene region TSS1500, TSS200, first-exon, and body-gene identified by the information from the Illumina Data Sheet), and then, we performed a pathway enrichment analysis through the REACTOME database based on the genes with the highest epimutation score. Thus, we blended our results and found common pathways for all three datasets. We found that a higher and significant epimutation score due to hypermethylation in ER-positive BC is present in the promoter region of the genes belonging to the SUMOylation pathway, the Notch pathway, the IFN-γ signalling pathway, and the deubiquitination protease pathway, while a higher and significant level of epimutation due to hypomethylation in ER-positive BC is present in the promoter region of the genes belonging to the ESR-mediated pathway. The presence of this state of promoter hypomethylation in the ESR-mediated signalling genes is consistent and coherent with an active signalling pathway mediated by oestrogen function in the group of ER-positive BC. The SUMOylation and Notch pathways are associated with BC pathogenesis and have been found to play distinct roles in the two BC subgroups. We speculated that the altered methylation profile may play a role in regulating signalling pathways with specific functions in the two subgroups of ER BC.

Published

2023

33. Case report: atypical Silver-Russell syndrome patient with hand dystonia: the valuable support of the consensus statement to the wide syndromic spectrum.

Author

Vimercati A, Tannorella P, Orlandini E, Calzari L, Moro M, Guzzetti S, Selicorni A, Crippa M, Larizza L, Bonati MT, and Russo S

Abstract

The amount of Insulin Growth Factor 2 (IGF2) controls the rate of embryonal and postnatal growth. The IGF2 and adjacent H19 are the imprinted genes of the telomeric cluster in the 11p15 chromosomal region regulated by differentially methylated regions (DMRs) or imprinting centers (ICs): H19/IGF2:IG-DMR (IC1). Dysregulation due to IC1 Loss-of-Methylation (LoM) or Gain-of-Methyaltion (GoM) causes Silver-Russell syndrome (SRS) or Beckwith-Wiedemann syndrome (BWS) disorders associated with growth retardation or overgrowth, respectively. Specific features define each of the two syndromes, but isolated asymmetry is a common cardinal feature, which is considered sufficient for a diagnosis in the BWS spectrum. Here, we report the case of a girl with right body asymmetry, which suggested BWS spectrum. Later, BWS/SRS molecular analysis identified IC1&#95;LoM revealing the discrepant diagnosis of SRS. A clinical re-evaluation identified a relative macrocephaly and previously unidentified growth rate at lower limits of normal at birth, feeding difficulties, and asymmetry. Interestingly, and never previously described in IC1&#95;LoM SRS patients, since the age of 16, she has developed hand-writer's cramps, depression, and bipolar disorder. Trio-WES identified a VPS16 heterozygous variant [NM&#95;022575.4:c.2185C>G:p.Leu729Val] inherited from her healthy mother. VPS16 is involved in the endolysosomal system, and its dysregulation is linked to autosomal dominant dystonia with incomplete penetrance and variable expressivity. IGF2 involvement in the lysosomal pathway led us to speculate that the neurological phenotype of the proband might be triggered by the concurrent IGF2 deficit and VPS16 alteration., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Vimercati, Tannorella, Orlandini, Calzari, Moro, Guzzetti, Selicorni, Crippa, Larizza, Bonati and Russo.)

Published

2023

34. Follicular Lymphoma Microenvironment Traits Associated with Event-Free Survival.

Author

Tumedei MM, Piccinini F, Azzali I, Pirini F, Bravaccini S, De Matteis S, Agostinelli C, Castellani G, Zanoni M, Cortesi M, Vergani B, Leone BE, Righi S, Gazzola A, Casadei B, Gentilini D, Calzari L, Limarzi F, Sabattini E, Pession A, Tazzari M, and Bertuzzi C

Subjects

Humans, Progression-Free Survival, Retrospective Studies, Neoplasm Recurrence, Local, Rituximab, Tumor Microenvironment, Lymphoma, Follicular genetics, Lymphoma, Follicular pathology

