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Bi-allelic ACBD6 variants lead to a neurodevelopmental syndrome with progressive and complex movement disorders.

Kaiyrzhanov, R; Rad, A; Lin, S-J; Bertoli-Avella, A; Kallemeijn, WW; Godwin, A; Zaki, MS; Huang, K; Lau, T; Petree, C; et al. Kaiyrzhanov, R; Rad, A; Lin, S-J; Bertoli-Avella, A; Kallemeijn, WW; Godwin, A; Zaki, MS; Huang, K; Lau, T; Petree, C; Efthymiou, S; Karimiani, EG; Hempel, M; Normand, EA; Rudnik-Schöneborn, S; Schatz, UA; Baggelaar, MP; Ilyas, M; Sultan, T; Alvi, JR; Ganieva, M; Fowler, B; Aanicai, R; Tayfun, GA; Al Saman, A; Alswaid, A; Amiri, N; Asilova, N; Shotelersuk, V; Yeetong, P; Azam, M; Babaei, M; Monajemi, GB; Mohammadi, P; Samie, S; Banu, SH; Pinto Basto, J; Kortüm, F; Bauer, M; Bauer, P; Beetz, C; Garshasbi, M; Issa, AH; Eyaid, W; Ahmed, H; Hashemi, N; Hassanpour, K; Herman, I; Ibrohimov, S; Abdul-Majeed, BA; Imdad, M; Isrofilov, M; Kaiyal, Q; Khan, S; Kirmse, B; Koster, J; Lourenço, CM; Mitani, T; Moldovan, O; Murphy, D; Najafi, M; Pehlivan, D; Rocha, ME; Salpietro, V; Schmidts, M; Shalata, A; Mahroum, M; Talbeya, JK; Taylor, RW; Vazquez, D; Vetro, A; Waterham, HR; Zaman, M; Schrader, TA; Chung, WK; Guerrini, R; Lupski, JR; Gleeson, J; Suri, M; Jamshidi, Y; Bhatia, KP; Vona, B; Schrader, M; Severino, M; Guille, M; Tate, EW; Varshney, GK; Houlden, H; Maroofian, R (2024) Bi-allelic ACBD6 variants lead to a neurodevelopmental syndrome with progressive and complex movement disorders. Brain, 147 (4). pp. 1436-1456. ISSN 1460-2156 https://doi.org/10.1093/brain/awad380
SGUL Authors: Jamshidi, Yalda

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Abstract

The acyl-CoA-binding domain-containing protein 6 (ACBD6) is ubiquitously expressed, plays a role in the acylation of lipids and proteins and regulates the N-myristoylation of proteins via N-myristoyltransferase enzymes (NMTs). However, its precise function in cells is still unclear, as is the consequence of ACBD6 defects on human pathophysiology. Using exome sequencing and extensive international data sharing efforts, we identified 45 affected individuals from 28 unrelated families (consanguinity 93%) with bi-allelic pathogenic, predominantly loss-of-function (18/20) variants in ACBD6. We generated zebrafish and Xenopus tropicalis acbd6 knockouts by CRISPR/Cas9 and characterized the role of ACBD6 on protein N-myristoylation with myristic acid alkyne (YnMyr) chemical proteomics in the model organisms and human cells, with the latter also being subjected further to ACBD6 peroxisomal localization studies. The affected individuals (23 males and 22 females), aged 1-50 years, typically present with a complex and progressive disease involving moderate-to-severe global developmental delay/intellectual disability (100%) with significant expressive language impairment (98%), movement disorders (97%), facial dysmorphism (95%) and mild cerebellar ataxia (85%) associated with gait impairment (94%), limb spasticity/hypertonia (76%), oculomotor (71%) and behavioural abnormalities (65%), overweight (59%), microcephaly (39%) and epilepsy (33%). The most conspicuous and common movement disorder was dystonia (94%), frequently leading to early-onset progressive postural deformities (97%), limb dystonia (55%) and cervical dystonia (31%). A jerky tremor in the upper limbs (63%), a mild head tremor (59%), parkinsonism/hypokinesia developing with advancing age (32%) and simple motor and vocal tics were among other frequent movement disorders. Midline brain malformations including corpus callosum abnormalities (70%), hypoplasia/agenesis of the anterior commissure (66%), short midbrain and small inferior cerebellar vermis (38% each) as well as hypertrophy of the clava (24%) were common neuroimaging findings. Acbd6-deficient zebrafish and Xenopus models effectively recapitulated many clinical phenotypes reported in patients including movement disorders, progressive neuromotor impairment, seizures, microcephaly, craniofacial dysmorphism and midbrain defects accompanied by developmental delay with increased mortality over time. Unlike ACBD5, ACBD6 did not show a peroxisomal localization and ACBD6-deficiency was not associated with altered peroxisomal parameters in patient fibroblasts. Significant differences in YnMyr-labelling were observed for 68 co- and 18 post-translationally N-myristoylated proteins in patient-derived fibroblasts. N-myristoylation was similarly affected in acbd6-deficient zebrafish and X. tropicalis models, including Fus, Marcks and Chchd-related proteins implicated in neurological diseases. The present study provides evidence that bi-allelic pathogenic variants in ACBD6 lead to a distinct neurodevelopmental syndrome accompanied by complex and progressive cognitive and movement disorders.

Item Type: Article
Keywords: ACBD6, N-myristoylation, ataxia, dystonia, neurodegeneration, parkinsonism, Animals, Female, Humans, Male, ATP-Binding Cassette Transporters, Intellectual Disability, Microcephaly, Movement Disorders, Nervous System Malformations, Neurodevelopmental Disorders, Tremor, Zebrafish, Infant, Child, Preschool, Child, Adolescent, Young Adult, Adult, Middle Aged, Animals, Zebrafish, Humans, Microcephaly, Movement Disorders, Nervous System Malformations, Tremor, ATP-Binding Cassette Transporters, Adolescent, Adult, Middle Aged, Child, Child, Preschool, Infant, Female, Male, Young Adult, Intellectual Disability, Neurodevelopmental Disorders, ACBD6, neurodegeneration, dystonia, ataxia, parkinsonism, N-myristoylation, ACBD6, N-myristoylation, ataxia, dystonia, neudegeneration, parkinsonism, 11 Medical and Health Sciences, 17 Psychology and Cognitive Sciences, Neurology & Neurosurgery
Journal or Publication Title: Brain
ISSN: 1460-2156
Language: eng
Dates:
DateEvent
4 April 2024Published
10 November 2023Published Online
20 October 2023Accepted
Publisher License: Creative Commons: Attribution 4.0
Projects:
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2545-1-0University of TübingenUNSPECIFIED
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469177153German Research FoundationUNSPECIFIED
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DECODE-EETuscany Region Call for Health 2018UNSPECIFIED
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UNSPECIFIEDNIHR Biomedical Research Centre for Ageing and Age-related diseaseUNSPECIFIED
HSRI 66-122Health Systems Research Institutehttp://dx.doi.org/10.13039/501100010724
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PubMed ID: 37951597
Web of Science ID: WOS:001190032000001
Go to PubMed abstract
URI: https://openaccess.sgul.ac.uk/id/eprint/115881
Publisher's version: https://doi.org/10.1093/brain/awad380

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