CHARGE‐like presentation, craniosynostosis and mild Mowat–Wilson Syndrome diagnosed by recognition of the distinctive facial gestalt in a cohort of 28 new cases

Mowat–Wilson syndrome (MWS) is characterized by moderate to severe intellectual disability and distinctive facial features in association with variable structural congenital anomalies/clinical features including congenital heart disease, Hirschsprung disease, hypospadias, agenesis of the corpus callosum, short stature, epilepsy, and microcephaly. Less common clinical features include ocular anomalies, craniosynostosis, mild intellectual disability, and choanal atresia. These cases may be more difficult to diagnose. In this report, we add 28 MWS patients with molecular confirmation of ZEB2 mutation, including seven with an uncommon presenting feature. Among the “unusual” patients, two patients had clinical features of charge syndrome including choanal atresia, coloboma, cardiac defects, genitourinary anomaly (1/2), and severe intellectual disability; two patients had craniosynostosis; and three patients had mild intellectual disability. Sixteen patients have previously‐unreported mutations in ZEB2. Genotype‐phenotype correlations were suggested in those with mild intellectual disability (two had a novel missense mutation in ZEB2, one with novel splice site mutation). This report increases the number of reported patients with MWS with unusual features, and is the first report of MWS in children previously thought to have CHARGE syndrome. These patients highlight the importance of facial gestalt in the accurate identification of MWS when less common features are present. © 2014 Wiley Periodicals, Inc.

[1]  K. Yokochi,et al.  The spectrum of ZEB2 mutations causing the Mowat–Wilson syndrome in Japanese populations , 2014, American journal of medical genetics. Part A.

[2]  S. Dupuis-Girod,et al.  ZEB2, a new candidate gene for asplenia , 2014, Orphanet Journal of Rare Diseases.

[3]  K. R. Jun,et al.  Mowat-Wilson syndrome detected by using high resolution microarray. , 2013, Gene.

[4]  S. Lyonnet,et al.  ZEB2 zinc-finger missense mutations lead to hypomorphic alleles and a mild Mowat-Wilson syndrome. , 2013, Human molecular genetics.

[5]  F. Licata,et al.  Epilepsy in Mowat–Wilson syndrome: Delineation of the electroclinical phenotype , 2013, American journal of medical genetics. Part A.

[6]  B. V. van Bon,et al.  Mowat-Wilson Syndrome: The First Clinical and Molecular Report of an Indonesian Patient , 2012, Case reports in genetics.

[7]  M. Zollino,et al.  A case of Mowat-Wilson syndrome caused by a truncating mutation within exon 8 of the ZEB2 gene. , 2012, The Turkish journal of pediatrics.

[8]  E. Traboulsi,et al.  Ophthalmologic Abnormalities in Mowat-Wilson Syndrome and a Mutation in ZEB2 , 2012, Ophthalmic genetics.

[9]  Yiping Shen,et al.  Avoiding pitfalls in molecular genetic testing: case studies of high-resolution array comparative genomic hybridization testing in the definitive diagnosis of Mowat-Wilson syndrome. , 2011, The Journal of molecular diagnostics : JMD.

[10]  J. Erlichman,et al.  Intrahepatic Biliary Anomalies in a Patient With Mowat-Wilson Syndrome Uncover a Role for the Zinc Finger Homeobox Gene zfhx1b in Vertebrate Biliary Development , 2011, Journal of pediatric gastroenterology and nutrition.

[11]  S. Balasubramaniam,et al.  Mowat-Wilson syndrome: the first two Malaysian cases. , 2010, Singapore medical journal.

[12]  R. Newbury-Ecob,et al.  Supernumerary Intestinal Muscle Coat in a Patient with Hirschsprung Disease/Mowat-Wilson Syndrome , 2010, Pediatric and developmental pathology : the official journal of the Society for Pediatric Pathology and the Paediatric Pathology Society.

[13]  M. Adam,et al.  Mowat–Wilson syndrome with associated dysphagia , 2010, American journal of medical genetics. Part A.

[14]  S. Bernasconi,et al.  Mowat–Wilson syndrome: Facial phenotype changing with age: Study of 19 Italian patients and review of the literature , 2009, American journal of medical genetics. Part A.

[15]  C. Pantaleoni,et al.  Recurrence of Mowat–Wilson syndrome in siblings with a novel mutation in the ZEB2 gene , 2008, American journal of medical genetics. Part A.