Abstract

The majority of patients with Follicular Lymphoma (FL) experience subsequent phases of remission and relapse, making the disease "virtually" incurable. To predict the outcome of FL patients at diagnosis, various clinical-based prognostic scores have been proposed; nonetheless, they continue to fail for a subset of patients. Gene expression profiling has highlighted the pivotal role of the tumor microenvironment (TME) in the FL prognosis; nevertheless, there is still a need to standardize the assessment of immune-infiltrating cells for the prognostic classification of patients with early or late progressing disease. We studied a retrospective cohort of 49 FL lymph node biopsies at the time of the initial diagnosis using pathologist-guided analysis on whole slide images, and we characterized the immune repertoire for both quantity and distribution (intrafollicular, IF and extrafollicular, EF) of cell subsets in relation to clinical outcome. We looked for the natural killer (CD56), T lymphocyte (CD8, CD4, PD1) and macrophage (CD68, CD163, MA4A4A)-associated markers. High CD163/CD8 EF ratios and high CD56/MS4A4A EF ratios, according to Kaplan-Meier estimates were linked with shorter EFS (event-free survival), with the former being the only one associated with POD24. In contrast to IF CD68+ cells, which represent a more homogeneous population, higher in non-progressing patients, EF CD68+ macrophages did not stratify according to survival. We also identify distinctive MS4A4A+CD163-macrophage populations with different prognostic weights. Enlarging the macrophage characterization and combining it with a lymphoid marker in the rituximab era, in our opinion, may enable prognostic stratification for low-/high-grade FL patients beyond POD24. These findings warrant validation across larger FL cohorts.

Published

2023

35. Heterogeneity of Cellular Senescence: Cell Type-Specific and Senescence Stimulus-Dependent Epigenetic Alterations.

Author

Kwiatkowska KM, Mavrogonatou E, Papadopoulou A, Sala C, Calzari L, Gentilini D, Bacalini MG, Dall'Olio D, Castellani G, Ravaioli F, Franceschi C, Garagnani P, Pirazzini C, and Kletsas D

Subjects

Humans, Cells, Cultured, Epigenesis, Genetic, Fibroblasts metabolism, Cellular Senescence genetics, DNA Methylation genetics

Abstract

The aim of the present study was to provide a comprehensive characterization of whole genome DNA methylation patterns in replicative and ionizing irradiation- or doxorubicin-induced premature senescence, exhaustively exploring epigenetic modifications in three different human cell types: in somatic diploid skin fibroblasts and in bone marrow- and adipose-derived mesenchymal stem cells. With CpG-wise differential analysis, three epigenetic signatures were identified: (a) cell type- and treatment-specific signature; (b) cell type-specific senescence-related signature; and (c) cell type-transversal replicative senescence-related signature. Cluster analysis revealed that only replicative senescent cells created a distinct group reflecting notable alterations in the DNA methylation patterns accompanying this cellular state. Replicative senescence-associated epigenetic changes seemed to be of such an extent that they surpassed interpersonal dissimilarities. Enrichment in pathways linked to the nervous system and involved in the neurological functions was shown after pathway analysis of genes involved in the cell type-transversal replicative senescence-related signature. Although DNA methylation clock analysis provided no statistically significant evidence on epigenetic age acceleration related to senescence, a persistent trend of increased biological age in replicative senescent cultures of all three cell types was observed. Overall, this work indicates the heterogeneity of senescent cells depending on the tissue of origin and the type of senescence inducer that could be putatively translated to a distinct impact on tissue homeostasis.

Published

2023

36. Role of epigenetics in the clinical evolution of COVID-19 disease. Epigenome-wide association study identifies markers of severe outcome.

Author

Calzari L, Zanotti L, Inglese E, Scaglione F, Cavagnola R, Ranucci F, Di Blasio AM, Stefanini G, Carlo G, Parati G, and Gentilini D

Subjects

Humans, Genome-Wide Association Study methods, Epigenesis, Genetic, DNA Methylation genetics, Epigenome, COVID-19 genetics

Abstract

Background: COVID-19 has a wide spectrum of clinical manifestations and given its impact on morbidity and mortality, there is an unmet medical need to discover endogenous cellular and molecular biomarkers that predict the expected clinical course of the disease. Recently, epigenetics and especially DNA methylation have been pointed out as a promising tool for outcome prediction in several diseases., Methods and Results: Using the Illumina Infinium Methylation EPIC BeadChip850K, we investigated genome-wide differences in DNA methylation in an Italian Cohort of patients with comorbidities and compared severe (n = 64) and mild (123) prognosis. Results showed that the epigenetic signature, already present at the time of Hospital admission, can significantly predict risk of severe outcomes. Further analyses provided evidence of an association between age acceleration and a severe prognosis after COVID-19 infection. The burden of Stochastic Epigenetic Mutation (SEMs) has been significantly increased in patients with poor prognosis. Results have been replicated in silico considering COVID-19 negative subjects and available previously published datasets., Conclusions: Using original methylation data and taking advantage of already published datasets, we confirmed in the blood that epigenetics is actively involved in immune response after COVID-19 infection, allowing the identification of a specific signature able to discriminate the disease evolution. Furthermore, the study showed that epigenetic drift and age acceleration are associated with severe prognosis. All these findings prove that host epigenetics undergoes notable and specific rearrangements to respond to COVID-19 infection which can be used for a personalized, timely, and targeted management of COVID-19 patients during the first stages of hospitalization., (© 2023. The Author(s).)

