De Hayr, Lachlan; Blok, Laura E R; Dias, Kerith-Rae M; Long, Jingyi; Begemann, Anaïs; Moir, Robyn D; Willis, Ian M; Mocera, Martina; Siegel, Gabriele; Steindl, Katharina; Evans, Carey-Anne; Zhu, Yinghao; Zhang, Futao; Field, Michael; Ma, Alan; Adès, Lesley C; Josephi-Taylor, Sarah; Pfundt, Rolph; Zaki, Maha S; Tomoum, Hoda; Gregor, Anne; Laube, Julia; Reis, André; Maddirevula, Sateesh; Hashem, Mais O; Zweier, Markus; Alkuraya, Fowzan S; Maroofian, Reza; Buckley, Michael F; Rauch, Anita; et al (2025). Biallelic variants in GTF3C3 result in an autosomal recessive disorder with intellectual disability. Genetics in Medicine, 27(1):101253.
Abstract
Purpose
This study details a novel syndromic form of autosomal recessive intellectual disability resulting from recessive variants in GTF3C3, encoding a key component of the DNA-binding transcription factor IIIC, which has a conserved role in RNA polymerase III-mediated transcription.
Methods
Exome sequencing, minigene analysis, molecular modeling, RNA polymerase III reporter gene assays, and Drosophila knockdown models were utilized to characterize GTF3C3 variants.
Results
Twelve affected individuals from 7 unrelated families were identified with homozygous or compound heterozygous missense variants in GTF3C3 including c.503C>T p.(Ala168Val), c.1268T>C p.(Leu423Pro), c.1436A>G p.(Tyr479Cys), c.2419C>T p.(Arg807Cys), and c.2420G>A p.(Arg807His). The cohort presented with intellectual disability, variable nonfamilial facial features, motor impairments, seizures, and cerebellar/corpus callosum malformations. Consistent with disruptions in intra- and intermolecular interactions observed in molecular modeling, RNA polymerase III reporter assays confirmed that the majority of missense variants resulted in a loss of function. Minigene analysis of the recurrent c.503C>T p.(Ala168Val) variant confirmed the introduction of a cryptic donor site into exon 4, resulting in mRNA missplicing. Consistent with the clinical features of this cohort, neuronal loss of Gtf3c3 in Drosophila induced seizure-like behavior, motor impairment, and learning deficits.
Conclusion
These findings confirm that GTF3C3 variants result in an autosomal recessive form of syndromic intellectual disability.
| Item Type: | Journal Article, refereed, original work |
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| Communities & Collections: | 04 Faculty of Medicine > Institute of Medical Genetics
04 Faculty of Medicine > Neuroscience Center Zurich |
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| Dewey Decimal Classification: | 610 Medicine & health
570 Life sciences; biology |
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| Uncontrolled Keywords: | Genetics, Genetics (clinical), GTF3C3, Intellectual disability, Minigene analysis, RNA polymerase III, Tfc4 |
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| Language: | English |
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| Date: | 1 January 2025 |
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| Deposited On: | 10 Dec 2024 13:34 |
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| Last Modified: | 31 May 2025 01:35 |
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| Publisher: | Elsevier |
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| ISSN: | 1098-3600 |
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| Additional Information: | This study did not generate data sets or code. All methods are provided in the manuscript or in supplemental files. |
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| OA Status: | Hybrid |
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| Free access at: | Publisher DOI. An embargo period may apply. |
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| Publisher DOI: | https://doi.org/10.1016/j.gim.2024.101253 |
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| Related URLs: | https://api.semanticscholar.org/CorpusID:274526461 |
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| PubMed ID: | 39636576 |
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| Other Identification Number: | Corpus ID: 274526461 |
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| Project Information: | - Funder: University of Zurich (UZH)
- Grant ID: URPP ITINERARE
- Project Title: University Research Priority Program ITINERARE: Innovative Therapies in Rare Diseases, Zurich, Switzerland
- : Project Websitehttps://www.itinerare.uzh.ch/en.html
- Funder: SNSF
- Grant ID: 179547
- Project Title: Genetic causes and molecular mechanisms in severe intellectual disability
- : Project Websitehttps://data.snf.ch/grants/grant/179547
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De Hayr, Lachlan