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

Author

Bacchelli, Elena, primary, Viggiano, Marta, additional, Ceroni, Fabiola, additional, Visconti, Paola, additional, Posar, Annio, additional, Scaduto, Maria, additional, Sandoni, Laura, additional, Baravelli, Irene, additional, Cameli, Cinzia, additional, Rochat, Magali, additional, Maresca, Alessandra, additional, Vaisfeld, Alessandro, additional, Gentilini, Davide, additional, Calzari, Luciano, additional, Carelli, Valerio, additional, Zody, Michael, additional, and Maestrini, Elena, additional

Published
2023
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5. Dissecting the multifaceted contribution of the mitochondrial genome to autism spectrum disorder

Author

Caporali, Leonardo, primary, Fiorini, Claudio, additional, Palombo, Flavia, additional, Romagnoli, Martina, additional, Baccari, Flavia, additional, Zenesini, Corrado, additional, Visconti, Paola, additional, Posar, Annio, additional, Scaduto, Maria Cristina, additional, Ormanbekova, Danara, additional, Battaglia, Agatino, additional, Tancredi, Raffaella, additional, Cameli, Cinzia, additional, Viggiano, Marta, additional, Olivieri, Anna, additional, Torroni, Antonio, additional, Maestrini, Elena, additional, Rochat, Magali Jane, additional, Bacchelli, Elena, additional, Carelli, Valerio, additional, and Maresca, Alessandra, additional

Published
2022
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7. Contribution of CACNA1H Variants in Autism Spectrum Disorder Susceptibility

Author

Viggiano, Marta, primary, D'Andrea, Tiziano, additional, Cameli, Cinzia, additional, Posar, Annio, additional, Visconti, Paola, additional, Scaduto, Maria Cristina, additional, Colucci, Roberta, additional, Rochat, Magali J., additional, Ceroni, Fabiola, additional, Milazzo, Giorgio, additional, Fucile, Sergio, additional, Maestrini, Elena, additional, and Bacchelli, Elena, additional

Published
2022
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9. Contribution of ultrarare variants in mTOR pathway genes to sporadic focal epilepsies

Author

Pippucci, Tommaso, Licchetta, Laura, Baldassari, Sara, Marconi, Caterina, De Luise, Monica, Myers, Candace, Nardi, Elena, Provini, Federica, Cameli, Cinzia, Minardi, Raffaella, Bacchelli, Elena, Giordano, Lucio, Crichiutti, Giovanni, D'Orsi, Giuseppe, Seri, Marco, Gasparre, Giuseppe, Mefford, Heather C., Tinuper, Paolo, Bisulli, Francesca, Bianchi, Amedeo, Striano, Pasquale, Gambardella, Antonio, Meletti, Stefano, Dilena, Roberto, Santucci, Margherita, Marini, Carla, Vignoli, Aglaia, Gobbi, Giuseppe, Briatore, Eleonora, Mastrangelo, Massimo, Pippucci, Tommaso, Licchetta, Laura, Baldassari, Sara, Marconi, Caterina, De Luise, Monica, Myers, Candace, Nardi, Elena, Provini, Federica, Cameli, Cinzia, Minardi, Raffaella, Bacchelli, Elena, Giordano, Lucio, Crichiutti, Giovanni, d'Orsi, Giuseppe, Seri, Marco, Gasparre, Giuseppe, Mefford, Heather C., Tinuper, Paolo, Bisulli, Francesca, and Santucci, Margherita

Subjects
focal epilepsy, 0301 basic medicine, Male, Epilepsies, Tuberous Sclerosis Complex 1 Protein, Whole Exome Sequencing, 0302 clinical medicine, Neuroscience (all), Neurology (clinical), Medicine, Child, Exome sequencing, Research Articles, Genetics, biology, General Neuroscience, GTPase-Activating Proteins, Middle Aged, DEPDC5, Child, Preschool, mTOR, symbols, Female, Research Article, Partial, Signal Transduction, Adult, Adolescent, Mechanistic Target of Rapamycin Complex 1, 03 medical and health sciences, symbols.namesake, Exome Sequencing, Tuberous Sclerosis Complex 2 Protein, Humans, Genetic Predisposition to Disease, Preschool, Mechanistic target of rapamycin, Gene, PI3K/AKT/mTOR pathway, Loss function, business.industry, Infant, 030104 developmental biology, Multiprotein Complexes, Genomic Structural Variation, Mendelian inheritance, biology.protein, Epilepsies, Partial, TSC2, business, 030217 neurology & neurosurgery
Abstract

