Stephanie E. Coats scite author profile

Multiple self-healing squamous epithelioma (MSSE), also known as Ferguson-Smith disease (FSD), is an autosomal-dominant skin cancer condition characterized by multiple squamous-carcinoma-like locally invasive skin tumors that grow rapidly for a few weeks before spontaneously regressing, leaving scars. High-throughput genomic sequencing of a conservative estimate (24.2 Mb) of the disease locus on chromosome 9 using exon array capture identified independent mutations in TGFBR1 in three unrelated families. Subsequent dideoxy sequencing of TGFBR1 identified 11 distinct monoallelic mutations in 18 affected families, firmly establishing TGFBR1 as the causative gene. The nature of the sequence variants, which include mutations in the extracellular ligand-binding domain and a series of truncating mutations in the kinase domain, indicates a clear genotype-phenotype correlation between loss-of-function TGFBR1 mutations and MSSE. This distinguishes MSSE from the Marfan syndrome-related disorders in which missense mutations in TGFBR1 lead to developmental defects with vascular involvement but no reported predisposition to cancer.

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Severe keratin 5 and 14 mutations induce down-regulation of junction proteins in keratinocytes

Liović

D’Alessandro

Tomic‐Canic

et al. 2009

Experimental Cell Research

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Multiple Self-Healing Squamous Epithelioma in Different Ethnic Groups: More than a Founder Mutation Disorder?

D’Alessandro

Coats

Morley

et al. 2007

Journal of Investigative Dermatology

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Multiple self-healing squamous epithelioma (MSSE), also known as Ferguson-Smith Disease, is a rare cancer-associated genodermatosis with an autosomal dominant inheritance. Affected patients suffer from recurrent skin lesions, which clinically and histologically resemble keratoacanthomas or well-differentiated squamous cell carcinomas, but which, if left, undergo spontaneous regression, leaving pronounced scarring. The majority of MSSE cases previously described were of Scottish ancestry and all shared the same at-risk haplotype, suggesting that this disorder was caused by a founder mutation. The candidate locus for MSSE lies in a region of <4 cM in chromosome 9q22, between the markers D9S197 and D9S1809. We recently investigated MSSE families of non-Scottish origin. For every patient of these families, we obtained a detailed clinical history, with particular attention to the age of onset, distribution, and clinical course of their skin lesions. Once confirmed that they were really affected by MSSE, we performed haplotype analysis on them and their families. The haplotypes for polymorphic markers segregating with MSSE in non-Scottish and Scottish families differ, suggesting that MSSE is not caused by a founder mutation and might be more common than originally thought.

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Keratin 14-Null Cells as a Model to Test the Efficacy of Gene Therapy Approaches in Epithelial Cells

D’Alessandro

Coats

Jonkmann

et al. 2011

Journal of Investigative Dermatology

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Skin fragility disorders caused by keratin mutations are incurable, and a better understanding of their etiology is needed to find new ways to improve and treat these conditions. The best-studied skin fragility disorder is epidermolysis bullosa simplex (EBS), an autosomal dominant condition caused by mutations in keratin 5 (K5) or K14. To analyze disease mechanisms and develop gene therapy strategies, we have used keratinocyte cell lines derived from EBS patients as model systems. Here, we describe two cell lines established from EBS patients with K14-null mutations. We analyze the responses of these cells to stress assays previously shown to discriminate between wild-type and keratin-mutant keratinocytes, to directly evaluate the efficacy of rescuing K14-null cells by supplementation with wild-type K14 complementary DNA (cDNA). The K14-null cells show elevated levels of stress correlating with reduced normal keratin function. By transfecting wild-type K14 into these cells, we demonstrate "proof of principle" that an add-back approach can significantly rescue the normal keratinocyte behavior profile. These K14-null cell lines provide a disease model for studying the effects of keratin ablation in EBS patients and to test the efficacy of gene add-back and other therapy approaches in keratinocytes.

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Abstract LB-245: Loss of function of the TGFβRI receptor leads to the spontaneously regressing squamous carcinoma condition, multiple self-healing squamous epithelioma (Ferguson-Smith disease)

Goudie

D’Alessandro

Merriman

et al. 2011

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A re-examination has been carried out of the region on chromosome 9 containing the locus responsible for Ferguson-Smith disease, or multiple self-healing squamous epithelioma (MSSE/FSD); this is a rare autosomal dominant inherited condition first identified in the west of Scotland, that presents with multiple squamous cell skin carcinomas which grow, invade locally and then spontaneously regress. Approach: A 4Mb locus on chromosome 9 was earlier identified by genetic mapping in a cluster of families. In this study a wider region encompassing 24Mb around this earlier identified locus was examined using high-throughput sequencing with exon capture, followed by Sanger sequencing. Result: This effort identified mutations in the TGFBR1 gene in 18 out of 22 families diagnosed as affected by MSSE/FSD. These include 11 different mutations. The tumours occur in sun-exposed areas of the skin, and loss-of-heterozygosity in tumours is frequently seen. The sequence variants disturb the function of the TGFβRI receptor such that although heterozygous carriers are asymptomatic during development, loss of the second (wild-type) allele ablates the receptor function and leads to local cancer susceptibility. Conclusions: The nature of the mutations sets the mechanism apart from that involved in Marfan syndrome-related disorders, in which developmental defects in vasculature are also caused by mutations in this gene. The involvement of TGFβ receptors in this condition is intriguing as TGFβ pathway effects are known to be biphasic and opposing at different stages of cancer development. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr LB-245. doi:10.1158/1538-7445.AM2011-LB-245

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