[16]  T. Nakayama,et al.  Mowat-Wilson Syndrome Affecting 3 Siblings , 2008, Journal of child neurology.

[17]  E. Paučić-Kirinčić,et al.  Mowat–Wilson syndrome: the clinical report with the novel mutation in ZFHX1B (exon 8: c.2372del C; p.T791fsX816) , 2008, Child's Nervous System.

[18]  P. Fernhoff,et al.  Mowat‐Wilson syndrome with craniosynostosis: A case report , 2008, American journal of medical genetics. Part A.

[19]  L. Garavelli,et al.  Mowat-Wilson syndrome , 2007, Orphanet journal of rare diseases.

[20]  Udo Rolle,et al.  Pulmonary artery sling and congenital tracheal stenosis in another patient with Mowat–Wilson syndrome , 2007, American journal of medical genetics. Part A.

[21]  L. Nelles,et al.  Neural crest-specific removal of Zfhx1b in mouse leads to a wide range of neurocristopathies reminiscent of Mowat-Wilson syndrome. , 2007, Human molecular genetics.

[22]  E. Bellefroid,et al.  XSip1 neuralizing activity involves the co-repressor CtBP and occurs through BMP dependent and independent mechanisms. , 2007, Developmental biology.

[23]  Meredith Wilson,et al.  ZFHX1B mutations in patients with Mowat‐Wilson syndrome , 2007, Human mutation.

[24]  E. Bakker,et al.  A 6Mb deletion in band 2q22 due to a complex chromosome rearrangement associated with severe psychomotor retardation, microcephaly and distinctive dysmorphic facial features. , 2007, European journal of medical genetics.

[25]  J. Graham,et al.  Clinical features and management issues in Mowat–Wilson syndrome , 2006, American journal of medical genetics. Part A.

[26]  A. Rauch,et al.  A missense mutation in the ZFHX1B gene associated with an atypical Mowat–Wilson syndrome phenotype , 2006, American journal of medical genetics. Part A.

[27]  D. Horn,et al.  Atypical ZFHX1B mutation associated with a mild Mowat–Wilson syndrome phenotype , 2006, American journal of medical genetics. Part A.

[28]  Meredith Wilson,et al.  Recurrence of Mowat–Wilson syndrome in siblings with the same proven mutation , 2005, American journal of medical genetics. Part A.

[29]  Andrew P. McMahon,et al.  Neural crest origins of the neck and shoulder , 2005, Nature.

[30]  S. Bernasconi,et al.  Genitourinary Anomalies in Mowat-Wilson Syndrome with Deletion/Mutation in the Zinc Finger Homeo Box 1B Gene (ZFHX1B) , 2005, Hormone Research in Paediatrics.

[31]  I. Krantz,et al.  Clinical and mutational spectrum of Mowat-Wilson syndrome. , 2005, European journal of medical genetics.

[32]  A. Salt,et al.  Ocular coloboma and high myopia with Hirschsprung disease associated with a novel ZFHX1B missense mutation and trisomy 21 , 2004, American journal of medical genetics. Part A.

[33]  G. Ferrero,et al.  Pachygyria and cerebellar hypoplasia in a patient with a 2q22‐q23 deletion that includes the ZFHX1B gene , 2004, American journal of medical genetics. Part A.

[34]  K. Tanaka,et al.  Clinical and molecular analysis of Mowat-Wilson syndrome associated with ZFHX1B mutations and deletions at 2q22–q24.1 , 2004, Journal of Medical Genetics.

[35]  A. Rauch,et al.  Mowat–Wilson syndrome and mutation in the zinc finger homeo box 1B gene: a well defined clinical entity , 2004, Journal of Medical Genetics.

[36]  S. Lyonnet,et al.  Frameshift mutation of the zinc finger homeo box 1 B gene in syndromic corpus callosum agenesis (Mowat-Wilson syndrome). , 2003, Neuropediatrics.

[37]  E. Zackai,et al.  RPGR mutation associated with retinitis pigmentosa, impaired hearing, and sinorespiratory infections , 2003, Journal of medical genetics.

[38]  Dian Donnai,et al.  Further delineation of the phenotype associated with heterozygous mutations in ZFHX1B , 2003, American journal of medical genetics. Part A.