Objective We investigated the contribution to sporadic focal epilepsies (FE) of ultrarare variants in genes coding for the components of complexes regulating mechanistic Target Of Rapamycin (mTOR)complex 1 (mTORC1). Methods We collected genetic data of 121 Italian isolated FE cases and 512 controls by Whole Exome Sequencing (WES) and single‐molecule Molecular Inversion Probes (smMIPs) targeting 10 genes of the GATOR1, GATOR2, and TSC complexes. We collapsed “qualifying” variants (ultrarare and predicted to be deleterious or loss of function) across the examined genes and sought to identify their enrichment in cases compared to controls. Results We found eight qualifying variants in cases and nine in controls, demonstrating enrichment in FE patients (P = 0.006; exact unconditional test, one‐tailed). Pathogenic variants were identified in DEPDC5 and TSC2, both major genes for Mendelian FE syndromes. Interpretation Our findings support the contribution of ultrarare variants in genes in the mTOR pathway complexes GATOR and TSC to the risk of sporadic FE and a shared genetic basis between rare and common epilepsies. The identification of a monogenic etiology in isolated cases, most typically encountered in clinical practice, may offer to a broader community of patients the perspective of precision therapies directed by the underlying genetic cause.

Published
2019
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10. An increased burden of rare exonic variants in NRXN1 microdeletion carriers is likely to enhance the penetrance for autism spectrum disorder

Author

Cameli, Cinzia, primary, Viggiano, Marta, additional, Rochat, Magali J., additional, Maresca, Alessandra, additional, Caporali, Leonardo, additional, Fiorini, Claudio, additional, Palombo, Flavia, additional, Magini, Pamela, additional, Duardo, Renée C., additional, Ceroni, Fabiola, additional, Scaduto, Maria C., additional, Posar, Annio, additional, Seri, Marco, additional, Carelli, Valerio, additional, Visconti, Paola, additional, Bacchelli, Elena, additional, and Maestrini, Elena, additional

Published
2021
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13. Investigation of genetic risk variants for nicotine dependence and cluster headache

Author

Cameli, Cinzia

Subjects
BIO/18 Genetica
Abstract

The main focus of my PhD has been the analysis of rare and common variants in genetic susceptibility to two complex traits: nicotine dependence (ND) and cluster headache (CH). Firstly, we conducted a genetic study to investigate the role of genetic variation at CHRNA7 and CHRFAM7A in smoking phenotypes, and to test the hypothesis that 7nAChR variation may modulate the efficacy of varenicline in smoking cessation. The study was performed on 408 regular tobacco smokers, recruited at smoking cessation centers, including 142 individuals treated with varenicline. We determined the CHRNA7 and CHRFAM7A copy number, the rs67158670 genotypes in CHRFAM7A and we resequenced the CHRNA7 proximal promoter. Our results point to a role for CHRNA7 promoter variants in tobacco addiction mechanisms; moreover, our study provides the first evidence that CHRFAM7A copy number variation could affect the response to varenicline treatment. Secondly, In order to investigate the genetic background of CH we performed a genome-wide association analysis on 99 Italian CH patients and 359 controls, using the Infinium PsychArray (Illumina). SNPs genotyping data were used to conduct genome-wide single marker case-control association analysis using common SNPs. Even if no genome-wide significant loci were reported, this analysis led to the identification of a suggestive association with a common variant of the PACAP receptor gene (ADCYAP1R1). Furthermore, we performed a gene-based association analysis considering rare protein altering variants in 745 candidate genes with a possible role in CH. This analysis provided evidence of association for a rare potentially damaging missense variant in the MME gene. ADCYAP1R1 and MME both represent very interesting candidate genes for CH, as their gene products are known to have an important function in pain mechanisms; thus, our study provides the first evidence that genetic variation in genes related to pain processing might have a role in CH susceptibility.

Published
2018
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15. Analysis of a Sardinian Multiplex Family with Autism Spectrum Disorder Points to Post-Synaptic Density Gene Variants and Identifies CAPG as a Functionally Relevant Candidate Gene

Author

Bacchelli, Elena, primary, Loi, Eleonora, additional, Cameli, Cinzia, additional, Moi, Loredana, additional, Vega Benedetti, Ana, additional, Blois, Sylvain, additional, Fadda, Antonio, additional, Bonora, Elena, additional, Mattu, Sandra, additional, Fadda, Roberta, additional, Chessa, Rita, additional, Maestrini, Elena, additional, Doneddu, Giuseppe, additional, and Zavattari, Patrizia, additional

Published
2019
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16. ELMOD3‐SH2D6 gene fusion as a possible co‐star actor in autism spectrum disorder scenario.

