Novel loss-of-function variants expand ABCC9-related intellectual disability and myopathy syndrome

Loss-of-function mutation of ABCC9, the gene encoding the SUR2 subunit of ATP sensitive-potassium (KATP) channels, was recently associated with autosomal recessive ABCC9-related intellectual disability and myopathy syndrome (AIMS). Here we identify nine additional subjects, from seven unrelated fami...

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Veröffentlicht in:Brain (London, England : 1878) England : 1878), 2024-05, Vol.147 (5), p.1822-1836
Hauptverfasser: Efthymiou, Stephanie, Scala, Marcello, Nagaraj, Vini, Ochenkowska, Katarzyna, Komdeur, Fenne L, Liang, Robin A, Abdel-Hamid, Mohamed S, Sultan, Tipu, Barøy, Tuva, Van Ghelue, Marijke, Vona, Barbara, Maroofian, Reza, Zafar, Faisal, Alkuraya, Fowzan S, Zaki, Maha S, Severino, Mariasavina, Duru, Kingsley C, Tryon, Robert C, Brauteset, Lin Vigdis, Ansari, Morad, Hamilton, Mark, van Haelst, Mieke M, van Haaften, Gijs, Zara, Federico, Houlden, Henry, Samarut, Éric, Nichols, Colin G, Smeland, Marie F, McClenaghan, Conor
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Sprache:eng
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Zusammenfassung:Loss-of-function mutation of ABCC9, the gene encoding the SUR2 subunit of ATP sensitive-potassium (KATP) channels, was recently associated with autosomal recessive ABCC9-related intellectual disability and myopathy syndrome (AIMS). Here we identify nine additional subjects, from seven unrelated families, harbouring different homozygous loss-of-function variants in ABCC9 and presenting with a conserved range of clinical features. All variants are predicted to result in severe truncations or in-frame deletions within SUR2, leading to the generation of non-functional SUR2-dependent KATP channels. Affected individuals show psychomotor delay and intellectual disability of variable severity, microcephaly, corpus callosum and white matter abnormalities, seizures, spasticity, short stature, muscle fatigability and weakness. Heterozygous parents do not show any conserved clinical pathology but report multiple incidences of intra-uterine fetal death, which were also observed in an eighth family included in this study. In vivo studies of abcc9 loss-of-function in zebrafish revealed an exacerbated motor response to pentylenetetrazole, a pro-convulsive drug, consistent with impaired neurodevelopment associated with an increased seizure susceptibility. Our findings define an ABCC9 loss-of-function-related phenotype, expanding the genotypic and phenotypic spectrum of AIMS and reveal novel human pathologies arising from KATP channel dysfunction.
ISSN:0006-8950
1460-2156
1460-2156
DOI:10.1093/brain/awae010