[39]  G. Ferrero,et al.  Pachygyria and cerebellar hypoplasia in Goldberg–Shprintzen syndrome , 2003, American journal of medical genetics. Part A.

[40]  L. Garavelli,et al.  Hirschsprung disease, mental retardation, characteristic facial features, and mutation in the gene ZFHX1B (SIP1): Confirmation of the Mowat‐Wilson syndrome , 2003, American journal of medical genetics. Part A.

[41]  N. Wakamatsu,et al.  Late infantile Hirschsprung disease–mental retardation syndrome with a 3-bp deletion in ZFHX1B , 2002, Neurology.

[42]  N. Wakamatsu,et al.  Clinical features of a form of Hirschsprung's disease caused by a novel genetic abnormality. , 2002, Journal of pediatric surgery.

[43]  A. Munnich,et al.  Expression of the SMADIP1 gene during early human development , 2002, Mechanisms of Development.

[44]  A. Rauch,et al.  "Mowat-Wilson" syndrome with and without Hirschsprung disease is a distinct, recognizable multiple congenital anomalies-mental retardation syndrome caused by mutations in the zinc finger homeo box 1B gene. , 2002, American journal of medical genetics.

[45]  A. Munnich,et al.  Large-scale deletions and SMADIP1 truncating mutations in syndromic Hirschsprung disease with involvement of midline structures. , 2001, American journal of human genetics.

[46]  N. Nomura,et al.  Nonsense and frameshift mutations in ZFHX1B, encoding Smad-interacting protein 1, cause a complex developmental disorder with a great variety of clinical features. , 2001, American journal of human genetics.

[47]  M. Goossens,et al.  Loss-of-function mutations in SIP1 Smad interacting protein 1 result in a syndromic Hirschsprung disease. , 2001, Human molecular genetics.

[48]  A. Clarke,et al.  Hirschsprung disease, mental retardation and dysmorphic facial features in five unrelated children. , 2001, Clinical dysmorphology.

[49]  N. Nomura,et al.  Mutations in SIP1, encoding Smad interacting protein-1, cause a form of Hirschsprung disease , 2001, Nature Genetics.

[50]  H. Dörr,et al.  First known microdeletion within the Wolf-Hirschhorn syndrome critical region refines genotype-phenotype correlation. , 2001, American journal of medical genetics.

[51]  D. Dean,et al.  Differential expression and function of members of the zfh-1 family of zinc finger/homeodomain repressors. , 2000, Proceedings of the National Academy of Sciences of the United States of America.

[52]  L. Nelles,et al.  SIP1, a Novel Zinc Finger/Homeodomain Repressor, Interacts with Smad Proteins and Binds to 5′-CACCT Sequences in Candidate Target Genes* , 1999, The Journal of Biological Chemistry.

[53]  B. Kerr,et al.  Hirschsprung disease, microcephaly, mental retardation, and characteristic facial features: delineation of a new syndrome and identification of a locus at chromosome 2q22-q23. , 1998, Journal of medical genetics.

[54]  N M Le Douarin,et al.  The triple origin of skull in higher vertebrates: a study in quail-chick chimeras. , 1993, Development.

[55]  V. Hartill,et al.  Mowat-Wilson syndrome associated with craniosynostosis. , 2014, Clinical dysmorphology.

[56]  G. Tanteles,et al.  Ocular phenotype of Mowat-Wilson syndrome in the first reported Cypriot patients: an under-recognized association. , 2014, Clinical dysmorphology.

[57]  R. Śmigiel,et al.  Severe clinical course of Hirschsprung disease in a Mowat-Wilson syndrome patient , 2010, Journal of Applied Genetics.

[58]  Gunadi,et al.  Nonsense mutations of the ZFHX1B gene in two Japanese girls with Mowat-Wilson syndrome. , 2007, The Kobe journal of medical sciences.

[59]  Denise Horn,et al.  Facial phenotype allows diagnosis of Mowat–Wilson syndrome in the absence of hirschsprung disease , 2004, American journal of medical genetics. Part A.

[60]  S. Iseki,et al.  Tissue origins and interactions in the mammalian skull vault. , 2002, Developmental biology.

[61]  I. Lurie,et al.  Phenotypic variability of del(2) (q22-q23): report of a case with a review of the literature. , 1994, Genetic counseling.