Your search keyword '"Bergametti, Francoise"' showing total 6 results

1. The pleiotropy associated with de novo variants in CHD4, CNOT3, and SETD5 extends to moyamoya angiopathy

Author

Pinard, Amélie, Guey, Stéphanie, Guo, Dongchuan, Cecchi, Alana C., Kharas, Natasha, Wallace, Stephanie, Regalado, Ellen S., Hostetler, Ellen M., Sharrief, Anjail Z., Bergametti, Françoise, Kossorotoff, Manoelle, Hervé, Dominique, Kraemer, Markus, Bamshad, Michael J., Nickerson, Deborah A., Smith, Edward R., Tournier-Lasserve, Elisabeth, and Milewicz, Dianna M.

Published

2020

2. Autosomal recessive systemic microangiopathy associated with FANCLFanconi anaemia

Author

Cousyn, Louis, Demeret, Sophie, Philippi, Anne, Bergametti, Francoise, Villa, Chiara, Morbini, Patrizia, Riant, Florence, Soulier, Jean, Tournier-Lasserve, Elisabeth, and Denier, Christian

Published

2024

3. End‐Truncated LAMB1 Causes a Hippocampal Memory Defect and a Leukoencephalopathy.

Author

Aloui, Chaker, Hervé, Dominique, Marenne, Gaelle, Savenier, Florian, Le Guennec, Kilan, Bergametti, Francoise, Verdura, Edgard, Ludwig, Thomas E., Lebenberg, Jessica, Jabeur, Waliyde, Morel, Hélène, Coste, Thibault, Demarquay, Geneviève, Bachoumas, Panagiotis, Cogez, Julien, Mathey, Guillaume, Bernard, Emilien, Chabriat, Hugues, Génin, Emmanuelle, and Tournier‐Lasserve, Elisabeth

Subjects

MAGNETIC resonance imaging, CEREBRAL small vessel diseases, EXTRACELLULAR matrix proteins, LEUKOENCEPHALOPATHIES, HIPPOCAMPUS (Brain), CLINICAL medicine, EPISODIC memory

Abstract

Objective: The majority of patients with a familial cerebral small vessel disease (CSVD) referred for molecular screening do not show pathogenic variants in known genes. In this study, we aimed to identify novel CSVD causal genes. Methods: We performed a gene‐based collapsing test of rare protein‐truncating variants identified in exome data of 258 unrelated CSVD patients of an ethnically matched control cohort and of 2 publicly available large‐scale databases, gnomAD and TOPMed. Western blotting was used to investigate the functional consequences of variants. Clinical and magnetic resonance imaging features of mutated patients were characterized. Results: We showed that LAMB1 truncating variants escaping nonsense‐mediated messenger RNA decay are strongly overrepresented in CSVD patients, reaching genome‐wide significance (p < 5 × 10−8). Using 2 antibodies recognizing the N‐ and C‐terminal parts of LAMB1, we showed that truncated forms of LAMB1 are expressed in the endogenous fibroblasts of patients and trapped in the cytosol. These variants are associated with a novel phenotype characterized by the association of a hippocampal type episodic memory defect and a diffuse vascular leukoencephalopathy. Interpretation: These findings are important for diagnosis and clinical care, to avoid unnecessary and sometimes invasive investigations, and also from a mechanistic point of view to understand the role of extracellular matrix proteins in neuronal homeostasis. ANN NEUROL 2021;90:962–975 [ABSTRACT FROM AUTHOR]

Published

2021

4. Novel CCM2 missense variants abrogating the CCM1–CCM2 interaction cause cerebral cavernous malformations

Author

Bergametti, Francoise, Viot, Geraldine, Verny, Christophe, Brechard, Marie Pierre, Denier, Christian, Labauge, Pierre, Petit, Paul, Nouet, Aurélien, Viallet, Francois, Chaussenot, Annabelle, Hervé, Dominique, Tournier-Lasserve, Elisabeth, and Riant, Florence

Abstract

BackgroundCerebral cavernous malformations (CCMs) are vascular malformations mostly located within the central nervous system. Most deleterious variants are loss of function mutations in one of the three CCMgenes. These genes code for proteins that form a ternary cytosolic complex with CCM2 as a hub. Very few CCM2missense variants have been shown to be deleterious by modifying the ternary CCM complex stability.ObjectivesTo investigate the causality of novel missense CCM2variants detected in patients with CCM.MethodsThe three CCM genes were screened in 984 patients referred for CCMmolecular screening. Interaction between CCM1 and CCM2 proteins was tested using co-immunoprecipitation experiments for the CCM2missense variants located in the phosphotyrosine binding (PTB) domain.Results11 distinct CCM2rare missense variants were found. Six variants predicted to be damaging were located in the PTB domain, four of them were novel. When co-transfected with CCM1 in HEK293T cells, a loss of interaction between CCM1 and CCM2 was observed for all six variants.ConclusionWe showed, using co-immunoprecipitation experiments, that CCM2 missense variants located in the PTB domain were actually damaging by preventing the normal interaction between CCM1 and CCM2. These data are important for diagnosis and genetic counselling, which are challenging in patients harbouring such variants.