Published

2023

37. Epigenetics of Autism Spectrum Disorders: A Multi-level Analysis Combining Epi-signature, Age Acceleration, Epigenetic Drift and Rare Epivariations Using Public Datasets.

Author

Gentilini D, Cavagnola R, Possenti I, Calzari L, Ranucci F, Nola M, Olivola M, Brondino N, and Politi P

Subjects

Humans, DNA Methylation, Epigenesis, Genetic, Brain metabolism, Neurons metabolism, Autism Spectrum Disorder genetics

Abstract

Background: Epigenetics of Autism Spectrum Disorders (ASD) is still an understudied field. The majority of the studies on the topic used an approach based on mere classification of cases and controls., Objective: The present study aimed at providing a multi-level approach in which different types of epigenetic analysis (epigenetic drift, age acceleration) are combined., Methods: We used publicly available datasets from blood (n = 3) and brain tissues (n = 3), separately. Firstly, we evaluated for each dataset and meta-analyzed the differential methylation profile between cases and controls. Secondly, we analyzed age acceleration, epigenetic drift and rare epigenetic variations., Results: We observed a significant epi-signature of ASD in blood but not in brain specimens. We did not observe significant age acceleration in ASD, while epigenetic drift was significantly higher compared to controls. We reported the presence of significant rare epigenetic variations in 41 genes, 35 of which were never associated with ASD. Almost all genes were involved in pathways linked to ASD etiopathogenesis (i.e., neuronal development, mitochondrial metabolism, lipid biosynthesis and antigen presentation)., Conclusion: Our data support the hypothesis of the use of blood epi-signature as a potential tool for diagnosis and prognosis of ASD. The presence of an enhanced epigenetic drift, especially in brain, which is linked to cellular replication, may suggest that alteration in epigenetics may occur at a very early developmental stage (i.e., fetal) when neuronal replication is still high., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2023

38. Correction: Rondinone et al. Extensive Placental Methylation Profiling in Normal Pregnancies. Int. J. Mol. Sci. 2021, 22 , 2136.

Author

Rondinone O, Murgia A, Costanza J, Tabano S, Camanni M, Corsaro L, Fontana L, Colapietro P, Calzari L, Motta S, Santaniello C, Radaelli T, Ferrazzi E, Bosari S, Gentilini D, Sirchia SM, and Miozzo M

Abstract

In the original publication [...].

Published

2022

39. Germline variants in genes of the subcortical maternal complex and Multilocus Imprinting Disturbance are associated with miscarriage/infertility or Beckwith-Wiedemann progeny.

Author

Tannorella P, Calzari L, Daolio C, Mainini E, Vimercati A, Gentilini D, Soli F, Pedrolli A, Bonati MT, Larizza L, and Russo S

Subjects

DNA Methylation, Female, Genomic Imprinting, Germ Cells, Humans, Pregnancy, Abortion, Spontaneous genetics, Beckwith-Wiedemann Syndrome genetics, Infertility genetics

Abstract

Beckwith-Wiedemann syndrome (BWS, OMIM # 130650) is an imprinting disorder, associated with overgrowth and increased risk of embryonal tumors. Patients carrying hypomethylation in the KCNQ1OT1:TSS DMR (11p15.5) show MLID (Multilocus Imprinting Disturbance) upon epimutations at other imprinted regions. Few cases of BWS MLID's mothers with biallelic pathogenetic variants in maternal effect genes, mainly components of the subcortical maternal complex, are reported. We describe two families, one with a history of conception difficulties with a novel homozygous nonsense NLRP2 variant and another experiencing 8 miscarriages with a compound heterozygous PADI6 variant., (© 2022. The Author(s).)