Author

Loi, Eleonora, Moi, Loredana, Blois, Sylvain, Bacchelli, Elena, Vega Benedetti, Ana Florencia, Cameli, Cinzia, Fadda, Roberta, Maestrini, Elena, Carta, Marinella, Doneddu, Giuseppe, and Zavattari, Patrizia

Subjects
AUTISM spectrum disorders, GENE fusion, DNA copy number variations, GENETIC regulation, CHIMERIC proteins, 22Q11 deletion syndrome
Abstract

Autism spectrum disorder (ASD) is a group of neurodevelopmental disorders characterized by high heritability. It is known that genetic factors contribute to ASD pathogenesis. In particular, copy number variants (CNVs) are involved in ASD susceptibility and can affect gene expression regulation. 2p11.2 microdeletions encompassing ELMOD3, CAPG and SH2D6 genes have been described in four unrelated ASD families. The present study revealed that this microdeletion is responsible for the production of a chimeric transcript generated from the fusion between ELMOD3 and SH2D6. The identified transcript showed significantly higher expression levels in subjects carrying the deletion compared to control subjects, suggesting that it is not subjected to nonsense‐mediated decay and might encode for a chimeric protein. In conclusion, this study suggests the possible involvement of this gene fusion, together with the other previously identified variants, in ASD. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Integrated DNA methylation analysis identifies topographical and tumoral biomarkers in pilocytic astrocytomas

Author

Antonelli, Manila, primary, Fadda, Antonio, additional, Loi, Eleonora, additional, Moi, Loredana, additional, Zavattari, Cesare, additional, Sulas, Pia, additional, Gentilini, Davide, additional, Cameli, Cinzia, additional, Bacchelli, Elena, additional, Badiali, Manuela, additional, Arcella, Antonella, additional, Morra, Isabella, additional, Giangaspero, Felice, additional, and Zavattari, Patrizia, additional

Published
2018
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18. Investigation of genetic risk variants for nicotine dependence and cluster headache

Author

Maestrini, Elena, Cameli, Cinzia <1988>, Maestrini, Elena, and Cameli, Cinzia <1988>

Abstract

The main focus of my PhD has been the analysis of rare and common variants in genetic susceptibility to two complex traits: nicotine dependence (ND) and cluster headache (CH). Firstly, we conducted a genetic study to investigate the role of genetic variation at CHRNA7 and CHRFAM7A in smoking phenotypes, and to test the hypothesis that 7nAChR variation may modulate the efficacy of varenicline in smoking cessation. The study was performed on 408 regular tobacco smokers, recruited at smoking cessation centers, including 142 individuals treated with varenicline. We determined the CHRNA7 and CHRFAM7A copy number, the rs67158670 genotypes in CHRFAM7A and we resequenced the CHRNA7 proximal promoter. Our results point to a role for CHRNA7 promoter variants in tobacco addiction mechanisms; moreover, our study provides the first evidence that CHRFAM7A copy number variation could affect the response to varenicline treatment. Secondly, In order to investigate the genetic background of CH we performed a genome-wide association analysis on 99 Italian CH patients and 359 controls, using the Infinium PsychArray (Illumina). SNPs genotyping data were used to conduct genome-wide single marker case-control association analysis using common SNPs. Even if no genome-wide significant loci were reported, this analysis led to the identification of a suggestive association with a common variant of the PACAP receptor gene (ADCYAP1R1). Furthermore, we performed a gene-based association analysis considering rare protein altering variants in 745 candidate genes with a possible role in CH. This analysis provided evidence of association for a rare potentially damaging missense variant in the MME gene. ADCYAP1R1 and MME both represent very interesting candidate genes for CH, as their gene products are known to have an important function in pain mechanisms; thus, our study provides the first evidence that genetic variation in genes related to pain processing might have a role in CH susceptibility.

