Missense variants in ANKRD11 cause KBG syndrome by impairment of stability or 
transcriptional activity of the encoded protein

De Boer, Elke; Ockeloen, Charlotte W.; Kampen, Rosalie A.; Hampstead, Juliet E.; Dingemans, Alexander J. M.; Rots, Dmitrijs; Lütje, Lukas; Ashraf, Tazeen; Baker, Rachel; Barat-Houari, Mouna; Angle, Brad; Chatron, Nicolas; Denommé-Pichon, Anne-Sophie; Devinsky, Orrin; Dubourg, Christèle; Elmslie, Frances; Elloumi, Houda Zghal; Faivre, Laurence; Fitzgerald-Butt, Sarah; Geneviève, David; Goos, Jacqueline A. C.; Helm, Benjamin M.; Kini, Usha; Lasa-Aranzasti, Amaia; Lesca, Gaetan; Lynch, Sally A.; Mathijssen, Irene M. J.; McGowan, Ruth; Monaghan, Kristin G.; Odent, Sylvie; Pfundt, Rolph; Putoux, Audrey; Van Reeuwijk, Jeroen; Santen, Gijs W. E.; Sasaki, Erina; Sorlin, Arthur; Van der Spek, Peter J.; Stegmann, Alexander P. A.; Swagemakers, Sigrid M. A.; Valenzuela, Irene; Viora-Dupont, Eléonore; Vitobello, Antonio; Ware, Stephanie M.; Wéber, Mathys; Gilissen, Christian; Low, Karen J.; Fisher, Simon E.; Vissers, Lisenka E. L. M.; Wong, Maggie M. K.; Kleefstra, Tjitske

doi:10.1016/j.gim.2022.06.007

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Missense variants in ANKRD11 cause KBG syndrome by impairment of stability or transcriptional activity of the encoded protein

De Boer, E., Ockeloen, C. W., Kampen, R. A., Hampstead, J. E., Dingemans, A. J. M., Rots, D., et al. (2022). Missense variants in ANKRD11 cause KBG syndrome by impairment of stability or transcriptional activity of the encoded protein. Genetics in Medicine, 24(10), 2051-2064. doi:10.1016/j.gim.2022.06.007.

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Creators:
De Boer, Elke^{1, 2}, Author
Ockeloen, Charlotte W.², Author
Kampen, Rosalie A.³, Author
Hampstead, Juliet E.², Author
Dingemans, Alexander J. M.^{1, 2}, Author
Rots, Dmitrijs^{1, 2}, Author
Lütje, Lukas³, Author
Ashraf, Tazeen^{4, 5}, Author
Baker, Rachel⁶, Author
Barat-Houari, Mouna⁷, Author
Angle, Brad⁶, Author
Chatron, Nicolas^{8, 9}, Author
Denommé-Pichon, Anne-Sophie^{10, 11}, Author
Devinsky, Orrin¹², Author
Dubourg, Christèle^{13, 14}, Author
Elmslie, Frances¹⁵, Author
Elloumi, Houda Zghal¹⁶, Author
Faivre, Laurence¹¹, Author
Fitzgerald-Butt, Sarah¹⁷, Author
Geneviève, David⁷, Author
Goos, Jacqueline A. C.¹⁸, AuthorHelm, Benjamin M.^{17, 19}, AuthorKini, Usha²⁰, AuthorLasa-Aranzasti, Amaia²¹, AuthorLesca, Gaetan^{8, 9}, AuthorLynch, Sally A.²², AuthorMathijssen, Irene M. J.¹⁸, AuthorMcGowan, Ruth²³, AuthorMonaghan, Kristin G.¹⁶, AuthorOdent, Sylvie¹³, AuthorPfundt, Rolph², AuthorPutoux, Audrey^{9, 24}, AuthorVan Reeuwijk, Jeroen^{1, 2}, AuthorSanten, Gijs W. E.²⁵, AuthorSasaki, Erina²⁰, AuthorSorlin, Arthur¹¹, AuthorVan der Spek, Peter J.¹⁸, AuthorStegmann, Alexander P. A.^{2, 26}, AuthorSwagemakers, Sigrid M. A.¹⁸, AuthorValenzuela, Irene²¹, AuthorViora-Dupont, Eléonore¹¹, AuthorVitobello, Antonio^{10, 11}, AuthorWare, Stephanie M.¹⁷, AuthorWéber, Mathys¹¹, AuthorGilissen, Christian², AuthorLow, Karen J.²⁷, AuthorFisher, Simon E.^{1, 3}, Author Vissers, Lisenka E. L. M.^{1, 2}, AuthorWong, Maggie M. K.³, Author Kleefstra, Tjitske^{1, 2, 28}, Author more..

