Your search keyword '"Sangermano, R"' showing total 2 results

1. A combined RNA-seq and whole genome sequencing approach for identification of non-coding pathogenic variants in single families.

Author

Bronstein R, Capowski EE, Mehrotra S, Jansen AD, Navarro-Gomez D, Maher M, Place E, Sangermano R, Bujakowska KM, Gamm DM, and Pierce EA

Subjects

Child, Female, Gene Expression Profiling, Humans, Male, Pedigree, Exome Sequencing, Genetic Markers, Genetic Variation, Genome, Human, RNA-Seq methods, Retinal Degeneration genetics, Retinal Degeneration pathology, Whole Genome Sequencing methods

Abstract

Inherited retinal degenerations (IRDs) are at the focus of current genetic therapeutic advancements. For a genetic treatment such as gene therapy to be successful, an accurate genetic diagnostic is required. Genetic diagnostics relies on the assessment of the probability that a given DNA variant is pathogenic. Non-coding variants present a unique challenge for such assessments as compared to coding variants. For one, non-coding variants are present at much higher number in the genome than coding variants. In addition, our understanding of the rules that govern the non-coding regions of the genome is less complete than our understanding of the coding regions. Methods that allow for both the identification of candidate non-coding pathogenic variants and their functional validation may help overcome these caveats allowing for a greater number of patients to benefit from advancements in genetic therapeutics. We present here an unbiased approach combining whole genome sequencing (WGS) with patient-induced pluripotent stem cell (iPSC)-derived retinal organoids (ROs) transcriptome analysis. With this approach, we identified and functionally validated a novel pathogenic non-coding variant in a small family with a previously unresolved genetic diagnosis., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2020

2. MIB2 variants altering NOTCH signalling result in left ventricle hypertrabeculation/non-compaction and are associated with Ménétrier-like gastropathy.

Author

Piccolo P, Attanasio S, Secco I, Sangermano R, Strisciuglio C, Limongelli G, Miele E, Mutarelli M, Banfi S, Nigro V, Pons T, Valencia A, Zentilin L, Campione S, Nardone G, Lynnes TC, Celestino-Soper PB, Spoonamore KG, D'Armiento FP, Giacca M, Staiano A, Vatta M, Collesi C, and Brunetti-Pierri N

Subjects

Animals, Animals, Newborn, Cardiomyopathies etiology, Cardiomyopathies metabolism, Case-Control Studies, Cells, Cultured, Exome genetics, Female, Gastritis, Hypertrophic etiology, Gastritis, Hypertrophic metabolism, Gene Expression Regulation, Humans, Male, Myocytes, Cardiac cytology, Myocytes, Cardiac metabolism, Pedigree, Phenotype, Rats, Receptors, Notch genetics, Signal Transduction, Stomach Diseases etiology, Stomach Diseases metabolism, Ubiquitin-Protein Ligases metabolism, Ubiquitination, Ventricular Dysfunction, Left etiology, Ventricular Dysfunction, Left metabolism, Cardiomyopathies pathology, Gastritis, Hypertrophic pathology, Mutation, Missense genetics, Receptors, Notch metabolism, Stomach Diseases pathology, Ubiquitin-Protein Ligases genetics, Ventricular Dysfunction, Left pathology

Abstract

We performed whole exome sequencing in individuals from a family with autosomal dominant gastropathy resembling Ménétrier disease, a premalignant gastric disorder with epithelial hyperplasia and enhanced EGFR signalling. Ménétrier disease is believed to be an acquired disorder, but its aetiology is unknown. In affected members, we found a missense p.V742G variant in MIB2, a gene regulating NOTCH signalling that has not been previously linked to human diseases. The variant segregated with the disease in the pedigree, affected a highly conserved amino acid residue, and was predicted to be deleterious although it was found with a low frequency in control individuals. The purified protein carrying the p.V742G variant showed reduced ubiquitination activity in vitro and white blood cells from affected individuals exhibited significant reductions of HES1 and NOTCH3 expression reflecting alteration of NOTCH signalling. Because mutations of MIB1, the homolog of MIB2, have been found in patients with left ventricle non-compaction (LVNC), we investigated members of our family with Ménétrier-like disease for this cardiac abnormality. Asymptomatic left ventricular hypertrabeculation, the mildest end of the LVNC spectrum, was detected in two members carrying the MIB2 variant. Finally, we identified an additional MIB2 variant (p.V984L) affecting protein stability in an unrelated isolated case with LVNC. Expression of both MIB2 variants affected NOTCH signalling, proliferation and apoptosis in primary rat cardiomyocytes.In conclusion, we report the first example of left ventricular hypertrabeculation/LVNC with germline MIB2 variants resulting in altered NOTCH signalling that might be associated with a gastropathy clinically overlapping with Ménétrier disease., (© The Author 2016. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2017