Published

2022

40. Trans-acting genetic variants causing multilocus imprinting disturbance (MLID): common mechanisms and consequences.

Author

Eggermann T, Yapici E, Bliek J, Pereda A, Begemann M, Russo S, Tannorella P, Calzari L, de Nanclares GP, Lombardi P, Temple IK, Mackay D, Riccio A, Kagami M, Ogata T, Lapunzina P, Monk D, Maher ER, and Tümer Z

Subjects

Adaptor Proteins, Signal Transducing genetics, CCAAT-Enhancer-Binding Proteins genetics, DNA Methylation, Female, Genomic Imprinting, Humans, Maternal Inheritance, Pregnancy, Ubiquitin-Protein Ligases genetics, Beckwith-Wiedemann Syndrome genetics, Silver-Russell Syndrome diagnosis, Silver-Russell Syndrome genetics

Abstract

Background: Imprinting disorders are a group of congenital diseases which are characterized by molecular alterations affecting differentially methylated regions (DMRs). To date, at least twelve imprinting disorders have been defined with overlapping but variable clinical features including growth and metabolic disturbances, cognitive dysfunction, abdominal wall defects and asymmetry. In general, a single specific DMR is affected in an individual with a given imprinting disorder, but there are a growing number of reports on individuals with so-called multilocus imprinting disturbances (MLID), where aberrant imprinting marks (most commonly loss of methylation) occur at multiple DMRs. However, as the literature is fragmented, we reviewed the molecular and clinical data of 55 previously reported or newly identified MLID families with putative pathogenic variants in maternal effect genes (NLRP2, NLRP5, NLRP7, KHDC3L, OOEP, PADI6) and in other candidate genes (ZFP57, ARID4A, ZAR1, UHRF1, ZNF445)., Results: In 55 families, a total of 68 different candidate pathogenic variants were identified (7 in NLRP2, 16 in NLRP5, 7 in NLRP7, 17 in PADI6, 15 in ZFP57, and a single variant in each of the genes ARID4A, ZAR1, OOEP, UHRF1, KHDC3L and ZNF445). Clinical diagnoses of affected offspring included Beckwith-Wiedemann syndrome spectrum, Silver-Russell syndrome spectrum, transient neonatal diabetes mellitus, or they were suspected for an imprinting disorder (undiagnosed). Some families had recurrent pregnancy loss., Conclusions: Genomic maternal effect and foetal variants causing MLID allow insights into the mechanisms behind the imprinting cycle of life, and the spatial and temporal function of the different factors involved in oocyte maturation and early development. Further basic research together with identification of new MLID families will enable a better understanding of the link between the different reproductive issues such as recurrent miscarriages and preeclampsia in maternal effect variant carriers/families and aneuploidy and the MLID observed in the offsprings. The current knowledge can already be employed in reproductive and genetic counselling in specific situations., (© 2022. The Author(s).)

Published

2022

41. Genes for RNA-binding proteins involved in neural-specific functions and diseases are downregulated in Rubinstein-Taybi iNeurons.

Author

Larizza L, Calzari L, Alari V, and Russo S

Abstract

Taking advantage of the fast-growing knowledge of RNA-binding proteins (RBPs) we review the signature of downregulated genes for RBPs in the transcriptome of induced pluripotent stem cell neurons (iNeurons) modelling the neurodevelopmental Rubinstein Taybi Syndrome (RSTS) caused by mutations in the genes encoding CBP/p300 acetyltransferases. We discuss top and functionally connected downregulated genes sorted to "RNA processing" and "Ribonucleoprotein complex biogenesis" Gene Ontology clusters. The first set of downregulated RBPs includes members of hnRNHP (A1, A2B1, D, G, H2-H1, MAGOHB, PAPBC), core subunits of U small nuclear ribonucleoproteins and Serine-Arginine splicing regulators families, acting in precursor messenger RNA alternative splicing and processing. Consistent with literature findings on reduced transcript levels of serine/arginine repetitive matrix 4 (SRRM4) protein, the main regulator of the neural-specific microexons splicing program upon depletion of Ep300 and Crebbp in mouse neurons, RSTS iNeurons show downregulated genes for proteins impacting this network. We link downregulated genes to neurological disorders including the new HNRNPH1-related intellectual disability syndrome with clinical overlap to RSTS. The set of downregulated genes for Ribosome biogenesis includes several components of ribosomal subunits and nucleolar proteins, such NOP58 and fibrillarin that form complexes with snoRNAs with a central role in guiding post-transcriptional modifications needed for rRNA maturation. These nucleolar proteins are "dual" players as fibrillarin is also required for epigenetic regulation of ribosomal genes and conversely NOP58-associated snoRNA levels are under the control of NOP58 interactor BMAL1, a transcriptional regulator of the circadian rhythm. Additional downregulated genes for "dual specificity" RBPs such as RUVBL1 and METTL1 highlight the links between chromatin and the RBP-ome and the contribution of perturbations in their cross-talk to RSTS. We underline the hub position of CBP/p300 in chromatin regulation, the impact of its defect on neurons' post-transcriptional regulation of gene expression and the potential use of epidrugs in therapeutics of RBP-caused neurodevelopmental disorders., Competing Interests: None

