Your search keyword '"Marconi, Caterina"' showing total 12 results

1. A Theoretical Model for EEG Interpretation

Author

Marconi, Pier Luigi, Scognamiglio, Rosamaria, Mascia, Maria Lidia, Conti, Rachele, Marconi, Caterina, Penna, Maria Petronilla, Minati, Gianfranco, editor, and Pietronilla Penna, Maria, editor

Published

2024

2. A Theoretical Model for EEG Interpretation

Author

Marconi, Pier Luigi, primary, Scognamiglio, Rosamaria, additional, Mascia, Maria Lidia, additional, Conti, Rachele, additional, Marconi, Caterina, additional, and Penna, Maria Petronilla, additional

Published

2024

3. ACTN1‐related thrombocytopenia: Homozygosity for an ACTN1 variant results in a more severe phenotype

Author

Zanchetta, Melania Eva, primary, Barozzi, Serena, additional, Isidori, Federica, additional, Marconi, Caterina, additional, Farinasso, Loredana, additional, Bottega, Roberta, additional, Savoia, Anna, additional, Pecci, Alessandro, additional, and Faleschini, Michela, additional

Published

2024

4. Thrombocytopenia 4 (THC4): Six novel families with mutations of the cytochrome c gene.

Author

Marzollo, Antonio, Zampieri, Stefania, Barozzi, Serena, Yousaf, Muhammad Abrar, Quartararo, Jade, De Rocco, Daniela, Faleschini, Michela, Marconi, Caterina, Ceccatelli Berti, Camilla, Bozzi, Valeria, Russo, Giovanna, Giordano, Paola, Goffrini, Paola, Bresolin, Silvia, Pastore, Annalisa, Savoia, Anna, and Pecci, Alessandro

Subjects

CYTOCHROME c, THROMBOCYTOPENIA, BLOOD platelet disorders, PLATELET count, ELECTRON transport, MISSENSE mutation

Abstract

Summary: Thrombocytopenia 4 (THC4) is an autosomal‐dominant thrombocytopenia caused by mutations in CYCS, the gene encoding cytochrome c (CYCS), a small haeme protein essential for electron transport in mitochondria and cell apoptosis. THC4 is considered an extremely rare condition since only a few patients have been reported so far. These subjects presented mild thrombocytopenia and no or mild bleeding tendency. In this study, we describe six Italian families with five different heterozygous missense CYCS variants: p.Gly42Ser and p.Tyr49His previously associated with THC4, and three novel variants (p.Ala52Thr, p.Arg92Gly, and p.Leu99Val), which have been classified as pathogenic by bioinformatics and segregation analyses. Moreover, we supported functional effects of p.Ala52Thr and p.Arg92Gly on oxidative growth and respiratory activity in a yeast model. The clinical characterization of the 22 affected individuals, the largest series of THC4 patients ever reported, showed that this disorder is characterized by mild‐to‐moderate thrombocytopenia, normal platelet size, and function, low risk of bleeding, and no additional clinical phenotypes associated with reduced platelet count. Finally, we describe a significant correlation between the region of CYCS affected by mutations and the extent of thrombocytopenia, which could reflect different degrees of impairment of CYCS functions caused by different pathogenetic variants. [ABSTRACT FROM AUTHOR]

Published

2024

5. Exome sequencing in 116 patients with inherited thrombocytopenia that remained of unknown origin after systematic phenotype-driven diagnostic workup

Author

Marconi, Caterina, primary, Pecci, Alessandro, additional, Palombo, Flavia, additional, Melazzini, Federica, additional, Bottega, Roberta, additional, Nardi, Elena, additional, Bozzi, Valeria, additional, Faleschini, Michela, additional, Barozzi, Serena, additional, Giangregorio, Tania, additional, Magini, Pamela, additional, Balduini, Carlo L., additional, Savoia, Anna, additional, Seri, Marco, additional, Noris, Patrizia, additional, and Pippucci, Tommaso, additional

