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Discovery of a neuromuscular syndrome caused by biallelic variants in ASCC3

Activating Signal Cointegrator 1 Complex, Subunit 3 (ASCC3) is part of the four-part ASC-1 transcriptional cointegrator complex. This complex includes ASCC1 (associated with spinal muscular atrophy with congenital bone fractures 2), TRIP4 (associated with spinal muscular atrophy with congenital bone...

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Detalles Bibliográficos
Autores principales: Nair, Divya, Li, Dong, Erdogan, Hannah, Yoon, Andrew, Harr, Margaret H., Bergant, Gaber, Peterlin, Borut, Škrjanec Pušenjak, Maruša, Jayakar, Parul, Pfundt, Rolph, Jansen, Sandra, McWalter, Kirsty, Sidhu, Alpa, Saliganan, Sheila, Agolini, Emanuele, Jacob, Arthur, Pasquier, Jennifer, Arash, Rafii, Kahrizi, Kimia, Najmabadi, Hossein, Ropers, Hans-Hilger, Bhoj, Elizabeth J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8756546/
https://www.ncbi.nlm.nih.gov/pubmed/35047834
http://dx.doi.org/10.1016/j.xhgg.2021.100024
Descripción
Sumario:Activating Signal Cointegrator 1 Complex, Subunit 3 (ASCC3) is part of the four-part ASC-1 transcriptional cointegrator complex. This complex includes ASCC1 (associated with spinal muscular atrophy with congenital bone fractures 2), TRIP4 (associated with spinal muscular atrophy with congenital bone fractures 1), and ASCC2 (not yet associated with human disease.) ASCC3 encodes a DNA helicase responsible for generating single-stranded DNA as part of the DNA damage response. Interestingly, ASCC3 expresses coding and non-coding isoforms, which act in opposition to balance the recovery of gene transcription after UV-induced DNA damage. Here we report the discovery of ASCC3 as the cause of a neuromuscular syndrome in seven unreported individuals from six unrelated families and updates on the one previously reported family. All the individuals share a neurologic phenotype that ranges from severe developmental delay to muscle fatigue. There appears to be genotype-phenotype correlation, as the most mildly affected individual is homozygous for a rare missense variant, while the more severely affected individuals are compound heterozygotes for a missense and a presumed loss-of-function (LOF) variant. There are no individuals with biallelic presumed LOF variants in our cohort or in gnomAD, as this genotype may not be compatible with life. In summary we report a syndrome in these eleven individuals from seven families with biallelic variants in ASCC3.