Affiliations:
1Donders Institute for Brain, Cognition and Behaviour, External Organizations, ou_55236
2Radboud University Medical Center, Nijmegen, The Netherlands, ou_persistent22
3Language and Genetics Department, MPI for Psycholinguistics, Max Planck Society, ou_792549
4Great Ormond Street Hospital for Children NHS Foundation Trust, London, UK, ou_persistent22
5Guy’s and St Thomas’ NHS Foundation Trust, London, UK, ou_persistent22
6Advocate Children's Hospital, Park Ridge, IL, USA, ou_persistent22
7Centre Hospitalier Universitaire de Montpellier, Montpellier, France, ou_persistent22
8Hospices Civils de Lyon, Bron, France, ou_persistent22
9Université Claude Bernard Lyon 1, Lyon, France, ou_persistent22
10Université de Bourgogne Franche-Comté , Dijon, France, ou_persistent22
11Centre Hospitalier Universitaire de Dijon, Dijon, France, ou_persistent22
12NYU Grossman School of Medicine, New York, NY, USA, ou_persistent22
13Centre Hospitalier Universitaire de Rennes, Rennes, France, ou_persistent22
14University of Rennes, Rennes, France, ou_persistent22
15St George's Hospital, University of London, London, UK, ou_persistent22
16GeneDx, Gaithersburg, MD, USA, ou_persistent22
17Indiana University School of Medicine , Indianapolis, IN, USA, ou_persistent22
18Erasmus Medical Center, Rotterdam, The Netherlands, ou_persistent22
19Indiana University, Indianapolis, IN, USA, ou_persistent22
20Oxford University Hospitals NHS Foundation Trust, Oxford, UK, ou_persistent22
21University Hospital and Medicine Genetics Group, Vall d'Hebron Research Institute, Barcelona, Spain, ou_persistent22
22Children's Health Ireland at Crumlin and Temple Street, Dublin, Ireland, ou_persistent22
23Queen Elizabeth University Hospital, Glasgow,UK, ou_persistent22
24Hospices Civils de Lyon, Lyon, France, ou_persistent22
25Leiden University Medical Center, Leiden, The Netherlands, ou_persistent22
26Maastricht University Medical Center, Maastricht, The Netherlands, ou_persistent22
27University Hospital Bristol and Weston NHS Foundation Trust, Bristol, UK, ou_persistent22
28Vincent van Gogh Institute for Psychiatry, Venray, The Netherlands, ou_persistent22

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Abstract: Purpose

Although haploinsufficiency of ANKRD11 is among the most common genetic causes of neurodevelopmental disorders, the role of rare ANKRD11 missense variation remains unclear. We characterized clinical, molecular, and functional spectra of ANKRD11 missense variants.
Methods

We collected clinical information of individuals with ANKRD11 missense variants and evaluated phenotypic fit to KBG syndrome. We assessed pathogenicity of variants through in silico analyses and cell-based experiments.
Results

We identified 20 unique, mostly de novo, ANKRD11 missense variants in 29 individuals, presenting with syndromic neurodevelopmental disorders similar to KBG syndrome caused by ANKRD11 protein truncating variants or 16q24.3 microdeletions. Missense variants significantly clustered in repression domain 2 at the ANKRD11 C-terminus. Of the 10 functionally studied missense variants, 6 reduced ANKRD11 stability. One variant caused decreased proteasome degradation and loss of ANKRD11 transcriptional activity.
Conclusion

Our study indicates that pathogenic heterozygous ANKRD11 missense variants cause the clinically recognizable KBG syndrome. Disrupted transrepression capacity and reduced protein stability each independently lead to ANKRD11 loss-of-function, consistent with haploinsufficiency. This highlights the diagnostic relevance of ANKRD11 missense variants, but also poses diagnostic challenges because the KBG-associated phenotype may be mild and inherited pathogenic ANKRD11 (missense) variants are increasingly observed, warranting stringent variant classification and careful phenotyping.

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Language(s): eng - English

Dates: Accepted: 2022Published Online: 2022-07-14Date issued: 2022

Publication Status: Issued

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Rev. Type: Peer

Identifiers: DOI: 10.1016/j.gim.2022.06.007

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Title: Genetics in Medicine

Source Genre: Journal

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Pages: - Volume / Issue: 24 (10) Sequence Number: - Start / End Page: 2051 - 2064 Identifier: -