Mutations in ACTL6B Cause Neurodevelopmental Deficits and Epilepsy and Lead to Loss of Dendrites in Human Neurons

被引：81

作者：

Bell, Scott ^{[1
]}

Rousseau, Justine ^{[2
]}

Peng, Huashan ^{[1
]}

Aouabed, Zahia ^{[1
]}

Priam, Pierre ^{[3
]}

Theroux, Jean-Francois ^{[1
]}

Jefri, Malvin ^{[1
]}

Tanti, Arnaud ^{[1
]}

Wu, Hanrong ^{[1
]}

Kolobova, Ilaria ^{[1
]}

Silviera, Heika ^{[1
]}

Manzano-Vargas, Karla ^{[1
]}

Ehresmann, Sophie ^{[2
]}

Hamdan, Fadi F. ^{[2
]}

Hettige, Nuwan ^{[1
]}

Zhang, Xin ^{[1
]}

Antonyan, Lilit ^{[1
]}

Nassif, Christina ^{[2
]}

Ghaloul-Gonzalez, Lina ^{[4
]}

Sebastian, Jessica ^{[4
]}

Vockley, Jerry ^{[4
]}

Begtrup, Amber G. ^{[5
]}

Wentzensen, Ingrid M. ^{[5
]}

Crunk, Amy ^{[5
]}

Nicholls, Robert D. ^{[4
]}

Herman, Kristin C. ^{[6
]}

Deignan, Joshua L. ^{[7
]}

Al-Hertani, Walla ^{[8
,9
,10
]}

Efthymiou, Stephanie ^{[11
]}

Salpietro, Vincenzo ^{[11
]}

Miyake, Noriko ^{[12
]}

Makita, Yoshio ^{[13
]}

Matsumoto, Naomichi ^{[12
]}

Ostern, Rune ^{[14
]}

Houge, Gunnar ^{[15
]}

Hafstrom, Maria ^{[14
]}

Fassi, Emily ^{[16
]}

Houlden, Henry ^{[11
]}

Wassink-Ruiter, Jolien S. Klein ^{[17
,18
]}

Nelson, Dominic ^{[19
]}

Goldstein, Amy ^{[20
]}

Dabir, Tabib ^{[21
]}

van Gils, Julien ^{[22
]}

Bourgeron, Thomas ^{[22
]}

Delorme, Richard ^{[23
]}

Cooper, Gregory M. ^{[24
]}

Martinez, Jose E. ^{[25
]}

Finnila, Candice R. ^{[24
]}

Carmant, Lionel ^{[25
]}

Lortie, Anne ^{[26
]}

机构：

[1] McGill Univ, Douglas Hosp, Res Inst, Psychiat Genet Grp, Montreal, PQ H4H 1R3, Canada

[2] Univ Montreal, CHU St Justine, Res Ctr, Montreal, PQ H3T 1C5, Canada

[3] Univ Montreal, IRIC, Montreal, PQ H3T 1J4, Canada

[4] UPMC, Univ Pittsburgh, Div Med Genet, Dept Pediat,Childrens Hosp Pittsburgh, Pittsburgh, PA USA

[5] GeneDx, Gaithersburg, MD USA

[6] Univ Calif Davis, Med Ctr, Sect Med Genom, Sacramento, CA 95817 USA

[7] Univ Calif Los Angeles, David Geffen Sch Med, Dept Pathol & Lab Med, Los Angeles, CA 90095 USA

[8] Alberta Childrens Prov Gen Hosp, Cumming Sch Med, Dept Med Genet, Calgary, AB T3B 6A8, Canada

[9] Alberta Childrens Prov Gen Hosp, Cumming Sch Med, Dept Paediat, Calgary, AB T3B 6A8, Canada

[10] Univ Calgary, Calgary, AB T3B 6A8, Canada

[11] UCL Inst Neurol, Dept Mol Neurosci, Queen Sq, London WC1N 3BG, England

[12] Yokohama City Univ, Grad Sch Med, Dept Human Genet, Yokohama, Kanagawa 2360004, Japan

[13] Asahikawa Med Univ, Educ Ctr, Asahikawa, Hokkaido 0788510, Japan

[14] Trondheim Reg & Univ Hosp, St Olavs Hosp, Dept Pediat, Postbox 3250, N-7006 Trondheim, Norway

[15] Haukeland Hosp, Dept Med Genet, N-5021 Bergen, Norway

[16] Washington Univ, Sch Med, Dept Pediat, Div Genet & Genom Med, St Louis, MO 63110 USA