Published

2022

6. Dysregulation of oncogenic factors by GFI1B p32: investigation of a novel GFI1B germline mutation

Author

Faleschini, Michela, Papa, Nicole, Morel-Kopp, Marie-Christine, Marconi, Caterina, Giangregorio, Tania, Melazzini, Federica, Bozzi, Valeria, Seri, Marco, Noris, Patrizia, Pecci, Alessandro, Savoia, Anna, Bottega, Roberta, Faleschini, Michela, Papa, Nicole, Morel-Kopp, Marie-Christine, Marconi, Caterina, Giangregorio, Tania, Melazzini, Federica, Bozzi, Valeria, Seri, Marco, Noris, Patrizia, Pecci, Alessandro, Savoia, Anna, and Bottega, Roberta

Subjects

Repressor Proteins, Carcinogenesis, GFI1B, thrombocytopenia, Proto-Oncogene Proteins, Humans, GFI1B, germline mutation, Article, Germ-Line Mutation

Abstract

GFI1B is a transcription factor essential for the regulation of erythropoiesis and megakaryopoiesis, and pathogenic variants have been associated with thrombocytopenia and bleeding. Analysing thrombocytopenic families by whole exome sequencing, we identified a novel GFI1B variant (c.648+5G>A), which causes exon 9 skipping and overexpression of a shorter p32 isoform. We report the clinical data of our patients and critically review the phenotype observed in individuals with different GFI1B variants leading to the same effect on the p32 expression. Since p32 is increased in acute and chronic leukemia cells, we tested the expression level of genes playing a role in various type of cancers, including hematological tumors and found that they are significantly dysregulated, suggesting a potential role for GFI1B in carcinogenesis regulation. Increasing the detection of individuals with GFI1B variants will allow us to better characterize this rare disease and determine whether it is associated with an increased risk of developing malignancies.

Published

2022

7. Defective lipid signalling caused by mutations inPIK3C2Bunderlies focal epilepsy

Author

Gozzelino, Luca, primary, Kochlamazashvili, Gaga, additional, Baldassari, Sara, additional, Mackintosh, Albert Ian, additional, Licchetta, Laura, additional, Iovino, Emanuela, additional, Liu, Yu Chi, additional, Bennett, Caitlin A, additional, Bennett, Mark F, additional, Damiano, John A, additional, Zsurka, Gábor, additional, Marconi, Caterina, additional, Giangregorio, Tania, additional, Magini, Pamela, additional, Kuijpers, Marijn, additional, Maritzen, Tanja, additional, Norata, Giuseppe Danilo, additional, Baulac, Stéphanie, additional, Canafoglia, Laura, additional, Seri, Marco, additional, Tinuper, Paolo, additional, Scheffer, Ingrid E, additional, Bahlo, Melanie, additional, Berkovic, Samuel F, additional, Hildebrand, Michael S, additional, Kunz, Wolfram S, additional, Giordano, Lucio, additional, Bisulli, Francesca, additional, Martini, Miriam, additional, Haucke, Volker, additional, Hirsch, Emilio, additional, and Pippucci, Tommaso, additional

Published

2022

8. Defective lipid signalling caused by mutations in PIK3C2B underlies focal epilepsy.

Author

Gozzelino, Luca, Kochlamazashvili, Gaga, Baldassari, Sara, Mackintosh, Albert Ian, Licchetta, Laura, Iovino, Emanuela, Liu, Yu Chi, Bennett, Caitlin A, Bennett, Mark F, Damiano, John A, Zsurka, Gábor, Marconi, Caterina, Giangregorio, Tania, Magini, Pamela, Kuijpers, Marijn, Maritzen, Tanja, Norata, Giuseppe Danilo, Baulac, Stéphanie, Canafoglia, Laura, and Seri, Marco

