Your search keyword '"Spataro, Nino"' showing total 4 results

1. Monoallelic loss-of-function variants in GSK3Blead to autism and developmental delay

Author

Tan, Senwei, Zhang, Qiumeng, Zhan, Rui, Luo, Si, Han, Yaoling, Yu, Bin, Muss, Candace, Pingault, Veronique, Marlin, Sandrine, Delahaye, Andrée, Peters, Sophia, Perne, Claudia, Kreiß, Martina, Spataro, Nino, Trujillo-Quintero, Juan Pablo, Racine, Caroline, Tran-Mau-Them, Frederic, Phornphutkul, Chanika, Besterman, Aaron D., Martinez, Julian, Wang, Xiuxia, Tian, Xiaoyu, Srivastava, Siddharth, Urion, David K., Madden, Jill A., Saif, Hind Al, Morrow, Michelle M., Begtrup, Amber, Li, Xing, Jurgensmeyer, Sarah, Leahy, Peter, Zhou, Shimin, Li, Faxiang, Hu, Zhengmao, Tan, Jieqiong, Xia, Kun, and Guo, Hui

Abstract

De novo variants adjacent to the canonical splicing sites or in the well-defined splicing-related regions are more likely to impair splicing but remain under-investigated in autism spectrum disorder (ASD). By analyzing large, recent ASD genome sequencing cohorts, we find a significant burden of de novo potential splicing-disrupting variants (PSDVs) in 5048 probands compared to 4090 unaffected siblings. We identified 55 genes with recurrent de novo PSDVs that were highly intolerant to variation. Forty-six of these genes have not been strongly implicated in ASD or other neurodevelopmental disorders previously, including GSK3B. Through international, multicenter collaborations, we assembled genotype and phenotype data for 15 individuals with GSK3Bvariants and identified common phenotypes including developmental delay, ASD, sleeping disturbance, and aggressive behavior. Using available single-cell transcriptomic data, we show that GSK3Bis enriched in dorsal progenitors and intermediate forms of excitatory neurons in the developing brain. We showed that Gsk3bknockdown in mouse excitatory neurons interferes with dendrite arborization and spine maturation which could not be rescued by de novo missense variants identified from affected individuals. In summary, our findings suggest that PSDVs may play an important role in the genetic etiology of ASD and allow for the prioritization of new ASD candidate genes. Importantly, we show that genetic variation resulting in GSK3Bloss-of-function can lead to a neurodevelopmental disorder with core features of ASD and developmental delay.

Published

2024

2. Systematic Collaborative Reanalysis of Genomic Data Improves Diagnostic Yield in Neurologic Rare Diseases

Author

Bullich, Gemma, Matalonga, Leslie, Pujadas, Montserrat, Papakonstantinou, Anastasios, Piscia, Davide, Tonda, Raúl, Artuch, Rafael, Gallano, Pia, Garrabou, Glòria, González, Juan R., Grinberg, Daniel, Guitart, Míriam, Laurie, Steven, Lázaro, Conxi, Luengo, Cristina, Martí, Ramon, Milà, Montserrat, Ovelleiro, David, Parra, Genís, Pujol, Aurora, Tizzano, Eduardo, Macaya, Alfons, Palau, Francesc, Ribes, Antònia, Pérez-Jurado, Luis A., Beltran, Sergi, Schlüter, Agatha, Rodriguez-Palmero, Agustí, Cáceres, Alejandro, Nascimento, Andrés, García-Cazorla, Àngels, Cueto-González, Anna, Marcé-Grau, Anna, Nel.lo, Anna Ruiz, Martínez-Monseny, Antonio, Sànchez, Aurora, García, Belén, Pérez-Dueñas, Belén, Gel, Bernat, Fusté, Berta, Hernández-Ferrer, Carles, Casasnovas, Carlos, Ortez, Carlos, Arjona, César, Hernando-Davalillo, Cristina, de Benito, Daniel Natera, Amador, Daniel Picó, Gómez-Andrés, David, Yubero, Dèlia, Pelegrí-Sisó, Dolors, Verdura, Edgard, García-Arumí, Elena, Castellanos, Elisabeth, Gabau, Elisabeth, Tobías, Ester, López-Grondona, Fermina, Cardellach, Francesc, Garcia-Garcia, Francesc Josep, Munell, Francina, Tort, Frederic, Aznar, Gemma, Olivé-Cirera, Gemma, Tell, Gemma, Muñoz-Pujol, Gerard, Paramonov, Ida, Blanco, Ignacio, Madrigal, Irene, Valenzuela, Irene, Gut, Ivo, Cusco, Ivon, Trotta, Jean-Rémi, Cruz, Jordi, Díaz-Manera, Jordi, Milisenda, José César, MaGrau, Josep, Garcia-Villoria, Judit, Armstrong, Judith, Cantó, Judith, Sala-Coromina, Júlia, Rodríguez-Revenga, Laia, Alias, Laura, Gort, Laura, González-Quereda, Lídia, Costa, Mar, Fernández-Callejo, Marcos, López-Sánchez, Marcos, Álvarez-Mora, Maria Isabel, Gut, Marta, Serrano, Mercedes, Raspall-Chaure, Miquel, Toro, Mireia del, Bayés, Mònica, Díez, Neus Baena, Spataro, Nino, Capdevila, Núria, Ugarteburu, Olatz, Muñoz-Cabello, Patricia, Duque, Penélope Romero, Rabionet, Raquel, Rojas-García, Ricard, Calvo, Rosa, Urreizti, Roser, Bernal, Sara, Boronat, Susana, Balcells, Susanna, and Vendrell, Teresa