[17] Univ Groningen, Dept Genet, NL-9700 RB Groningen, Netherlands

[18] Univ Med Ctr Groningen, NL-9700 RB Groningen, Netherlands

[19] McGill Univ, Dept Human Genet, Montreal, PQ H3G 0B1, Canada

[20] Childrens Hosp Pittsburgh, Div Child Neurol, Pittsburgh, PA 15213 USA

[21] Belfast City Hosp, Belfast Hlth & Social Care Trust, Northern Ireland Reg Genet Ctr, Lisburn Rd, Belfast BT9 7AB, Antrim, North Ireland

[22] Univ Paris Diderot, Inst Pasteur, Human Genet & Cognit Funct, UMR3571,CNRS, F-75015 Paris, France

[23] Robert Debre Hosp, AP HP, Child & Adolescent Psychiat Dept, Paris, France

[24] HudsonAlpha Inst Biotechnol, Huntsville, AL 35806 USA

[25] Childrens Rehabil Serv, Mobile, AL 36604 USA

[26] Univ Montreal, Dept Neurol, Montreal, PQ, Canada

[27] Univ Med Ctr Utrecht, Dept Genet, NL-3508 AB Utrecht, Netherlands

[28] Addenbrookes Hosp, Dept Clin Genet, Cambridge CB2 0QQ, England

[29] Univ Med Ctr Leipzig, Inst Human Genet, D-04103 Leipzig, Germany

[30] Radboud Univ Nijmegen, Med Ctr, Dept Human Genet, Donders Inst Brain Cognit & Behav, NL-6500 GA Nijmegen, Netherlands

[31] Maastricht Univ, Med Ctr, Dept Clin Genet, NL-6202 AZ Maastricht, Netherlands

[32] Maastricht Univ, Med Ctr, Sch Oncol & Dev Biol GROW, NL-6202 AZ Maastricht, Netherlands

[33] SEIN, Heemstede, Netherlands

[34] Cedars Sinai Med Ctr, Med Genet, Los Angeles, CA 90048 USA

[35] CHU Montpellier, Ctr Reference Anomalies Dev & Syndromes Malformat, Dept Genet Med, Serv Genet Clin, F-34295 Montpellier 5, France

来源：

AMERICAN JOURNAL OF HUMAN GENETICS | 2019年 / 104卷 / 05期

关键词：

CHROMATIN REMODELING COMPLEX; COFFIN-SIRIS SYNDROME; SYNAPTIC PLASTICITY; PROTEIN EXPRESSION; SWI/SNF COMPLEX; MEMORY; GENE; OLIGODENDROCYTE; TRANSCRIPTION; DISORDERS;

D O I：

10.1016/j.ajhg.2019.03.022

中图分类号：

Q3 [遗传学];

学科分类号：

071007 ; 090102 ;

摘要：

We identified individuals with variations in ACTL6B, a component of the chromatin remodeling machinery including the BAF complex. Ten individuals harbored bi-allelic mutations and presented with global developmental delay, epileptic encephalopathy, and spasticity, and ten individuals with de novo heterozygous mutations displayed intellectual disability, ambulation deficits, severe language impairment, hypotonia, Rett-like stereotypies, and minor facial dysmorphisms ( wide mouth, diastema, bulbous nose). Nine of these ten unrelated individuals had the identical de novo c.1027G>A (p.Gly343Arg) mutation. Human-derived neurons were generated that recaptured ACTL6B expression patterns in development from progenitor cell to post-mitotic neuron, validating the use of this model. Engineered knock-out of ACTL6B in wild-type human neurons resulted in profound deficits in dendrite development, a result recapitulated in two individuals with different bi-allelic mutations, and reversed on clonal genetic repair or exogenous expression of ACTL6B. Whole-transcriptome analyses and whole-genomic profiling of the BAF complex in wild-type and bi-allelic mutant ACTL6B neural progenitor cells and neurons revealed increased genomic binding of the BAF complex in ACTL6B mutants, with corresponding transcriptional changes in several genes including TPPP and FSCN1, suggesting that altered regulation of some cytoskeletal genes contribute to altered dendrite development. Assessment of bi-alleic and heterozygous ACTL6B mutations on an ACTL6B knock-out human background demonstrated that bi-allelic mutations mimic engineered deletion deficits while heterozygous mutations do not, suggesting that the former are loss of function and the latter are gain of function. These results reveal a role for ACTL6B in neurodevelopment and implicate another component of chromatin remodeling machinery in brain disease.

引用

页码：815 / 834

页数：20

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