Phenotype-Genotype Correlations in Patients with Epidermolysis Bullosa with PLEC Mutations

Epidermolysis bullosa (EB) is a heterogeneous group of genetic disorders characterized by blistering skin and mucous membranes. Mutations of the protein plectin, encoded by PLEC, cause autosomal recessive EB simplex with muscular dystrophy (EBS-MD) and EB simplex with pyloric atresia (EBS-PA). Until now, no clear genotype-phenotype correlation has been identified from the positions of mutations in the PLEC gene. How do ten distinct families with PLEC mutations manifesting as various EB disorders compare with regard to gene mutations? The hypothesis is that clinical manifestations of EB will be more extreme in patients with more severe gene mutations. The design of this study is a case series following ten distinct families in Iran with PLEC mutations. The clinical data collection was done by the patients’ physicians in Iran. The mutation detection and data analysis were done at Jefferson’s Department of Dermatology. Genotype severity was measured by exon and type of mutation. Phenotype severity was measured by both cutaneous and extracutaneous manifestations. The majority of EBS-MD PLEC mutations were within exon 31, whereas the EBS-PA PLEC mutation was outside exon 31. However, there was no clear genotype phenotype correlation. Patients with EBS and EBS-MD had nonsense, missense and frameshift mutations, whereas the EBS-PA patient had a splicing mutation. Although the inquiry question was not answered, other measures of phenotype severity, such as serum markers, electromyography (EMG), and skeletal muscle biopsy staining, can be correlated with genotype severity in future work. Using a relatively large and rare cohort of patients, each patient can be analyzed to better understand the pathophysiology of EB and enhance its diagnostic and treatment methods

Molecular Genetics of Keratinization Disorders - What\u27s New About Ichthyosis

The heritable forms of keratinization disorders, including various forms of ichthyosis and keratodermas, comprise a phenotypically heterogeneous group of diseases which can be divided into syndromic and non-syndromic forms. In the non-syndromic forms, the clinical manifestations are limited to the cutaneous structures while the syndromic ones are associated with a spectrum of extracutaneous manifestations. The inheritance in different families can be autosomal dominant, autosomal recessive or either X-linked dominant or recessive. Currently at least 67 distinct genes have been associated with different forms of ichthyosis. These genes can be grouped on the basis of their physiological involvement, including genes encoding structural components of epidermis, those involved in epidermal lipid metabolism, or those critical for cell-cell adhesion, and keratinocyte differentiation. This overview highlights some of the recent progress made in understanding the molecular genetics of keratinization disorders, and presents selected, recently characterized cases as representative of different forms of heritable ichthyosis

Gene-Targeted Next Generation Sequencing Identifies PNPLA1 Mutations in Patients with a Phenotypic Spectrum of Autosomal Recessive Congenital Ichthyosis: The Impact of Consanguinity

Heritable forms of ichthyoses, also referred to as generalized Mendelian disorders of cornification, are phenotypically a highly heterogeneous group of conditions caused by mutations in a number of genes playing a role in keratinocyte differentiation and epidermal barrier function (Baden and Digiovanna, 2013; Schmuth et al., 2013). These diseases are characterized by scaling and hyperkeratosis with associated cutaneous and extracutaneous features. This group of disorders is also genetically heterogeneous, with autosomal dominant, autosomal recessive, and X-linked inheritance being described. A specific subgroup of inherited ichthyoses is the autosomal recessive congenital ichthyosis (ARCI), with many newborns presenting as collodion babies, but the subsequent clinical presentation and the spectrum of severity can be highly variable (Richard and Bale, 2014). In the most severe forms, such as harlequin ichthyosis, the disease is often fatal during the early postnatal period, whereas at the other end of the continuum of the spectrum, the disease may present with a relatively mild scaling and variable degree of palmoplantar keratoderma. There is considerable genetic heterogeneity in ARCI, and as many as nine different genes are known to harbor biallelic mutations; these include TGM1, ALOXE3, ALOX12B, NIPAL4, ABCA12, CYP4F22, PNPLA1, LIPN, and CERS3. Previous reports have suggested that mutations in TGM1 account for 30e65% of patients with ARCI, whereas mutations in LIPN, PNPLA1, and CERS3 have been reported only in a few consanguineous families (Richard and Bale, 2014). With the advent of next generation sequencing (NGS), there has been tremendous progress in facilitating the mutation detection in various heritable skin disorders, including ichthyosis (South et al., 2015; Takeichi et al., 2013). In fact, at least 38 different genes have now been suggested to be associated with the ichthyotic phenotypes, either as the primary mutated genes or modifying the phenotypic presentation. To elucidate the genetic basis of ichthyosis in Iran, a country of approximately 80 million people with high prevalence of customary consanguineous marriages, we developed a gene-targeted NGS array consisting of 38 genes reported in association with ichthyosis phenotypes. Identification of specific mutations in a large number of families has allowed us to examine phenotype/genotype correlations with respect to both intra- and interfamilial heterogeneity, in part because of extensive consanguinity in these families. In this study, we identified six distinct and, to our knowledge, previously unreported mutations in the PNPLA1 gene in nine families

