Literature DB >> 27901041

Bainbridge-Ropers syndrome caused by loss-of-function variants in ASXL3: a recognizable condition.

Alma Kuechler1, Johanna Christina Czeschik1, Elisabeth Graf2, Ute Grasshoff3, Ulrike Hüffmeier4, Tiffany Busa5, Stefanie Beck-Woedl3, Laurence Faivre6,7, Jean-Baptiste Rivière8, Ingrid Bader9, Johannes Koch9, André Reis4, Ute Hehr10, Olaf Rittinger9, Wolfgang Sperl9, Tobias B Haack2,11, Thomas Wieland2, Hartmut Engels12, Holger Prokisch2,11, Tim M Strom2,11, Hermann-Josef Lüdecke1,13, Dagmar Wieczorek1,13.   

Abstract

Truncating ASXL3 mutations were first identified in 2013 by Bainbridge et al. as a cause of syndromic intellectual disability in four children with similar phenotypes using whole-exome sequencing. The clinical features - postulated by Bainbridge et al. to be overlapping with Bohring-Opitz syndrome - were developmental delay, severe feeding difficulties, failure to thrive and neurological abnormalities. This condition was included in OMIM as 'Bainbridge-Ropers syndrome' (BRPS, #615485). To date, a total of nine individuals with BRPS have been published in the literature in four reports (Bainbridge et al., Dinwiddie et al, Srivastava et al. and Hori et al.). In this report, we describe six unrelated patients with newly diagnosed heterozygous de novo loss-of-function variants in ASXL3 and concordant clinical features: severe muscular hypotonia with feeding difficulties in infancy, significant motor delay, profound speech impairment, intellectual disability and a characteristic craniofacial phenotype (long face, arched eyebrows with mild synophrys, downslanting palpebral fissures, prominent columella, small alae nasi, high, narrow palate and relatively little facial expression). The majority of key features characteristic for Bohring-Opitz syndrome were absent in our patients (eg, the typical posture of arms, intrauterine growth retardation, microcephaly, trigonocephaly, typical facial gestalt with nevus flammeus of the forehead and exophthalmos). Therefore we emphasize that BRPS syndrome, caused by ASXL3 loss-of-function variants, is a clinically distinct intellectual disability syndrome with a recognizable phenotype distinguishable from that of Bohring-Opitz syndrome.

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Year:  2016        PMID: 27901041      PMCID: PMC5255962          DOI: 10.1038/ejhg.2016.165

Source DB:  PubMed          Journal:  Eur J Hum Genet        ISSN: 1018-4813            Impact factor:   4.246


  21 in total

Review 1.  Functional proteomics of the epigenetic regulators ASXL1, ASXL2 and ASXL3: a convergence of proteomics and epigenetics for translational medicine.

Authors:  Masaru Katoh
Journal:  Expert Rev Proteomics       Date:  2015-04-03       Impact factor: 3.940

2.  De novo nonsense mutations in ASXL1 cause Bohring-Opitz syndrome.

Authors:  Alexander Hoischen; Bregje W M van Bon; Benjamín Rodríguez-Santiago; Christian Gilissen; Lisenka E L M Vissers; Petra de Vries; Irene Janssen; Bart van Lier; Rob Hastings; Sarah F Smithson; Ruth Newbury-Ecob; Susanne Kjaergaard; Judith Goodship; Ruth McGowan; Deborah Bartholdi; Anita Rauch; Maarit Peippo; Jan M Cobben; Dagmar Wieczorek; Gabriele Gillessen-Kaesbach; Joris A Veltman; Han G Brunner; Bert B B A de Vries
Journal:  Nat Genet       Date:  2011-06-26       Impact factor: 38.330

3.  Genome sequencing identifies major causes of severe intellectual disability.

Authors:  Christian Gilissen; Jayne Y Hehir-Kwa; Djie Tjwan Thung; Maartje van de Vorst; Bregje W M van Bon; Marjolein H Willemsen; Michael Kwint; Irene M Janssen; Alexander Hoischen; Annette Schenck; Richard Leach; Robert Klein; Rick Tearle; Tan Bo; Rolph Pfundt; Helger G Yntema; Bert B A de Vries; Tjitske Kleefstra; Han G Brunner; Lisenka E L M Vissers; Joris A Veltman
Journal:  Nature       Date:  2014-06-04       Impact factor: 49.962

Review 4.  Bohring-Opitz (Oberklaid-Danks) syndrome: clinical study, review of the literature, and discussion of possible pathogenesis.