Abstract

Many patients experiencing a rare disease remain undiagnosed even after genomic testing. Reanalysis of existing genomic data has shown to increase diagnostic yield, although there are few systematic and comprehensive reanalysis efforts that enable collaborative interpretation and future reinterpretation. The Undiagnosed Rare Disease Program of Catalonia project collated previously inconclusive good quality genomic data (panels, exomes, and genomes) and standardized phenotypic profiles from 323 families (543 individuals) with a neurologic rare disease. The data were reanalyzed systematically to identify relatedness, runs of homozygosity, consanguinity, single-nucleotide variants, insertions and deletions, and copy number variants. Data were shared and collaboratively interpreted within the consortium through a customized Genome-Phenome Analysis Platform, which also enables future data reinterpretation. Reanalysis of existing genomic data provided a diagnosis for 20.7% of the patients, including 1.8% diagnosed after the generation of additional genomic data to identify a second pathogenic heterozygous variant. Diagnostic rate was significantly higher for family-based exome/genome reanalysis compared with singleton panels. Most new diagnoses were attributable to recent gene-disease associations (50.8%), additional or improved bioinformatic analysis (19.7%), and standardized phenotyping data integrated within the Undiagnosed Rare Disease Program of Catalonia Genome-Phenome Analysis Platform functionalities (18%).

Published

2022

3. De novocoding variants in the AGO1gene cause a neurodevelopmental disorder with intellectual disability

Author

Schalk, Audrey, Cousin, Margot A, Dsouza, Nikita R, Challman, Thomas D, Wain, Karen E, Powis, Zoe, Minks, Kelly, Trimouille, Aurélien, Lasseaux, Eulalie, Lacombe, Didier, Angelini, Chloé, Michaud, Vincent, Van-Gils, Julien, Spataro, Nino, Ruiz, Anna, Gabau, Elizabeth, Stolerman, Elliot, Washington, Camerun, Louie, Ray, Lanpher, Brendan C, Kemppainen, Jennifer L, Innes, Micheil, Kooy, Frank, Meuwissen, Marije, Goldenberg, Alice, Lecoquierre, Francois, Vera, Gabriella, Diderich, Karin E M, Sheidley, Beth, El Achkar, Christelle Moufawad, Park, Meredith, Hamdan, Fadi F, Michaud, Jacques L, Lewis, Ann J, Zweier, Christiane, Reis, André, Wagner, Matias, Weigand, Heike, Journel, Hubert, Keren, Boris, Passemard, Sandrine, Mignot, Cyril, van Gassen, Koen, Brilstra, Eva H, Itzikowitz, Gina, O'Heir, Emily, Allen, Jake, Donald, Kirsten A, Korf, Bruce Richard, Skelton, Tammi, Thompson, Michelle, Robin, Nathaniel H, Rudy, Natasha L, Dobyns, William B, Foss, Kimberly, Zarate, Yuri Alexander, Bosanko, Katherine A, Alembik, Yves, Durand, Benjamin, Tran Mau-them, Frederic, Ranza, Emmanuelle, Blanc, Xavier, Antonarakis, Stylianos E, McWalter, Kirsty, Torti, Erin, Millan, Francisca, Dameron, Amy, Tokita, Mari, Zimmermann, Michael T, Klee, Eric W, Piton, Amelie, and Gerard, Benedicte

