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Mechanisms of Genetic Reversion in Ichthyosis With Confetti

$355,894R01FY2013ARNIH

Yale University, New Haven CT

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Abstract

DESCRIPTION (provided by applicant): Widespread reversion of genetic disease to an unaffected state is exceedingly rare. For this reason, the development of hundreds to thousands of area of normal skin observed in individuals with ichthyosis with confetti (IWC), a severe autosomal dominant skin disease with two distinct types, is a remarkable phenomenon. We have found that mutations affecting the carboxy terminal non-helical domains of the intermediate filament proteins keratin 1 and keratin 10 (KRT1, KRT10) lead to their mis-localization to the nucleus and cause distinct IWC phenotypes with one unifying feature: the development of patches of normal skin which increase in number and size over time and which are the result of copy-neutral loss of heterozygosity (LOH) events. Remarkably, mutations in the highly conserved rod domains KRT1 and KRT10 result in a distinct dominant disorder, epidermolytic ichthyosis (EI) in which reversion events are not seen. While reversion has been observed in other diseases, it is rare in genetic skin disease and is typically limited in distribution. The large number of reversion events seen in individuals with IWC suggests that normal skin clones arise in IWC either due to an increased rate of genetic reversion or partly or wholly due to selective growth or survival advantage. The overall goal of this project is to determine the mechanism of reversion of IWC and there are three avenues of investigation to explore this: 1. To assay the effects of wild-type and mutant KRT1 and KRT10 on homologous recombination. Revertant events in IWC arise at a very high rate solely through apparent mitotic recombination which a product of homologous recombination pathways (HR). The function of WT and mutant KRT1 and KRT10 in HR will be examined via stable expression in a human cell line which is heterozygous for a functional allele at the thymidine kinase (TK) locus, conferring sensitivity to trifluorothymidine (TFT) and allowing detection of spontaneous and induced LOH events by selection for TFT resistance. We will examine HR via assays of DNA double strand break (DSB) rates, sister chromatid exchange, and LOH rates and mechanisms in the presence and absence of X-irradiation, a potent inducer of DSB. 2. To assay reversion events and selective advantage in cells and tissues from individuals with KRT1 and KRT10 mutations. IWC reversion events must occur at the level of the keratinocyte stem cell and revertant clones require selective advantage to expand within the skin. Given that epidermolytic ichthyosis (EI) results from mutations in the same genes but does not have clinically apparent reversion, if IWC mutations do not affect reversion rate, EI should demonstrate an equivalent rate of reversion but less selective advantage for revertant clones. We will examine reversion events in large sections of EI patient tissue and will perform competition assays in a human skin equivalent graft model in which varying proportions of revertant or normal keratinocytes are mixed with mutant IWC or EI cells and resulting epidermis is assayed for composition by each cell type over time. 3. To identify methods to increase the frequency of reversion events in an IWC mouse model. We have generated a transgenic mouse model of IWC which is capable of cutaneous genetic reversion events. We will examine the rate and characteristics of spontaneous and induced reversion in the setting of physical and chemical DNA damaging agents via immunohistochemistry and immunolocalization, identifying potential modalities for induction of therapeutic recombination in IWC and other dominantly inherited genetic skin disorders.

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Mechanisms of Genetic Reversion in Ichthyosis With Confetti · GrantIndex