Authors:  Rob Hastings; Jan-Maarten Cobben; Gabriele Gillessen-Kaesbach; Judith Goodship; Hanne Hove; Susanne Kjaergaard; Helena Kemp; Helen Kingston; Peter Lunt; Sahar Mansour; Ruth McGowan; Kay Metcalfe; Catherine Murdoch-Davis; Mary Ray; Marlène Rio; Sarah Smithson; John Tolmie; Peter Turnpenny; Bregje van Bon; Dagmar Wieczorek; Ruth Newbury-Ecob
Journal:  Eur J Hum Genet       Date:  2011-02-02       Impact factor: 4.246

5.  Loss-of-function variants of SETD5 cause intellectual disability and the core phenotype of microdeletion 3p25.3 syndrome.

Authors:  Alma Kuechler; Alexander M Zink; Thomas Wieland; Hermann-Josef Lüdecke; Kirsten Cremer; Leonardo Salviati; Pamela Magini; Kimia Najafi; Christiane Zweier; Johanna Christina Czeschik; Stefan Aretz; Sabine Endele; Federica Tamburrino; Claudia Pinato; Maurizio Clementi; Jasmin Gundlach; Carina Maylahn; Laura Mazzanti; Eva Wohlleber; Thomas Schwarzmayr; Roxana Kariminejad; Avner Schlessinger; Dagmar Wieczorek; Tim M Strom; Gaia Novarino; Hartmut Engels
Journal:  Eur J Hum Genet       Date:  2014-08-20       Impact factor: 4.246

Review 6.  Severe end of Opitz trigonocephaly (C) syndrome or new syndrome?

Authors:  A Bohring; M Silengo; M Lerone; D W Superneau; C Spaich; S R Braddock; A Poss; J M Opitz
Journal:  Am J Med Genet       Date:  1999-08-27

7.  Identification and characterization of ASXL3 gene in silico.

Authors:  Masuko Katoh; Masaru Katoh
Journal:  Int J Oncol       Date:  2004-06       Impact factor: 5.650

8.  Novel splicing mutation in the ASXL3 gene causing Bainbridge-Ropers syndrome.

Authors:  Ikumi Hori; Fuyuki Miya; Kei Ohashi; Yutaka Negishi; Ayako Hattori; Naoki Ando; Nobuhiko Okamoto; Mitsuhiro Kato; Tatsuhiko Tsunoda; Mami Yamasaki; Yonehiro Kanemura; Kenjiro Kosaki; Shinji Saitoh
Journal:  Am J Med Genet A       Date:  2016-04-13       Impact factor: 2.802

9.  Systematic Phenomics Analysis Deconvolutes Genes Mutated in Intellectual Disability into Biologically Coherent Modules.

Authors:  Korinna Kochinke; Christiane Zweier; Bonnie Nijhof; Michaela Fenckova; Pavel Cizek; Frank Honti; Shivakumar Keerthikumar; Merel A W Oortveld; Tjitske Kleefstra; Jamie M Kramer; Caleb Webber; Martijn A Huynen; Annette Schenck
Journal:  Am J Hum Genet       Date:  2016-01-07       Impact factor: 11.025

Review 10.  Functional and cancer genomics of ASXL family members.