Published

2022

42. Interconnected Gene Networks Underpin the Clinical Overlap of HNRNPH1 -Related and Rubinstein-Taybi Intellectual Disability Syndromes.

Author

Larizza L, Alari V, Calzari L, and Russo S

Abstract

Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2021

43. Maternal Uniparental Disomy of Chromosome 20 (UPD(20)mat) as Differential Diagnosis of Silver Russell Syndrome: Identification of Three New Cases.

Author

Tannorella P, Minervino D, Guzzetti S, Vimercati A, Calzari L, Patti G, Maghnie M, Allegri AEM, Milani D, Scuvera G, Mariani M, Modena P, Selicorni A, Larizza L, and Russo S

Subjects

Adult, Child, Diagnosis, Differential, Female, Genomic Imprinting, Humans, Infant, Male, Maternal Age, Maternal Inheritance, Pathology, Molecular, Pedigree, Phenotype, Silver-Russell Syndrome genetics, Chromogranins genetics, Chromosomes, Human, Pair 20 genetics, GTP-Binding Protein alpha Subunits, Gs genetics, Silver-Russell Syndrome diagnosis, Uniparental Disomy genetics

Abstract

Silver Russell Syndrome (SRS, MIM #180860) is a rare growth retardation disorder in which clinical diagnosis is based on six features: pre- and postnatal growth failure, relative macrocephaly, prominent forehead, body asymmetry, and feeding difficulties (Netchine-Harbison clinical scoring system (NH-CSS)). The molecular mechanisms consist in (epi)genetic deregulations at multiple loci: the loss of methylation (LOM) at the paternal H19/IGF2 :IG-DMR (chr11p15.5) (50%) and the maternal uniparental disomy of chromosome 7 (UPD(7)mat) (10%) are the most frequent causes. Thus far, about 40% of SRS remains undiagnosed, pointing to the need to define the rare mechanisms in such a consistent fraction of unsolved patients. Within a cohort of 176 SRS with an NH-CSS ≥ 3, a molecular diagnosis was disclosed in about 45%. Among the remaining patients, we identified in 3 probands (1.7%) with UPD(20)mat (Mulchandani-Bhoj-Conlin syndrome, OMIM #617352), a molecular mechanism deregulating the GNAS locus and described in 21 cases, characterized by severe feeding difficulties associated with failure to thrive, preterm birth, and intrauterine/postnatal growth retardation. Our patients share prominent forehead, feeding difficulties, postnatal growth delay, and advanced maternal age. Their clinical assessment and molecular diagnostic flowchart contribute to better define the characteristics of this rare imprinting disorder and to rank UPD(20)mat as the fourth most common pathogenic molecular defect causative of SRS.

Published

2021

44. Extensive Placental Methylation Profiling in Normal Pregnancies.

Author

Rondinone O, Murgia A, Costanza J, Tabano S, Camanni M, Corsaro L, Fontana L, Colapietro P, Calzari L, Motta S, Santaniello C, Radaelli T, Ferrazzi E, Bosari S, Gentilini D, Sirchia SM, and Miozzo M

Subjects

Adult, Female, Humans, Infant, Newborn, Long Interspersed Nucleotide Elements genetics, Molecular Sequence Annotation, Pregnancy, Principal Component Analysis, DNA Methylation genetics, Placenta metabolism