Published
2016

20. Dissecting the multifaceted contribution of the mitochondrial genome to autism spectrum disorder

Author

Leonardo Caporali, Claudio Fiorini, Flavia Palombo, Martina Romagnoli, Flavia Baccari, Corrado Zenesini, Paola Visconti, Annio Posar, Maria Cristina Scaduto, Danara Ormanbekova, Agatino Battaglia, Raffaella Tancredi, Cinzia Cameli, Marta Viggiano, Anna Olivieri, Antonio Torroni, Elena Maestrini, Magali Jane Rochat, Elena Bacchelli, Valerio Carelli, Alessandra Maresca, Caporali, Leonardo, Fiorini, Claudio, Palombo, Flavia, Romagnoli, Martina, Baccari, Flavia, Zenesini, Corrado, Visconti, Paola, Posar, Annio, Scaduto, Maria Cristina, Ormanbekova, Danara, Battaglia, Agatino, Tancredi, Raffaella, Cameli, Cinzia, Viggiano, Marta, Olivieri, Anna, Torroni, Antonio, Maestrini, Elena, Rochat, Magali Jane, Bacchelli, Elena, Carelli, Valerio, and Maresca, Alessandra

Subjects
Genetics, Molecular Medicine, mitochondrial DNA, mitochondrial haplogroups, universal heteroplasmy, autism spectrum disorder, autism risk, Genetics (clinical)
Abstract

Autism spectrum disorder (ASD) is a clinically heterogeneous class of neurodevelopmental conditions with a strong, albeit complex, genetic basis. The genetic architecture of ASD includes different genetic models, from monogenic transmission at one end, to polygenic risk given by thousands of common variants with small effects at the other end. The mitochondrial DNA (mtDNA) was also proposed as a genetic modifier for ASD, mostly focusing on maternal mtDNA, since the paternal mitogenome is not transmitted to offspring. We extensively studied the potential contribution of mtDNA in ASD pathogenesis and risk through deep next generation sequencing and quantitative PCR in a cohort of 98 families. While the maternally-inherited mtDNA did not seem to predispose to ASD, neither for haplogroups nor for the presence of pathogenic mutations, an unexpected influence of paternal mtDNA, apparently centered on haplogroup U, came from the Italian families extrapolated from the test cohort (n = 74) when compared to the control population. However, this result was not replicated in an independent Italian cohort of 127 families and it is likely due to the elevated paternal age at time of conception. In addition, ASD probands showed a reduced mtDNA content when compared to their unaffected siblings. Multivariable regression analyses indicated that variants with 15%–5% heteroplasmy in probands are associated to a greater severity of ASD based on ADOS-2 criteria, whereas paternal super-haplogroups H and JT were associated with milder phenotypes. In conclusion, our results suggest that the mtDNA impacts on ASD, significantly modifying the phenotypic expression in the Italian population. The unexpected finding of protection induced by paternal mitogenome in term of severity may derive from a role of mtDNA in influencing the accumulation of nuclear de novo mutations or epigenetic alterations in fathers’ germinal cells, affecting the neurodevelopment in the offspring. This result remains preliminary and needs further confirmation in independent cohorts of larger size. If confirmed, it potentially opens a different perspective on how paternal non-inherited mtDNA may predispose or modulate other complex diseases.

Published
2022

21. Contribution of CACNA1H Variants in Autism Spectrum Disorder Susceptibility

Author

Marta Viggiano, Tiziano D'Andrea, Cinzia Cameli, Annio Posar, Paola Visconti, Maria Cristina Scaduto, Roberta Colucci, Magali J. Rochat, Fabiola Ceroni, Giorgio Milazzo, Sergio Fucile, Elena Maestrini, Elena Bacchelli, Viggiano, Marta, D'Andrea, Tiziano, Cameli, Cinzia, Posar, Annio, Visconti, Paola, Scaduto, Maria Cristina, Colucci, Roberta, Rochat, Magali J., Ceroni, Fabiola, Milazzo, Giorgio, Fucile, Sergio, Maestrini, Elena, and Bacchelli, Elena

Subjects
Cav3.2, Psychiatry and Mental health, VGCCs, CACNA1H, mental disorders, rare variants, calcium channel, ASD, rare variants, VGCCs, CACNA1H, Cav3.2, calcium channel, ASD
Abstract