Abstract

Epilepsy is one of the most frequent neurological diseases, with focal epilepsy accounting for the largest number of cases. The genetic alterations involved in focal epilepsy are far from being fully elucidated. Here, we show that defective lipid signalling caused by heterozygous ultra-rare variants in PIK3C2B, encoding for the class II phosphatidylinositol 3-kinase PI3K-C2β, underlie focal epilepsy in humans. We demonstrate that patients' variants act as loss-of-function alleles, leading to impaired synthesis of the rare signalling lipid phosphatidylinositol 3,4-bisphosphate, resulting in mTORC1 hyperactivation. In vivo, mutant Pik3c2b alleles caused dose-dependent neuronal hyperexcitability and increased seizure susceptibility, indicating haploinsufficiency as a key driver of disease. Moreover, acute mTORC1 inhibition in mutant mice prevented experimentally induced seizures, providing a potential therapeutic option for a selective group of patients with focal epilepsy. Our findings reveal an unexpected role for class II PI3K-mediated lipid signalling in regulating mTORC1-dependent neuronal excitability in mice and humans. [ABSTRACT FROM AUTHOR]

Published

2022

9. Homozygous substitution of threonine 191 by proline in polymerase η causes Xeroderma pigmentosum variant.

Author

Ricciardiello R, Forleo G, Cipolla L, van Winckel G, Marconi C, Nouspikel T, Halazonetis TD, Zgheib O, and Sabbioneda S

Subjects

Humans, Middle Aged, DNA Damage, Mutation, Missense, Proline genetics, Pyrimidine Dimers, Ultraviolet Rays, Female, Xeroderma Pigmentosum genetics, Xeroderma Pigmentosum pathology

Abstract

DNA polymerase eta (Polη) is the only translesion synthesis polymerase capable of error-free bypass of UV-induced cyclobutane pyrimidine dimers. A deficiency in Polη function is associated with the human disease Xeroderma pigmentosum variant (XPV). We hereby report the case of a 60-year-old woman known for XPV and carrying a Polη Thr191Pro variant in homozygosity. We further characterize the variant in vitro and in vivo, providing molecular evidence that the substitution abrogates polymerase activity and results in UV sensitivity through deficient damage bypass. This is the first functional molecular characterization of a missense variant of Polη, whose reported pathogenic variants have thus far been loss of function truncation or frameshift mutations. Our work allows the upgrading of Polη Thr191Pro from 'variant of uncertain significance' to 'likely pathogenic mutant', bearing direct impact on molecular diagnosis and genetic counseling. Furthermore, we have established a robust experimental approach that will allow a precise molecular analysis of further missense mutations possibly linked to XPV. Finally, it provides insight into critical Polη residues that may be targeted to develop small molecule inhibitors for cancer therapeutics., (© 2024. The Author(s).)

Published

2024

10. Exome sequencing in 116 patients with inherited thrombocytopenia that remained of unknown origin after systematic phenotype-driven diagnostic workup.

Author

Marconi C, Pecci A, Palombo F, Melazzini F, Bottega R, Nardi E, Bozzi V, Faleschini M, Barozzi S, Giangregorio T, Magini P, Balduini CL, Savoia A, Seri M, Noris P, and Pippucci T

Subjects

Humans, Exome Sequencing, Phenotype, Genotype, Genetic Testing methods, Thrombocytopenia diagnosis, Thrombocytopenia genetics

Abstract

Inherited thrombocytopenias (IT) are genetic diseases characterized by low platelet count, sometimes associated with congenital defects or a predisposition to develop additional conditions. Next-generation sequencing has substantially improved our knowledge of IT, with more than 40 genes identified so far, but obtaining a molecular diagnosis remains a challenge especially for patients with non-syndromic forms, having no clinical or functional phenotypes that raise suspicion about specific genes. We performed exome sequencing (ES) in a cohort of 116 IT patients (89 families), still undiagnosed after a previously validated phenotype-driven diagnostic algorithm including a targeted analysis of suspected genes. ES achieved a diagnostic yield of 36%, with a gain of 16% over the diagnostic algorithm. This can be explained by genetic heterogeneity and unspecific genotype-phenotype relationships that make the simultaneous analysis of all the genes, enabled by ES, the most reasonable strategy. Furthermore, ES disentangled situations that had been puzzling because of atypical inheritance, sex-related effects or false negative laboratory results. Finally, ES-based copy number variant analysis disclosed an unexpectedly high prevalence of RUNX1 deletions, predisposing to hematologic malignancies. Our findings demonstrate that ES, including copy number variant analysis, can substantially contribute to the diagnosis of IT and can solve diagnostic problems that would otherwise remain a challenge.