Abstract

The placental methylation pattern is crucial for the regulation of genes involved in trophoblast invasion and placental development, both key events for fetal growth. We investigated LINE-1 methylation and methylome profiling using a methylation EPIC array and the targeted methylation sequencing of 154 normal, full-term pregnancies, stratified by birth weight percentiles. LINE-1 methylation showed evidence of a more pronounced hypomethylation in small neonates compared with normal and large for gestational age. Genome-wide methylation, performed in two subsets of pregnancies, showed very similar methylation profiles among cord blood samples while placentae from different pregnancies appeared very variable. A unique methylation profile emerged in each placenta, which could represent the sum of adjustments that the placenta made during the pregnancy to preserve the epigenetic homeostasis of the fetus. Investigations into the 1000 most variable sites between cord blood and the placenta showed that promoters and gene bodies that are hypermethylated in the placenta are associated with blood-specific functions, whereas those that are hypomethylated belong mainly to pathways involved in cancer. These features support the functional analogies between a placenta and cancer. Our results, which provide a comprehensive analysis of DNA methylation profiling in the human placenta, suggest that its peculiar dynamicity can be relevant for understanding placental plasticity in response to the environment.

Published

2021

45. Genome-Wide DNA Methylation Analysis of a Cohort of 41 Patients Affected by Oculo-Auriculo-Vertebral Spectrum (OAVS).

Author

Guida V, Calzari L, Fadda MT, Piceci-Sparascio F, Digilio MC, Bernardini L, Brancati F, Mattina T, Melis D, Forzano F, Briuglia S, Mazza T, Bianca S, Valente EM, Salehi LB, Prontera P, Pagnoni M, Tenconi R, Dallapiccola B, Iannetti G, Corsaro L, De Luca A, and Gentilini D

Subjects

Computational Biology methods, CpG Islands, Female, Gene Expression Profiling, Genetic Association Studies, Genetic Predisposition to Disease, Humans, Male, Molecular Sequence Annotation, Phenotype, DNA Methylation, Epigenesis, Genetic, Genome-Wide Association Study methods, Goldenhar Syndrome diagnosis, Goldenhar Syndrome genetics

Abstract

Oculo-auriculo-vertebral-spectrum (OAVS; OMIM 164210) is a rare disorder originating from abnormal development of the first and second branchial arch. The clinical phenotype is extremely heterogeneous with ear anomalies, hemifacial microsomia, ocular defects, and vertebral malformations being the main features. MYT1 , AMIGO2 , and ZYG11B gene variants were reported in a few OAVS patients, but the etiology remains largely unknown. A multifactorial origin has been proposed, including the involvement of environmental and epigenetic mechanisms. To identify the epigenetic mechanisms contributing to OAVS, we evaluated the DNA-methylation profiles of 41 OAVS unrelated affected individuals by using a genome-wide microarray-based methylation approach. The analysis was first carried out comparing OAVS patients with controls at the group level. It revealed a moderate epigenetic variation in a large number of genes implicated in basic chromatin dynamics such as DNA packaging and protein-DNA organization. The alternative analysis in individual profiles based on the searching for Stochastic Epigenetic Variants (SEV) identified an increased number of SEVs in OAVS patients compared to controls. Although no recurrent deregulated enriched regions were found, isolated patients harboring suggestive epigenetic deregulations were identified. The recognition of a different DNA methylation pattern in the OAVS cohort and the identification of isolated patients with suggestive epigenetic variations provide consistent evidence for the contribution of epigenetic mechanisms to the etiology of this complex and heterogeneous disorder.

Published

2021

46. Ring Chromosome 20 Syndrome: Genetics, Clinical Characteristics, and Overlapping Phenotypes.

Author

Peron A, Catusi I, Recalcati MP, Calzari L, Larizza L, Vignoli A, and Canevini MP

Abstract

Ring chromosome 20 [r(20)] syndrome is a rare condition characterized by a non-supernumerary ring chromosome 20 replacing a normal chromosome 20. It is commonly seen in a mosaic state and is diagnosed by means of karyotyping. r(20) syndrome is characterized by a recognizable epileptic phenotype with typical EEG pattern, intellectual disability manifesting after seizure onset in otherwise normally developing children, and behavioral changes. Despite the distinctive phenotype, many patients still lack a diagnosis-especially in the genomic era-and the pathomechanisms of ring formation are poorly understood. In this review we address the genetic and clinical aspects of r(20) syndrome, and discuss differential diagnoses and overlapping phenotypes, providing the reader with useful tools for clinical and laboratory practice. We also discuss the current issues in understanding the mechanisms through which ring 20 chromosome causes the typical manifestations, and present unpublished data about methylation studies. Ultimately, we explore future perspectives of r(20) research. Our intended audience is clinical and laboratory geneticists, child and adult neurologists, and genetic counselors., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Peron, Catusi, Recalcati, Calzari, Larizza, Vignoli and Canevini.)