Autism Spectrum Disorder (ASD) is a highly heterogeneous neuropsychiatric disorder with a strong genetic component. The genetic architecture is complex, consisting of a combination of common low-risk and more penetrant rare variants. Voltage-gated calcium channels (VGCCs or Cav) genes have been implicated as high-confidence susceptibility genes for ASD, in accordance with the relevant role of calcium signaling in neuronal function. In order to further investigate the involvement of VGCCs rare variants in ASD susceptibility, we performed whole genome sequencing analysis in a cohort of 105 families, composed of 124 ASD individuals, 210 parents and 58 unaffected siblings. We identified 53 rare inherited damaging variants in Cav genes, including genes coding for the principal subunit and genes coding for the auxiliary subunits, in 40 ASD families. Interestingly, biallelic rare damaging missense variants were detected in the CACNA1H gene, coding for the T-type Cav3.2 channel, in ASD probands from two different families. Thus, to clarify the role of these CACNA1H variants on calcium channel activity we performed electrophysiological analysis using whole-cell patch clamp technology. Three out of four tested variants were shown to mildly affect Cav3.2 channel current density and activation properties, possibly leading to a dysregulation of intracellular Ca2+ ions homeostasis, thus altering calcium-dependent neuronal processes and contributing to ASD etiology in these families. Our results provide further support for the role of CACNA1H in neurodevelopmental disorders and suggest that rare CACNA1H variants may be involved in ASD development, providing a high-risk genetic background.

Published
2022
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22. An integrated analysis of rare CNV and exome variation in Autism Spectrum Disorder using the Infinium PsychArray

Author

Cinzia Cameli, Elena Maestrini, Marta Viggiano, Roberta Igliozzi, Agatino Battaglia, Elena Bacchelli, Alice Mancini, Raffaella Tancredi, Bacchelli, Elena, Cameli, Cinzia, Viggiano, Marta, Igliozzi, Roberta, Mancini, Alice, Tancredi, Raffaella, Battaglia, Agatino, and Maestrini, Elena

Subjects
0301 basic medicine, Proband, Male, Parents, Candidate gene, CNTNAP2, Autism Spectrum Disorder, Integrated analysi, lcsh:Medicine, Linkage Disequilibrium, 0302 clinical medicine, Gene Duplication, Exome variant, Exome, Copy-number variation, lcsh:Science, Oligonucleotide Array Sequence Analysis, Genetics, Multidisciplinary, Autism spectrum disorders, Autism spectrum disorder (ASD), Pedigree, Italy, Autism spectrum disorder, SFARI genes, Female, Risk, Heterozygote, DNA Copy Number Variations, Genotype, Copy number variants (CNVs), Genetic predisposition to disease, Biology, Polymorphism, Single Nucleotide, behavioral disciplines and activities, Article, 03 medical and health sciences, mental disorders, Infinium PsychArray, medicine, Genetic predisposition, Humans, Genetic Association Studies, Family Health, lcsh:R, Rare variant, medicine.disease, 030104 developmental biology, Autism, lcsh:Q, 030217 neurology & neurosurgery, Gene Deletion
Abstract

Autism spectrum disorder (ASD) is a neurodevelopmental condition with a complex and heterogeneous genetic etiology. While a proportion of ASD risk is attributable to common variants, rare copy-number variants (CNVs) and protein-disrupting single-nucleotide variants (SNVs) have been shown to significantly contribute to ASD etiology. We analyzed a homogeneous cohort of 127 ASD Italian families genotyped with the Illumina PsychArray, to perform an integrated analysis of CNVs and SNVs and to assess their contribution to ASD risk. We observed a higher burden of rare CNVs, especially deletions, in ASD individuals versus unaffected controls. Furthermore, we identified a significant enrichment of rare CNVs intersecting ASD candidate genes reported in the SFARI database. Family-based analysis of rare SNVs genotyped by the PsychArray also indicated an increased transmission of rare SNV variants from heterozygous parents to probands, supporting a multigenic model of ASD risk with significant contributions of both variant types. Moreover, our study reinforced the evidence for a significant role of VPS13B, WWOX, CNTNAP2, RBFOX1, MACROD2, APBA2, PARK2, GPHN, and RNF113A genes in ASD susceptibility. Finally, we showed that the PsychArray, besides providing useful genotyping data in psychiatric disorders, is a valuable and cost-efficient tool for genic CNV detection, down to 10 kb.