Published

2020

5. Heterozygous HTRA1 mutations are associated with autosomal dominant cerebral small vessel disease.

Author

Verdura, Edgard, Hervé, Dominique, Scharrer, Eva, del Mar Amador, Maria, Guyant-Maréchal, Lucie, Philippi, Anne, Corlobé, Astrid, Bergametti, Francoise, Gazal, Steven, Prieto-Morin, Carol, Beaufort, Nathalie, Le Bail, Benoit, Viakhireva, Irina, Dichgans, Martin, Chabriat, Hugues, Haffner, Christof, Tournier-Lasserve, Elisabeth, Amador, Maria Del Mar, and Bergametti, Françoise

Abstract

Cerebral small vessel disease represents a heterogeneous group of disorders leading to stroke and cognitive impairment. While most small vessel diseases appear sporadic and related to age and hypertension, several early-onset monogenic forms have also been reported. However, only a minority of patients with familial small vessel disease carry mutations in one of known small vessel disease genes. We used whole exome sequencing to identify candidate genes in an autosomal dominant small vessel disease family in which known small vessel disease genes had been excluded, and subsequently screened all candidate genes in 201 unrelated probands with a familial small vessel disease of unknown aetiology, using high throughput multiplex polymerase chain reaction and next generation sequencing. A heterozygous HTRA1 variant (R166L), absent from 1000 Genomes and Exome Variant Server databases and predicted to be deleterious by in silico tools, was identified in all affected members of the index family. Ten probands of 201 additional unrelated and affected probands (4.97%) harboured a heterozygous HTRA1 mutation predicted to be damaging. There was a highly significant difference in the number of likely deleterious variants in cases compared to controls (P = 4.2 × 10(-6); odds ratio = 15.4; 95% confidence interval = 4.9-45.5), strongly suggesting causality. Seven of these variants were located within or close to the HTRA1 protease domain, three were in the N-terminal domain of unknown function and one in the C-terminal PDZ domain. In vitro activity analysis of HTRA1 mutants demonstrated a loss of function effect. Clinical features of this autosomal dominant small vessel disease differ from those of CARASIL and CADASIL by a later age of onset and the absence of the typical extraneurological features of CARASIL. They are similar to those of sporadic small vessel disease, except for their familial nature. Our data demonstrate that heterozygous HTRA1 mutations are an important cause of familial small vessel disease, and that screening of HTRA1 should be considered in all patients with a hereditary small vessel disease of unknown aetiology. [ABSTRACT FROM AUTHOR]

Published

2015

6. De novo mutations in CBL causing early-onset paediatric moyamoya angiopathy

Author

Guey, Stéphanie, Grangeon, Lou, Brunelle, Francis, Bergametti, Francoise, Amiel, Jeanne, Lyonnet, Stanislas, Delaforge, Audrey, Arnould, Minh, Desnous, Bééatrice, Bellesme, Céééline, Hervéééé, Dominique, Schwitalla, Jan C, Kraemer, Markus, Tournier-Lasserve, Elisabeth, and Kossorotoff, Manoelle

Abstract

BackgroundMoyamoya angiopathy (MMA) is characterised by a progressive stenosis of the terminal part of the internal carotid arteries and the development of abnormal collateral deep vessels. Its pathophysiology is unknown. MMA can be the sole manifestation of the disease (moyamoya disease) or be associated with various conditions (moyamoya syndrome) including some Mendelian diseases. We aimed to investigate the genetic basis of moyamoya using a whole exome sequencing (WES) approach conducted in sporadic cases without any overt symptom suggestive of a known Mendelian moyamoya syndrome.MethodsA WES was performed in four unrelated early-onset moyamoya sporadic cases and their parents (trios). Exome data were analysed under dominant de novo, autosomal recessive and X-linked hypotheses. A panel of 17 additional sporadic cases with early-onset moyamoya was available for mutation recurrence analysis.ResultsWe identified two germline de novo mutations in CBLin two out of the four trio probands, two girls presenting with an infancy-onset severe MMA. Both mutations were predicted to alter the ubiquitin ligase activity of the CBL protein that acts as a negative regulator of the RAS pathway. These two germline CBLmutations have previously been described in association with a developmental Noonan-like syndrome and susceptibility to juvenile myelomonocytic leukaemia (JMML). Notably, the two mutated girls never developed JMML and presented only subtle signs of RASopathy that did not lead to evoke this diagnosis during follow-up.ConclusionsThese data suggest that CBLgene screening should be considered in early-onset moyamoya, even in the absence of obvious signs of RASopathy.

Published

2017