Published

2020

47. Loss-of-function maternal-effect mutations of PADI6 are associated with familial and sporadic Beckwith-Wiedemann syndrome with multi-locus imprinting disturbance.

Author

Cubellis MV, Pignata L, Verma A, Sparago A, Del Prete R, Monticelli M, Calzari L, Antona V, Melis D, Tenconi R, Russo S, Cerrato F, and Riccio A

Subjects

Adolescent, Adult, Beckwith-Wiedemann Syndrome diagnosis, Child, Preschool, Female, Genomic Imprinting genetics, Heterozygote, Humans, Hydatidiform Mole epidemiology, Hydatidiform Mole genetics, Infant, Infertility, Female epidemiology, Infertility, Female genetics, Male, Mutation, Oocytes metabolism, Pedigree, Phenotype, Pregnancy, Siblings, Exome Sequencing methods, Beckwith-Wiedemann Syndrome genetics, DNA Methylation genetics, Maternal Inheritance genetics, Protein-Arginine Deiminase Type 6 genetics

Abstract

Background: PADI6 is a component of the subcortical maternal complex, a group of proteins that is abundantly expressed in the oocyte cytoplasm, but is required for the correct development of early embryo. Maternal-effect variants of the subcortical maternal complex proteins are associated with heterogeneous diseases, including female infertility, hydatidiform mole, and imprinting disorders with multi-locus imprinting disturbance. While the involvement of PADI6 in infertility is well demonstrated, its role in imprinting disorders is less well established., Results: We have identified by whole-exome sequencing analysis four cases of Beckwith-Wiedemann syndrome with multi-locus imprinting disturbance whose mothers are carriers of PADI6 variants. In silico analysis indicates that these variants result in loss of function, and segregation analysis suggests they act as either recessive or dominant-negative maternal-effect mutations. Genome-wide methylation analysis revealed heterogeneous and extensively altered methylation profiles of imprinted loci in the patients, including two affected sisters, but not in their healthy siblings., Conclusion: Our results firmly establish the role of PADI6 in imprinting disorders. We report loss-of-function maternal-effect variants of PADI6 that are associated with heterogeneous multi-locus imprinting disturbances in the progeny. The rare finding of two siblings affected by Beckwith-Wiedemann syndrome suggests that in some cases, familial recurrence risk of these variants may be high. However, the heterogeneous phenotypes of the other pedigrees suggest that altered oocyte PADI6 function results in stochastic maintenance of methylation imprinting with unpredictable consequences on early embryo health.

Published

2020

48. Epigenome Wide Association and Stochastic Epigenetic Mutation Analysis on Cord Blood of Preterm Birth.

Author

Spada E, Calzari L, Corsaro L, Fazia T, Mencarelli M, Di Blasio AM, Bernardinelli L, Zangheri G, Vignali M, and Gentilini D

Subjects

DNA Methylation, DNA Mutational Analysis, Epigenesis, Genetic, Female, Genome-Wide Association Study, Humans, Infant, Infant, Newborn, Male, Mutation, Stochastic Processes, Epigenome, Premature Birth genetics

Abstract

Preterm birth (PTB) can be defined as the endpoint of a complex process that could be influenced by maternal and environmental factors. Epigenetics recently emerged as an interesting field of investigation since it represents an important mechanism of regulation. This study evaluates epigenetic impact of preterm birth on DNA methylation. Genome-wide DNAm was measured using the Illumina 450K array in cord blood samples obtained from 72 full term and 18 preterm newborns. Lymphocyte composition was calculated based on specific epigenetic markers that are present on the 450k array. Differential methylation analysis was performed both at site and region level; moreover, stochastic epigenetic mutations (SEMs) were also evaluated. The study showed significant differences in blood cell composition between the two groups. Moreover, after multiple testing correction, statistically significant differences in DNA methylation levels emerged between the two groups both at site and region levels. Results obtained were compared to those reported by previous EWAS, leading to a list of more consistent genes associated with PTB. Finally, the SEMs analysis revealed that the burden of SEMs resulted significantly higher in the preterm group. In conclusion, PTB resulted associated to specific epigenetic signatures that involve immune system. Moreover, SEMs analysis revealed an increased epigenetic drift at birth in the preterm group.