Published
2020

23. Analysis of a Sardinian Multiplex Family with Autism Spectrum Disorder Points to Post-Synaptic Density Gene Variants and Identifies CAPG as a Functionally Relevant Candidate Gene

Author

G. Doneddu, Eleonora Loi, Elena Bacchelli, Loredana Moi, Roberta Fadda, Antonio Fadda, Cinzia Cameli, Rita Chessa, Patrizia Zavattari, Elena Maestrini, Sandra Mattu, Ana Florencia Vega-Benedetti, Elena Bonora, Sylvain Blois, Bacchelli, Elena, Loi, Eleonora, Cameli, Cinzia, Moi, Loredana, Benedetti, Ana Florencia Vega, Blois, Sylvain, Fadda, Antonio, Bonora, Elena, Mattu, Sandra, Fadda, Roberta, Chessa, Rita, Maestrini, Elena, Doneddu, Giuseppe, and Zavattari, Patrizia

Subjects
Candidate gene, postsynaptic density proteins, lcsh:Medicine, Single-nucleotide polymorphism, autism spectrum disorder, ASD, Frameshift mutation, 03 medical and health sciences, 0302 clinical medicine, mental disorders, Missense mutation, Medicine, Copy-number variation, Gene, Loss function, Exome sequencing, 030304 developmental biology, Genetics, 0303 health sciences, business.industry, lcsh:R, General Medicine, PSD proteins, CAPG, VDAC3, business, 030217 neurology & neurosurgery, PSD protein
Abstract

Autism spectrum disorders (ASDs) are a group of neurodevelopmental disorders with high heritability, although their underlying genetic factors are still largely unknown. Here we present a comprehensive genetic characterization of two ASD siblings from Sardinia by genome-wide copy number variation analysis and whole exome sequencing (WES), to identify novel genetic alterations associated with this disorder. Single nucleotide polymorphism (SNP) array data revealed a rare microdeletion involving CAPG, ELMOD3, and SH2D6 genes, in both siblings. CAPG encodes for a postsynaptic density (PSD) protein known to regulate spine morphogenesis and synaptic formation. The reduced CAPG mRNA and protein expression levels in ASD patients, in the presence of hemizygosity or a particular genetic and/or epigenetic background, highlighted the functional relevance of CAPG as a candidate gene for ASD. WES analysis led to the identification in both affected siblings of a rare frameshift mutation in VDAC3, a gene intolerant to loss of function mutation, encoding for a voltage-dependent anion channel localized on PSD. Moreover, four missense damaging variants were identified in genes intolerant to loss of function variation encoding for PSD proteins: PLXNA2, KCTD16, ARHGAP21, and SLC4A1. This study identifies CAPG and VDAC3 as candidate genes and provides additional support for genes encoding PSD proteins in ASD susceptibility.

Published
2019

24. Integrated DNA methylation analysis identifies topographical and tumoral biomarkers in pilocytic astrocytomas

Author

Antonella Arcella, Manila Antonelli, Loredana Moi, Felice Giangaspero, Eleonora Loi, Isabella Morra, Cinzia Cameli, Manuela Badiali, Antonio Fadda, Cesare Zavattari, Pia Sulas, Davide Gentilini, Elena Bacchelli, Patrizia Zavattari, Antonelli, Manila, Fadda, Antonio, Loi, Eleonora, Moi, Loredana, Zavattari, Cesare, Sulas, Pia, Gentilini, Davide, Cameli, Cinzia, Bacchelli, Elena, Badiali, Manuela, Arcella, Antonella, Morra, Isabella, Giangaspero, Felice, and Zavattari, Patrizia

Subjects
0301 basic medicine, gene expression alteration, human methylation beadchips, methylome alteration, pilocytic astrocytomas, topographic and tumor biomarkers, oncology, In silico, Biology, 03 medical and health sciences, Human methylation beadchip, Glioma, medicine, Epigenetics, Pilocytic astrocytoma, Topographic and tumor biomarker, Methylation, medicine.disease, 030104 developmental biology, CpG site, DNA methylation, Cancer research, Biomarker (medicine), Research Paper
Abstract

Pilocytic astrocytoma (PA) is the most common glioma in pediatric patients and occurs in different locations. Chromosomal alterations are mostly located at chromosome 7q34 comprising the BRAF oncogene with consequent activation of the mitogen-activated protein kinase pathway. Although genetic and epigenetic alterations characterizing PA from different localizations have been reported, the role of epigenetic alterations in PA development is still not clear. The aim of this study was to investigate whether distinctive methylation patterns may define biologically relevant groups of PAs. Integrated DNA methylation analysis was performed on 20 PAs and 4 normal brain samples by Illumina Infinium HumanMethylation27 BeadChips. We identified distinct methylation profiles characterizing PAs from different locations (infratentorial vs supratentorial) and tumors with onset before and after 3 years of age. These results suggest that PA may be related to the specific brain site where the tumor arises from region-specific cells of origin. We identified and validated in silico the methylation alterations of some CpG islands. Furthermore, we evaluated the expression levels of selected differentially methylated genes and identified two biomarkers, one, IRX2, related to the tumor localization and the other, TOX2, as tumoral biomarker.