Authors:  M Katoh
Journal:  Br J Cancer       Date:  2013-06-04       Impact factor: 7.640
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  17 in total

1.  Chromosome 18 gene dosage map 2.0.

Authors:  Jannine D Cody; Patricia Heard; David Rupert; Minire Hasi-Zogaj; Annice Hill; Courtney Sebold; Daniel E Hale
Journal:  Hum Genet       Date:  2018-11-17       Impact factor: 4.132

2.  Compound heterozygous mutation of the ASXL3 gene causes autosomal recessive congenital heart disease.

Authors:  Fang Fu; Ru Li; Ting-Ying Lei; Dan Wang; Xin Yang; Jin Han; Min Pan; Li Zhen; Jian Li; Fa-Tao Li; Xiang-Yi Jing; Dong-Zhi Li; Can Liao
Journal:  Hum Genet       Date:  2020-07-21       Impact factor: 4.132

3.  Understanding the phenotypic spectrum of ASXL-related disease: Ten cases and a review of the literature.

Authors:  Vishnu Anand Cuddapah; Holly A Dubbs; Laura Adang; Steven L Kugler; Elizabeth M McCormick; Zarazuela Zolkipli-Cunningham; Xilma R Ortiz-González; Shana McCormack; Elaine Zackai; Daniel J Licht; Marni J Falk; Eric D Marsh
Journal:  Am J Med Genet A       Date:  2021-03-10       Impact factor: 2.578

4.  Mild prominence of the Sylvian fissure in a Bainbridge-Ropers syndrome patient with a novel frameshift variant in ASXL3.

Authors:  Yasutsugu Chinen; Sadao Nakamura; Akira Ganaha; Shin Hayashi; Johji Inazawa; Kumiko Yanagi; Koichi Nakanishi; Tadashi Kaname; Kenji Naritomi
Journal:  Clin Case Rep       Date:  2017-12-28

5.  Novel compound heterozygous ASXL3 mutation causing Bainbridge-ropers like syndrome and primary IGF1 deficiency.

Authors:  Dinesh Giri; Daniel Rigden; Mohammed Didi; Matthew Peak; Paul McNamara; Senthil Senniappan
Journal:  Int J Pediatr Endocrinol       Date:  2017-08-04

6.  Phenotypic characterization of an older adult male with late-onset epilepsy and a novel mutation in ASXL3 shows overlap with the associated Bainbridge-Ropers syndrome.

Authors:  Willem Verhoeven; Jos Egger; Emmy Räkers; Arjen van Erkelens; Rolph Pfundt; Marjolein H Willemsen
Journal:  Neuropsychiatr Dis Treat       Date:  2018-03-27       Impact factor: 2.570

7.  A de novo nonsense mutation in ASXL3 shared by siblings with Bainbridge-Ropers syndrome.

Authors:  Daniel C Koboldt; Theresa Mihalic Mosher; Benjamin J Kelly; Emily Sites; Dennis Bartholomew; Scott E Hickey; Kim McBride; Richard K Wilson; Peter White
Journal:  Cold Spring Harb Mol Case Stud       Date:  2018-06-01

8.  Hyperventilation-athetosis in ASXL3 deficiency (Bainbridge-Ropers) syndrome.

Authors:  Rubina Dad; Susan Walker; Stephen W Scherer; Muhammad Jawad Hassan; Suk Yun Kang; Berge A Minassian
Journal:  Neurol Genet       Date:  2017-09-22

9.  Novel de novo frameshift variant in the ASXL3 gene in a child with microcephaly and global developmental delay.

Authors:  Marketa Wayhelova; Jan Oppelt; Jan Smetana; Eva Hladilkova; Hana Filkova; Eva Makaturova; Petra Nikolova; Rastislav Beharka; Renata Gaillyova; Petr Kuglik
Journal:  Mol Med Rep       Date:  2019-05-27       Impact factor: 2.952

10.  Bainbridge-ropers syndrome caused by loss-of-function variants in ASXL3: Clinical abnormalities, medical imaging features, and gene variation in infancy of case report.

Authors:  Linfeng Yang; Bin Guo; Weiwei Zhu; Lei Wang; Bingjuan Han; Yena Che; Lingfei Guo
Journal:  BMC Pediatr       Date:  2020-06-09       Impact factor: 2.125
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