Abstract

BackgroundHigh-impact pathogenic variants in more than a thousand genes are involved in Mendelian forms of neurodevelopmental disorders (NDD).MethodsThis study describes the molecular and clinical characterisation of 28 probands with NDD harbouring heterozygous AGO1coding variants, occurring de novo for all those whose transmission could have been verified (26/28).ResultsA total of 15 unique variants leading to amino acid changes or deletions were identified: 12 missense variants, two in-frame deletions of one codon, and one canonical splice variant leading to a deletion of two amino acid residues. Recurrently identified variants were present in several unrelated individuals: p.(Phe180del), p.(Leu190Pro), p.(Leu190Arg), p.(Gly199Ser), p.(Val254Ile) and p.(Glu376del). AGO1encodes the Argonaute 1 protein, which functions in gene-silencing pathways mediated by small non-coding RNAs. Three-dimensional protein structure predictions suggest that these variants might alter the flexibility of the AGO1 linker domains, which likely would impair its function in mRNA processing. Affected individuals present with intellectual disability of varying severity, as well as speech and motor delay, autistic behaviour and additional behavioural manifestations.ConclusionOur study establishes that de novo coding variants in AGO1are involved in a novel monogenic form of NDD, highly similar to the recently reported AGO2-related NDD.

Published

2022

4. Analysis of known amyotrophic lateral sclerosis and frontotemporal dementia genes reveals a substantial genetic burden in patients manifesting both diseases not carrying the C9orf72expansion mutation

Author

Dols-Icardo, Oriol, García-Redondo, Alberto, Rojas-Garcíía, Ricardo, Borrego-Hernííández, Daniel, Illííáán-Gala, Ignacio, Muííááéíñoz-Blanco, Josííááé Luííááéís, Rííááéíñábano, Alberto, Cervera-Carles, Laura, Juííááéíñáárez-Rufiííááéíñááán, Alexandra, Spataro, Nino, De Luna, Noemííááéíñáááí, Galííááéíñáááííán, Lucííááéíñáááíía, Cortes-Vicente, Elena, Fortea, Juan, Blesa, Rafael, Grau-Rivera, Oriol, Lleííááéíñáááííáó, Alberto, Esteban-Pííááéíñáááííáóúérez, Jesííááéíñáááííáóús, Gelpi, Ellen, and Clarimííááéíñáááííáóúéón, Jordi

Abstract

Amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD) are part of a clinical, pathological and genetic continuum.ObjectivesThe purpose of the present study was to assess the mutation burden that is present in patients with concurrent ALS and FTD (ALS/FTD) not carrying the chromosome 9 open reading frame 72 (C9orf72) hexanucleotide repeat expansion, the most important genetic cause in both diseases.MethodsFrom an initial group of 973 patients with ALS, we retrospectively selected those patients fulfilling diagnostic criteria of concomitant ALS and FTD lacking the repeat expansion mutation in C9orf72. Our final study group consisted of 54 patients clinically diagnosed with ALS/FTD (16 with available postmortem neuropathological diagnosis). Data from whole exome sequencing were used to screen for mutations in known ALS and/or FTD genes.ResultsWe identified 11 patients carrying a probable pathogenic mutation, representing an overall mutation frequency of 20.4%. TBK1was the most important genetic cause of ALS/FTD (n=5; 9.3%). The second most common mutated gene was SQSTM1, with three mutation carriers (one of them also harboured a TBK1mutation). We also detected probable pathogenic genetic alterations in TAF15, VCPand TARDBPand possible pathogenic mutations in FIG4and ERBB4.ConclusionOur results indicate a high genetic burden underlying the co-occurrence of ALS and FTD and expand the phenotype associated with TAF15, FIG4and ERBB4to FTD. A systematic screening of ALS and FTD genes could be indicated in patients manifesting both diseases without the C9orf72expansion mutation, regardless of family history of disease.

Published

2018