Published

2020

49. Molecular Etiology Disclosed by Array CGH in Patients With Silver-Russell Syndrome or Similar Phenotypes.

Author

Crippa M, Bonati MT, Calzari L, Picinelli C, Gervasini C, Sironi A, Bestetti I, Guzzetti S, Bellone S, Selicorni A, Mussa A, Riccio A, Ferrero GB, Russo S, Larizza L, and Finelli P

Abstract

Introduction: Silver-Russell syndrome (SRS) is an imprinting disorder primarily caused by genetic and epigenetic aberrations on chromosomes 11 and 7. SRS is a rare growth retardation disorder often misdiagnosed due to its heterogeneous and non-specific clinical features. The Netchine-Harbison clinical scoring system (NH-CSS) is the recommended tool for differentiating patients into clinical SRS or unlikely SRS. However, the clinical diagnosis is molecularly confirmed only in about 60% of patients, leaving the remaining substantial proportion of SRS patients with unknown genetic etiology. Materials and Methods: A cohort of 34 Italian patients with SRS or SRS-like features scored according to the NH-CSS and without any SRS-associated (epi)genetic alterations was analyzed by high-resolution array-based comparative genomic hybridization (CGH) in order to identify potentially pathogenic copy number variants (CNVs). Results and Discussion: In seven patients, making up 21% of the initial cohort, five pathogenic and two potentially pathogenic CNVs were found involving distinct genomic regions either previously associated with growth delay conditions (1q24.3-q25.3, 17p13.3, 17q22, and 22q11.2-q11.22) and with SRS spectrum (7p12.1 and 7p15.3-p14.3) or outlined for the first time (19q13.42), providing a better definition of reported and as yet unreported SRS overlapping syndromes. All the variants involve genes with a defined role in growth pathways, and for two genes mapping at 7p, IGF2BP3 and GRB10 , the association with SRS turns out to be reinforced. The deleterious effect of the two potentially pathogenic variants, comprising GRB10 and ZNF331 genes, was explored by targeted approaches, though further studies are needed to validate their pathogenic role in the SRS etiology. In conclusion, we reconfirm the utility of performing a genome-wide scan to achieve a differential diagnosis in patients with SRS or similar features and to highlight novel chromosome alterations associated with SRS and growth retardation disorders., (Copyright © 2019 Crippa, Bonati, Calzari, Picinelli, Gervasini, Sironi, Bestetti, Guzzetti, Bellone, Selicorni, Mussa, Riccio, Ferrero, Russo, Larizza and Finelli.)

Published

2019

50. Generation of three iPSC lines (IAIi002, IAIi004, IAIi003) from Rubinstein-Taybi syndrome 1 patients carrying CREBBP non sense c.4435G>T, p.(Gly1479*) and c.3474G>A, p.(Trp1158*) and missense c.4627G>T, p.(Asp1543Tyr) mutations.

Author

Alari V, Russo S, Rovina D, Garzo M, Crippa M, Calzari L, Scalera C, Concolino D, Castiglioni E, Giardino D, Prosperi E, Finelli P, Gervasini C, Gowran A, and Larizza L

Subjects

Adolescent, Base Sequence, CREB-Binding Protein metabolism, Cell Differentiation, Cell Line cytology, Female, Heterozygote, Humans, Induced Pluripotent Stem Cells cytology, Male, Point Mutation, Rubinstein-Taybi Syndrome metabolism, Rubinstein-Taybi Syndrome physiopathology, CREB-Binding Protein genetics, Cell Line metabolism, Induced Pluripotent Stem Cells metabolism, Mutation, Missense, Rubinstein-Taybi Syndrome genetics

Abstract

Rubinstein-Taybi syndrome (RSTS) is a neurodevelopmental disorder characterized by growth retardation, skeletal anomalies and intellectual disability, caused by heterozygous mutations in either CREBBP (RSTS1) or EP300 (RSTS2) genes. We characterized 3 iPSC lines generated by Sendai from blood of RSTS1 patients with unique non sense c.4435G > T, p.(Gly1479*), c.3474G > A, p.(Trp1158*) and missense c.4627G > T, p.(Asp1543Tyr) CREBBP mutations. All lines displayed iPSC morphology, pluripotency markers, trilineage differentiation potential, stable karyotype and specific mutations. Western-blot using a CREB-Binding Protein N-terminus antibody demonstrated the same amount of full length protein as control in the missense mutation line and reduced amount in lines with stop mutations., (Copyright © 2019 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2019