Published

2023

11. Defective lipid signalling caused by mutations in PIK3C2B underlies focal epilepsy.

Author

Gozzelino L, Kochlamazashvili G, Baldassari S, Mackintosh AI, Licchetta L, Iovino E, Liu YC, Bennett CA, Bennett MF, Damiano JA, Zsurka G, Marconi C, Giangregorio T, Magini P, Kuijpers M, Maritzen T, Norata GD, Baulac S, Canafoglia L, Seri M, Tinuper P, Scheffer IE, Bahlo M, Berkovic SF, Hildebrand MS, Kunz WS, Giordano L, Bisulli F, Martini M, Haucke V, Hirsch E, and Pippucci T

Subjects

Animals, Humans, Lipids, Mechanistic Target of Rapamycin Complex 1, Mice, Mutation genetics, Phosphatidylinositol 3-Kinases genetics, Seizures, Class II Phosphatidylinositol 3-Kinases genetics, Epilepsies, Partial genetics

Abstract

Epilepsy is one of the most frequent neurological diseases, with focal epilepsy accounting for the largest number of cases. The genetic alterations involved in focal epilepsy are far from being fully elucidated. Here, we show that defective lipid signalling caused by heterozygous ultra-rare variants in PIK3C2B, encoding for the class II phosphatidylinositol 3-kinase PI3K-C2β, underlie focal epilepsy in humans. We demonstrate that patients' variants act as loss-of-function alleles, leading to impaired synthesis of the rare signalling lipid phosphatidylinositol 3,4-bisphosphate, resulting in mTORC1 hyperactivation. In vivo, mutant Pik3c2b alleles caused dose-dependent neuronal hyperexcitability and increased seizure susceptibility, indicating haploinsufficiency as a key driver of disease. Moreover, acute mTORC1 inhibition in mutant mice prevented experimentally induced seizures, providing a potential therapeutic option for a selective group of patients with focal epilepsy. Our findings reveal an unexpected role for class II PI3K-mediated lipid signalling in regulating mTORC1-dependent neuronal excitability in mice and humans., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2022

12. Dysregulation of oncogenic factors by GFI1B p32: investigation of a novel GFI1B germline mutation.

Author

Faleschini M, Papa N, Morel-Kopp MC, Marconi C, Giangregorio T, Melazzini F, Bozzi V, Seri M, Noris P, Pecci A, Savoia A, and Bottega R

Subjects

Carcinogenesis, Humans, Proto-Oncogene Proteins genetics, Proto-Oncogene Proteins metabolism, Repressor Proteins genetics, Germ-Line Mutation, Thrombocytopenia genetics

Abstract

GFI1B is a transcription factor essential for the regulation of erythropoiesis and megakaryopoiesis, and pathogenic variants have been associated with thrombocytopenia and bleeding. Analysing thrombocytopenic families by whole exome sequencing, we identified a novel GFI1B variant (c.648+5G>A), which causes exon 9 skipping and overexpression of a shorter p32 isoform. We report the clinical data of our patients and critically review the phenotype observed in individuals with different GFI1B variants leading to the same effect on the p32 expression. Since p32 is increased in acute and chronic leukemia cells, we tested the expression level of genes playing a role in various type of cancers, including hematological tumors and found that they are significantly dysregulated, suggesting a potential role for GFI1B in carcinogenesis regulation. Increasing the detection of individuals with GFI1B variants will allow us to better characterize this rare disease and determine whether it is associated with an increased risk of developing malignancies.

Published

2022