Allele-Specific Small Interfering RNA Corrects Aberrant Cellular Phenotype in Keratitis-Ichthyosis-Deafness Syndrome Keratinocytes

Keratitis-ichthyosis-deafness (KID) syndrome is a severe, untreatable condition characterized by ocular, auditory, and cutaneous abnormalities, with major complications of infection and skin cancer. Most cases of KID syndrome (86%) are caused by a heterozygous missense mutation (c.148G>A, p.D50N)...

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Veröffentlicht in:	Journal of investigative dermatology 2020-05, Vol.140 (5), p.1035-1044.e7
Hauptverfasser:	Lee, Ming Yang, Wang, Hong-Zhan, White, Thomas W., Brooks, Tony, Pittman, Alan, Halai, Heerni, Petrova, Anastasia, Xu, Diane, Hart, Stephen L., Kinsler, Veronica A., Di, Wei-Li
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Sprache:	eng
Schlagworte:	Alleles Animals Cell Line Chimera Connexins - genetics Gap Junctions - metabolism Heterografts Heterozygote Humans Keratinocytes - physiology Keratitis - genetics Keratitis - therapy Membrane Potentials Mice Mutation, Missense - genetics RNA, Small Interfering - genetics Skin - metabolism Skin - pathology Skin Transplantation
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container_end_page	1044.e7
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creator	Lee, Ming Yang Wang, Hong-Zhan White, Thomas W. Brooks, Tony Pittman, Alan Halai, Heerni Petrova, Anastasia Xu, Diane Hart, Stephen L. Kinsler, Veronica A. Di, Wei-Li
description	Keratitis-ichthyosis-deafness (KID) syndrome is a severe, untreatable condition characterized by ocular, auditory, and cutaneous abnormalities, with major complications of infection and skin cancer. Most cases of KID syndrome (86%) are caused by a heterozygous missense mutation (c.148G>A, p.D50N) in the GJB2 gene, encoding gap junction protein Cx26, which alters gating properties of Cx26 channels in a dominant manner. We hypothesized that a mutant allele-specific small interfering RNA could rescue the cellular phenotype in patient keratinocytes (KCs). A KID syndrome cell line (KID-KC) was established from primary patient KCs with a heterozygous p.D50N mutation. This cell line displayed impaired gap junction communication and hyperactive hemichannels, confirmed by dye transfer, patch clamp, and neurobiotin uptake assays. A human-murine chimeric skin graft model constructed with KID-KCs mimicked patient skin in vivo, further confirming the validity of these cells as a model. In vitro treatment with allele-specific small interfering RNA led to robust inhibition of the mutant GJB2 allele without altering expression of the wild-type allele. This corrected both gap junction and hemichannel activity. Notably, allele-specific small interfering RNA treatment caused only low-level off-target effects in KID-KCs, as detected by genome-wide RNA sequencing. Our data provide an important proof-of-concept and model system for the potential use of allele-specific small interfering RNA in treating KID syndrome and other dominant genetic conditions.
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Most cases of KID syndrome (86%) are caused by a heterozygous missense mutation (c.148G>A, p.D50N) in the GJB2 gene, encoding gap junction protein Cx26, which alters gating properties of Cx26 channels in a dominant manner. We hypothesized that a mutant allele-specific small interfering RNA could rescue the cellular phenotype in patient keratinocytes (KCs). A KID syndrome cell line (KID-KC) was established from primary patient KCs with a heterozygous p.D50N mutation. This cell line displayed impaired gap junction communication and hyperactive hemichannels, confirmed by dye transfer, patch clamp, and neurobiotin uptake assays. A human-murine chimeric skin graft model constructed with KID-KCs mimicked patient skin in vivo, further confirming the validity of these cells as a model. In vitro treatment with allele-specific small interfering RNA led to robust inhibition of the mutant GJB2 allele without altering expression of the wild-type allele. This corrected both gap junction and hemichannel activity. Notably, allele-specific small interfering RNA treatment caused only low-level off-target effects in KID-KCs, as detected by genome-wide RNA sequencing. Our data provide an important proof-of-concept and model system for the potential use of allele-specific small interfering RNA in treating KID syndrome and other dominant genetic conditions.</description><identifier>ISSN: 0022-202X</identifier><identifier>EISSN: 1523-1747</identifier><identifier>DOI: 10.1016/j.jid.2019.09.022</identifier><identifier>PMID: 31705875</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Alleles ; Animals ; Cell Line ; Chimera ; Connexins - genetics ; Gap Junctions - metabolism ; Heterografts ; Heterozygote ; Humans ; Keratinocytes - physiology ; Keratitis - genetics ; Keratitis - therapy ; Membrane Potentials ; Mice ; Mutation, Missense - genetics ; RNA, Small Interfering - genetics ; Skin - metabolism ; Skin - pathology ; Skin Transplantation</subject><ispartof>Journal of investigative dermatology, 2020-05, Vol.140 (5), p.1035-1044.e7</ispartof><rights>2019 UCL GOS Institute of Child Health</rights><rights>Copyright © 2019 UCL GOS Institute of Child Health. 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This corrected both gap junction and hemichannel activity. Notably, allele-specific small interfering RNA treatment caused only low-level off-target effects in KID-KCs, as detected by genome-wide RNA sequencing. 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Most cases of KID syndrome (86%) are caused by a heterozygous missense mutation (c.148G>A, p.D50N) in the GJB2 gene, encoding gap junction protein Cx26, which alters gating properties of Cx26 channels in a dominant manner. We hypothesized that a mutant allele-specific small interfering RNA could rescue the cellular phenotype in patient keratinocytes (KCs). A KID syndrome cell line (KID-KC) was established from primary patient KCs with a heterozygous p.D50N mutation. This cell line displayed impaired gap junction communication and hyperactive hemichannels, confirmed by dye transfer, patch clamp, and neurobiotin uptake assays. A human-murine chimeric skin graft model constructed with KID-KCs mimicked patient skin in vivo, further confirming the validity of these cells as a model. In vitro treatment with allele-specific small interfering RNA led to robust inhibition of the mutant GJB2 allele without altering expression of the wild-type allele. This corrected both gap junction and hemichannel activity. Notably, allele-specific small interfering RNA treatment caused only low-level off-target effects in KID-KCs, as detected by genome-wide RNA sequencing. 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subjects	Alleles Animals Cell Line Chimera Connexins - genetics Gap Junctions - metabolism Heterografts Heterozygote Humans Keratinocytes - physiology Keratitis - genetics Keratitis - therapy Membrane Potentials Mice Mutation, Missense - genetics RNA, Small Interfering - genetics Skin - metabolism Skin - pathology Skin Transplantation
title	Allele-Specific Small Interfering RNA Corrects Aberrant Cellular Phenotype in Keratitis-Ichthyosis-Deafness Syndrome Keratinocytes
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