Published
2018

25. Analysis ofCHRNA7rare variants in autism spectrum disorder susceptibility

Author

Silvia Lomartire, Raffaella Tancredi, James S. Sutcliffe, Agatino Battaglia, Elena Bacchelli, Susanne Thomson, Cinzia Cameli, Elena Maestrini, Bacchelli, Elena, Battaglia, Agatino, Cameli, Cinzia, Lomartire, Silvia, Tancredi, Raffaella, Thomson, Susanne, Sutcliffe, James S., and Maestrini, Elena

Subjects
Male, Adolescent, alpha7 Nicotinic Acetylcholine Receptor, Autism Spectrum Disorder, DNA Mutational Analysis, Genetic Association Studie, Copy number variant, Polymorphism, Single Nucleotide, DNA Mutational Analysi, Exon, symbols.namesake, Neurodevelopmental disorder, Genetics, medicine, Humans, Coding region, Genetic Predisposition to Disease, Copy-number variation, Gene, Genetic Association Studies, Genetics (clinical), Sanger sequencing, biology, CHRNA7, 15q13.3, medicine.disease, Sequence variant, Autism spectrum disorder, Case-Control Studies, biology.protein, symbols, Autism, Female, Case-Control Studie, Human
Abstract

Chromosome 15q13.3 recurrent microdeletions are causally associated with a wide range of phenotypes, including autism spectrum disorder (ASD), seizures, intellectual disability, and other psychiatric conditions. Whether the reciprocal microduplication is pathogenic is less certain. CHRNA7, encoding for the alpha7 subunit of the neuronal nicotinic acetylcholine receptor, is considered the likely culprit gene in mediating neurological phenotypes in 15q13.3 deletion cases. To assess if CHRNA7 rare variants confer risk to ASD, we performed copy number variant analysis and Sanger sequencing of the CHRNA7 coding sequence in a sample of 135 ASD cases. Sequence variation in this gene remains largely unexplored, given the existence of a fusion gene, CHRFAM7A, which includes a nearly identical partial duplication of CHRNA7. Hence, attempts to sequence coding exons must distinguish between CHRNA7 and CHRFAM7A, making next-generation sequencing approaches unreliable for this purpose. A CHRNA7 microduplication was detected in a patient with autism and moderate cognitive impairment; while no rare damaging variants were identified in the coding region, we detected rare variants in the promoter region, previously described to functionally reduce transcription. This study represents the first sequence variant analysis of CHRNA7 in a sample of idiopathic autism.

Published
2015
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26. A genome-wide analysis in cluster headache points to neprilysin and PACAP receptor gene variants

Author

Luigi Alberto Pini, Angela Martinelli, Simona Guerzoni, Cinzia Cameli, Elena Maestrini, Michele Zoli, Elena Bacchelli, Maria Michela Cainazzo, University of St Andrews. School of Medicine, Bacchelli, Elena, Cainazzo, Maria Michela, Cameli, Cinzia, Guerzoni, Simona, Martinelli, Angela, Zoli, Michele, Maestrini, Elena, and Pini, Luigi Alberto

Subjects
0301 basic medicine, Male, Pathology, Candidate gene, Receptors, Pituitary Adenylate Cyclase-Activating Polypeptide, Genome-wide association study, 0302 clinical medicine, Genotype, Medicine, Missense mutation, Genetics, Aged, 80 and over, Pituitary adenylate cyclase-activating polypeptide receptor (ADCYAP1R1), medicine.diagnostic_test, General Medicine, Middle Aged, Female, Neprilysin, Association studies in genetics, Cluster headache, Genome-Wide Association Study, Membrane metalloendopeptidase (MME), Neprylisin, Adolescent, Adult, Aged, Cluster Headache, Genetic Predisposition to Disease, Genetic Testing, Genetic Variation, Humans, Polymorphism, Single Nucleotide, Young Adult, Neurology (clinical), Anesthesiology and Pain Medicine, RC0321 Neuroscience. Biological psychiatry. Neuropsychiatry, Research Article, medicine.medical_specialty, Clinical Neurology, Single-nucleotide polymorphism, R Medicine, 03 medical and health sciences, Genetic variation, Gene, Genetic association, Genetic testing, business.industry, DAS, 030104 developmental biology, Association studies in genetic, RC0321, business, 030217 neurology & neurosurgery
Abstract

