Your search keyword '"Arnaud P Giese"' showing total 3 results

1. Correction: A Novel C-Terminal CIB2 (Calcium and Integrin Binding Protein 2) Mutation Associated with Non-Syndromic Hearing Loss in a Hispanic Family.

Author

Kunjan Patel, Arnaud P Giese, J M Grossheim, Rashmi S Hegde, Maria Delio, Joy Samanich, Saima Riazuddin, Gregory I Frolenkov, Jinlu Cai, Zubair M Ahmed, and Bernice E Morrow

Subjects

Medicine, Science

Published

2015

2. A Novel C-Terminal CIB2 (Calcium and Integrin Binding Protein 2) Mutation Associated with Non-Syndromic Hearing Loss in a Hispanic Family.

Author

Kunjan Patel, Arnaud P Giese, J M Grossheim, Rashmi S Hegde, Maria Delio, Joy Samanich, Saima Riazuddin, Gregory I Frolenkov, Jinlu Cai, Zubair M Ahmed, and Bernice E Morrow

Subjects

Medicine, Science

Abstract

Hearing loss is a complex disorder caused by both genetic and environmental factors. Previously, mutations in CIB2 have been identified as a common cause of genetic hearing loss in Pakistani and Turkish populations. Here we report a novel (c.556C>T; p.(Arg186Trp)) transition mutation in the CIB2 gene identified through whole exome sequencing (WES) in a Caribbean Hispanic family with non-syndromic hearing loss. CIB2 belongs to the family of calcium-and integrin-binding (CIB) proteins. The carboxy-termini of CIB proteins are associated with calcium binding and intracellular signaling. The p.(Arg186Trp) mutation is localized within predicted type II PDZ binding ligand at the carboxy terminus. Our ex vivo studies revealed that the mutation did not alter the interactions of CIB2 with Whirlin, nor its targeting to the tips of hair cell stereocilia. However, we found that the mutation disrupts inhibition of ATP-induced Ca2+ responses by CIB2 in a heterologous expression system. Our findings support p.(Arg186Trp) mutation as a cause for hearing loss in this Hispanic family. In addition, it further highlights the necessity of the calcium binding property of CIB2 for normal hearing.

Published

2015

3. Proposed therapy, developed in a Pcdh15-deficient mouse, for progressive loss of vision in human Usher syndrome

Author

Saumil Sethna, Wadih M Zein, Sehar Riaz, Arnaud PJ Giese, Julie M Schultz, Todd Duncan, Robert B Hufnagel, Carmen C Brewer, Andrew J Griffith, T Michael Redmond, Saima Riazuddin, Thomas B Friedman, and Zubair M Ahmed

Subjects

usher syndrome, exogenous retinoids, retinal degeneration, natural history, PCDH15, Medicine, Science, Biology (General), QH301-705.5

Abstract

Usher syndrome type I (USH1) is characterized by deafness, vestibular areflexia, and progressive retinal degeneration. The protein-truncating p.Arg245* founder variant of PCDH15 (USH1F) has an ~2% carrier frequency amongst Ashkenazi Jews accounts for ~60% of their USH1 cases. Here, longitudinal phenotyping in 13 USH1F individuals revealed progressive retinal degeneration, leading to severe vision loss with macular atrophy by the sixth decade. Half of the affected individuals were legally blind by their mid-50s. The mouse Pcdh15R250X variant is equivalent to human p.Arg245*. Homozygous Pcdh15R250X mice also have visual deficits and aberrant light-dependent translocation of the phototransduction cascade proteins, arrestin, and transducin. Retinal pigment epithelium (RPE)-specific retinoid cycle proteins, RPE65 and CRALBP, were also reduced in Pcdh15R250X mice, indicating a dual role for protocadherin-15 in photoreceptors and RPE. Exogenous 9-cis retinal improved ERG amplitudes in Pcdh15R250X mice, suggesting a basis for a clinical trial of FDA-approved retinoids to preserve vision in USH1F patients.

Published

2021