BACKGROUND: Espins are actin bundling proteins present in hair cell stereocilia. A recessive mutation in the espin gene (Espn) has been detected in the jerker mouse and causes deafness, vestibular dysfunction, and hair cell degeneration. More recently mutations in the human espin gene (ESPN) have been described in two families affected by autosomal recessive hearing loss and vestibular areflexia. OBJECTIVE: To report the identification of four additional ESPN mutations (S719R, D744N, R774Q, and delK848) in patients affected by autosomal dominant hearing loss without vestibular involvement. RESULTS: To determine whether the mutated ESPN alleles affected the biological activity of the corresponding espin proteins in vivo, their ability to target and elongate the parallel actin bundles of brush border microvilli was investigated in transfected LLC-PK1-CL4 epithelial cells. For three mutated alleles clear abnormalities in microvillar length or distribution were obtained. CONCLUSIONS: The results further strengthen the causative role of the espin gene in non-syndromic hearing loss and add new insights into espin structure and function.
BACKGROUND: Espins are actin bundling proteins present in hair cell stereocilia. A recessive mutation in the espin gene (Espn) has been detected in the jerker mouse and causes deafness, vestibular dysfunction, and hair cell degeneration. More recently mutations in the human espin gene (ESPN) have been described in two families affected by autosomal recessive hearing loss and vestibular areflexia. OBJECTIVE: To report the identification of four additional ESPN mutations (S719R, D744N, R774Q, and delK848) in patients affected by autosomal dominant hearing loss without vestibular involvement. RESULTS: To determine whether the mutated ESPN alleles affected the biological activity of the corresponding espin proteins in vivo, their ability to target and elongate the parallel actin bundles of brush border microvilli was investigated in transfected LLC-PK1-CL4 epithelial cells. For three mutated alleles clear abnormalities in microvillar length or distribution were obtained. CONCLUSIONS: The results further strengthen the causative role of the espin gene in non-syndromic hearing loss and add new insights into espin structure and function.
Authors: S Naz; A J Griffith; S Riazuddin; L L Hampton; J F Battey; S N Khan; S Riazuddin; E R Wilcox; T B Friedman Journal: J Med Genet Date: 2004-08 Impact factor: 6.318
Authors: Francesca Donaudy; Rik Snoeckx; Markus Pfister; Hans-Peter Zenner; Nikolaus Blin; Mariateresa Di Stazio; Antonella Ferrara; Carmen Lanzara; Romina Ficarella; Frank Declau; Carsten M Pusch; Peter Nürnberg; Salvatore Melchionda; Leopoldo Zelante; Ester Ballana; Xavier Estivill; Guy Van Camp; Paolo Gasparini; Anna Savoia Journal: Am J Hum Genet Date: 2004-03-10 Impact factor: 11.025
Authors: Felipe T Salles; Raymond C Merritt; Uri Manor; Gerard W Dougherty; Aurea D Sousa; Judy E Moore; Christopher M Yengo; Andréa C Dosé; Bechara Kachar Journal: Nat Cell Biol Date: 2009-03-15 Impact factor: 28.824