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  1. De novo TBR1 variants cause a neurocognitive phenotype with ID and autistic traits: report of 25 new individuals and review of the literature

    International audience ; TBR1, a T-box transcription factor expressed in the cerebral cortex, regulates the expression of several candidate genes for autism spectrum disorders (ASD). Although TBR1 has been reported as a high-confidence risk gene for... mehr

     

    International audience ; TBR1, a T-box transcription factor expressed in the cerebral cortex, regulates the expression of several candidate genes for autism spectrum disorders (ASD). Although TBR1 has been reported as a high-confidence risk gene for ASD and intellectual disability (ID) in functional and clinical reports since 2011, TBR1 has only recently been recorded as a human disease gene in the OMIM database. Currently, the neurodevelopmental disorders and structural brain anomalies associated with TBR1 variants are not well characterized. Through international data sharing, we collected data from 25 unreported individuals and compared them with data from the literature. We evaluated structural brain anomalies in seven individuals by analysis of MRI images, and compared these with anomalies observed in TBR1 mutant mice. The phenotype included ID in all individuals, associated to autistic traits in 76% of them. No recognizable facial phenotype could be identified. MRI analysis revealed a reduction of the anterior commissure and suggested new features including dysplastic hippocampus and subtle neocortical dysgenesis. This report supports the role of TBR1 in ID associated with autistic traits and suggests new structural brain malformations in humans. We hope this work will help geneticists to interpret TBR1 variants and diagnose ASD probands.

     

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    Quelle: BASE Fachausschnitt Germanistik
    Sprache: Englisch
    Medientyp: Aufsatz aus einer Zeitschrift
    Format: Online
    Übergeordneter Titel: ISSN: 1018-4813 ; EISSN: 1476-5438 ; European Journal of Human Genetics ; https://www.hal.inserm.fr/inserm-03846561 ; European Journal of Human Genetics, 2020, 28 (6), pp.770-782. ⟨10.1038/s41431-020-0571-6⟩
    Schlagworte: MESH: Adolescent; MESH: Adult; MESH: Hippocampus; MESH: Humans; MESH: Intellectual Disability; MESH: Male; MESH: Mice; MESH: Mutation; MESH: Neocortex; MESH: Phenotype; MESH: Syndrome; MESH: T-Box Domain Proteins; MESH: Animals; MESH: Autistic Disorder; MESH: Child; Preschool; MESH: Cognition; MESH: Craniofacial Abnormalities; MESH: Female; [SDV]Life Sciences [q-bio]; [SDV.GEN.GH]Life Sciences [q-bio]/Genetics/Human genetics
  2. NSs amyloid formation is associated with the virulence of Rift Valley fever virus in mice

    International audience ; Amyloid fibrils result from the aggregation of host cell-encoded proteins, many giving rise to specific human illnesses such as Alzheimer's disease. Here we show that the major virulence factor of Rift Valley fever virus, the... mehr

     

    International audience ; Amyloid fibrils result from the aggregation of host cell-encoded proteins, many giving rise to specific human illnesses such as Alzheimer's disease. Here we show that the major virulence factor of Rift Valley fever virus, the protein NSs, forms filamentous structures in the brain of mice and affects mortality. NSs assembles into nuclear and cytosolic disulfide bond-dependent fibrillary aggregates in infected cells. NSs structural arrangements exhibit characteristics typical for amyloids, such as an ultrastructure of 12 nm-width fibrils, a strong detergent resistance, and interactions with the amyloid-binding dye Thioflavin-S. The assembly dynamics of viral amyloid-like fibrils can be visualized in real-time. They form spontaneously and grow in an amyloid fashion within 5 hours. Together, our results demonstrate that viruses can encode amyloid-like fibril-forming proteins and have strong implications for future research on amyloid aggregation and toxicity in general.

     

    Export in Literaturverwaltung   RIS-Format
      BibTeX-Format
    Quelle: BASE Fachausschnitt Germanistik
    Sprache: Englisch
    Medientyp: Aufsatz aus einer Zeitschrift
    Format: Online
    Übergeordneter Titel: ISSN: 2041-1723 ; EISSN: 2041-1723 ; Nature Communications ; https://hal-pasteur.archives-ouvertes.fr/pasteur-02949167 ; Nature Communications, 2020, 11 (1), pp.3281. ⟨10.1038/s41467-020-17101-y⟩
    Schlagworte: MESH: Amyloid; MESH: Amyloidogenic Proteins; MESH: Animals; MESH: Cell Line; Tumor; MESH: Cell Nucleus; MESH: Chlorocebus aethiops; MESH: HeLa Cells; MESH: Humans; MESH: Mice; MESH: Microscopy; Confocal; Electron; Transmission; MESH: Protein Aggregation; Pathological; MESH: Rift Valley Fever; MESH: Rift Valley fever virus; MESH: Vero Cells; MESH: Viral Nonstructural Proteins; MESH: Virulence; MESH: Virulence Factors; [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology
    Lizenz:

    creativecommons.org/licenses/by/ ; info:eu-repo/semantics/OpenAccess