Background Cluster Headache (CH) is a severe primary headache, with a poorly understood pathophysiology. Complex genetic factors are likely to play a role in CH etiology; however, no confirmed gene associations have been identified. The aim of this study is to identify genetic variants influencing risk to CH and to explore the potential pathogenic mechanisms. Methods We have performed a genome-wide association study (GWAS) in a clinically well-defined cohort of 99 Italian patients with CH and in a control sample of 360 age-matched sigarette smoking healthy individuals, using the Infinium PsychArray (Illumina), which combines common highly-informative genome-wide tag SNPs and exonic SNPs. Genotype data were used to carry out a genome-wide single marker case-control association analysis using common SNPs, and a gene-based association analysis focussing on rare protein altering variants in 745 candidate genes with a putative role in CH. Results Although no single variant showed statistically significant association at the genome-wide threshold, we identified an interesting suggestive association (P = 9.1 × 10−6) with a common variant of the PACAP receptor gene (ADCYAP1R1). Furthermore, gene-based analysis provided significant evidence of association (P = 2.5 × 10−5) for a rare potentially damaging missense variant in the MME gene, encoding for the membrane metallo-endopeptidase neprilysin. Conclusions Our study represents the first genome-wide association study of common SNPs and rare exonic variants influencing risk for CH. The most interesting results implicate ADCYAP1R1 and MME gene variants in CH susceptibility and point to a role for genes involved in pain processing. These findings provide new insights into the pathogenesis of CH that need further investigation and replication in larger CH samples. Electronic supplementary material The online version of this article (doi:10.1186/s10194-016-0705-y) contains supplementary material, which is available to authorized users.

Published
2016

27. 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
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28. Contribution of ultrarare variants in mTOR pathway genes to sporadic focal epilepsies.

Author

Pippucci T, Licchetta L, Baldassari S, Marconi C, De Luise M, Myers C, Nardi E, Provini F, Cameli C, Minardi R, Bacchelli E, Giordano L, Crichiutti G, d'Orsi G, Seri M, Gasparre G, Mefford HC, Tinuper P, and Bisulli F

Subjects
Adolescent, Adult, Child, Child, Preschool, Female, GTPase-Activating Proteins genetics, Genetic Predisposition to Disease, Humans, Infant, Male, Middle Aged, Multiprotein Complexes genetics, Signal Transduction, Tuberous Sclerosis Complex 1 Protein genetics, Tuberous Sclerosis Complex 2 Protein genetics, Exome Sequencing, Epilepsies, Partial genetics, Genomic Structural Variation genetics, Mechanistic Target of Rapamycin Complex 1 genetics
Abstract

Objective: We investigated the contribution to sporadic focal epilepsies (FE) of ultrarare variants in genes coding for the components of complexes regulating mechanistic Target Of Rapamycin (mTOR)complex 1 (mTORC1)., Methods: We collected genetic data of 121 Italian isolated FE cases and 512 controls by Whole Exome Sequencing (WES) and single-molecule Molecular Inversion Probes (smMIPs) targeting 10 genes of the GATOR1, GATOR2, and TSC complexes. We collapsed "qualifying" variants (ultrarare and predicted to be deleterious or loss of function) across the examined genes and sought to identify their enrichment in cases compared to controls., Results: We found eight qualifying variants in cases and nine in controls, demonstrating enrichment in FE patients ( P  = 0.006; exact unconditional test, one-tailed). Pathogenic variants were identified in DEPDC5 and TSC2, both major genes for Mendelian FE syndromes., Interpretation: Our findings support the contribution of ultrarare variants in genes in the mTOR pathway complexes GATOR and TSC to the risk of sporadic FE and a shared genetic basis between rare and common epilepsies. The identification of a monogenic etiology in isolated cases, most typically encountered in clinical practice, may offer to a broader community of patients the perspective of precision therapies directed by the underlying genetic cause., Competing Interests: The authors report no disclosures.

Published
2019
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