BACKGROUND: Mutations in the gene CHN1 have been described in autosomal dominant Duane's retraction syndrome (DRS) and mutations have been shown to interfere with normal innervation of target eye muscles by oculomotor axons in chick embryos. We screened for CHN1 mutations in patients with various congenital ocular motility disorders. METHODS: Altogether, 29 patients with different congenital ocular motility disorders and a positive family history of congenital ocular motility disturbances or strabismus or bilateral affection or accompanying congenital disorders were enrolled in this study. DNA samples of patients suffering from DRS (n = 5), Brown syndrome (n = 13), other congenital motility disorders of the oblique eye muscles (n = 6), double elevator palsy (n = 4), and vertical retraction syndrome (n = 1) were investigated by direct sequencing of all coding exons of CHN1. RESULTS: In the families of our index patients with DRS, other family members displayed DRS, see-saw nystagmus, infantile esotropia, microtropia, or Brown syndrome, respectively. In the families of our patients with cases of Brown syndrome, bilateral abduction deficiency, infantile esotropia, and unspecified strabismus occurred. The patients with congenital disorders of the oblique muscles and with congenital elevation deficiencies other than Brown syndrome had relatives with ptosis, infantile esotropia, DRS, congenital abduction deficiency, and unspecified forms of strabismus. Thus a considerable intrafamilial overlap between different types of congenital forms of motility disorders and strabismus does exist. No mutations were detected in the CHN1 gene in our patients. In addition to known polymorphisms, we identified four novel heterozygous single-nucleotide substitutions, one in the 5'UTR, two in intronic regions, and one in the coding region leading to a synonymous amino acid substitution. CONCLUSIONS: We found no evidence for a causative involvement of CHN1 mutations in congenital ocular motor anomalies different from autosomal dominant Duane's retraction syndrome and provide further evidence for genetic heterogeneity in familial forms of DRS.
BACKGROUND: Mutations in the gene CHN1 have been described in autosomal dominant Duane's retraction syndrome (DRS) and mutations have been shown to interfere with normal innervation of target eye muscles by oculomotor axons in chick embryos. We screened for CHN1 mutations in patients with various congenital ocular motility disorders. METHODS: Altogether, 29 patients with different congenital ocular motility disorders and a positive family history of congenital ocular motility disturbances or strabismus or bilateral affection or accompanying congenital disorders were enrolled in this study. DNA samples of patients suffering from DRS (n = 5), Brown syndrome (n = 13), other congenital motility disorders of the oblique eye muscles (n = 6), double elevator palsy (n = 4), and vertical retraction syndrome (n = 1) were investigated by direct sequencing of all coding exons of CHN1. RESULTS: In the families of our index patients with DRS, other family members displayed DRS, see-saw nystagmus, infantile esotropia, microtropia, or Brown syndrome, respectively. In the families of our patients with cases of Brown syndrome, bilateral abduction deficiency, infantile esotropia, and unspecified strabismus occurred. The patients with congenital disorders of the oblique muscles and with congenital elevation deficiencies other than Brown syndrome had relatives with ptosis, infantile esotropia, DRS, congenital abduction deficiency, and unspecified forms of strabismus. Thus a considerable intrafamilial overlap between different types of congenital forms of motility disorders and strabismus does exist. No mutations were detected in the CHN1 gene in our patients. In addition to known polymorphisms, we identified four novel heterozygous single-nucleotide substitutions, one in the 5'UTR, two in intronic regions, and one in the coding region leading to a synonymous amino acid substitution. CONCLUSIONS: We found no evidence for a causative involvement of CHN1 mutations in congenital ocular motor anomalies different from autosomal dominant Duane's retraction syndrome and provide further evidence for genetic heterogeneity in familial forms of DRS.
Authors: T M Bosley; M A Salih; I A Alorainy; D T Oystreck; M Nester; K K Abu-Amero; M A Tischfield; E C Engle Journal: Neurology Date: 2007-09-18 Impact factor: 9.910
Authors: Joanna C Jen; Wai-Man Chan; Thomas M Bosley; Jijun Wan; Janai R Carr; Udo Rüb; David Shattuck; Georges Salamon; Lili C Kudo; Jing Ou; Doris D M Lin; Mustafa A M Salih; Tülay Kansu; Hesham Al Dhalaan; Zayed Al Zayed; David B MacDonald; Bent Stigsby; Andreas Plaitakis; Emmanuel K Dretakis; Irene Gottlob; Christina Pieh; Elias I Traboulsi; Qing Wang; Lejin Wang; Caroline Andrews; Koki Yamada; Joseph L Demer; Shaheen Karim; Jeffry R Alger; Daniel H Geschwind; Thomas Deller; Nancy L Sicotte; Stanley F Nelson; Robert W Baloh; Elizabeth C Engle Journal: Science Date: 2004-04-22 Impact factor: 47.728
Authors: Koki Yamada; Wai-Man Chan; Caroline Andrews; Thomas M Bosley; Emin C Sener; Johan T Zwaan; Paul B Mullaney; Banu T Oztürk; A Nurten Akarsu; Louise J Sabol; Joseph L Demer; Timothy J Sullivan; Irene Gottlob; Peter Roggenkäemper; David A Mackey; Clara E De Uzcategui; Nicolas Uzcategui; Bruria Ben-Zeev; Elias I Traboulsi; Adriano Magli; Teresa de Berardinis; Vincenzo Gagliardi; Sudha Awasthi-Patney; Marlene C Vogel; Joseph F Rizzo; Elizabeth C Engle Journal: Invest Ophthalmol Vis Sci Date: 2004-07 Impact factor: 4.799
Authors: C Vincent; V Kalatzis; S Compain; J Levilliers; R Slim; F Graia; M L Pereira; A Nivelon; M F Croquette; D Lacombe Journal: Hum Mol Genet Date: 1994-10 Impact factor: 6.150
Authors: Noriko Miyake; John Chilton; Maria Psatha; Long Cheng; Caroline Andrews; Wai-Man Chan; Krystal Law; Moira Crosier; Susan Lindsay; Michelle Cheung; James Allen; Nick J Gutowski; Sian Ellard; Elizabeth Young; Alessandro Iannaccone; Binoy Appukuttan; J Timothy Stout; Stephen Christiansen; Maria Laura Ciccarelli; Alfonso Baldi; Mara Campioni; Juan C Zenteno; Dominic Davenport; Laura E Mariani; Mustafa Sahin; Sarah Guthrie; Elizabeth C Engle Journal: Science Date: 2008-07-24 Impact factor: 47.728
Authors: Arif O Khan; Jameela Shinwari; Latifa Al Sharif; Dania Khalil; Saeed Al-Gehedan; Nada A Al Tassan Journal: Mol Vis Date: 2011-07-20 Impact factor: 2.367
Authors: Mervyn G Thomas; Gail D E Maconachie; Cris S Constantinescu; Wai-Man Chan; Brenda Barry; Michael Hisaund; Viral Sheth; Helen J Kuht; Rob A Dineen; Sreemathi Harieaswar; Elizabeth C Engle; Irene Gottlob Journal: Br J Ophthalmol Date: 2019-07-13 Impact factor: 4.638