Dystrophic Epidermolysis Bullosa: COL7A1 Mutation Landscape in a Multi-Ethnic Cohort of 152 Extended Families with High Degree of Customary Consanguineous Marriages

Dystrophic epidermolysis bullosa is a heritable skin disease manifesting with sub-lamina densa blistering, erosions, and chronic ulcers. COL7A1, encoding type VII collagen, has been identified as the candidate gene for dystrophic epidermolysis bullosa. In this study, we have identified COL7A1 mutations in a large multi-ethnic cohort of 152 extended Iranian families with high degree of consanguinity. The patients were diagnosed by clinical manifestations, histopathology, and immunoepitope mapping. Mutation detection consisted of a combination of single nucleotide polymorphism-based whole-genome homozygosity mapping, Sanger sequencing, and gene-targeted next-generation sequencing. A total of 104 distinct mutations in COL7A1 were identified in 149 of 152 families (98%), 56 (53%) of them being previously unreported. Ninety percent of these mutations were homozygous recessive, reflecting consanguinity in these families. Three recurrent mutations were identified in five or more families, and haplotype analysis suggested a founder effect in two of them. In conclusion, COL7A1 harbored mutations in the overwhelming majority of patients with dystrophic epi-dermolysis bullosa, and most of them in this Iranian cohort were consistent with autosomal recessive inheri-tance. The mutation profile attests to the impact of consanguinity in these families

Establishing the Relationship Between Mendelian NAFLD and Skin Pathology

Introduction: It is estimated that 25% of the world’s population has some form of Nonalcoholic Fatty Liver Disease (NAFLD), a pathology associated with the development of cirrhosis, varices, and hepatocellular carcinoma. The discovery of a biallelic mutation in ABHD5 established the link between NAFLD and Chanarin-Dorfman syndrome. Consequently, it was hypothesized that additional NAFLD-inducing mutations could be associated with dermatologic manifestations. Methods: International NAFLD patients from consanguineous families underwent whole exome sequencing. These results were then filtered by frequency and pathogenicity prediction algorithms (e.g. Mutation Taster, Polyphen, CADD) to yield novel mutations. Concurrently, a literature review via PubMed identified genes potentially involved in a mechanistic relationship between NAFLD and skin pathology. Results: In total, 72 unique genes with a possible mechanistic relationship between NAFLD and skin manifestations were identified in literature. The majority of these are involved in mitochondrial homeostasis, but some play a role in lipid droplet formation, insulin signaling, and intracellular transport. Genetic sequencing identified a causal ALMS1 mutation in the genotyped patient group. Discussion: While the identified mutation was not novel, it nonetheless provided an intriguing insight into NAFLD development and genetic diagnostics. Consolidating a proposed NAFLD-skin relationship between 72 genes helps strengthen the hypothesis of this relationship, and provides targets for future research and potential therapeutics

Assessment of the risk and characterization of non-melanoma skin cancer in Kindler syndrome: study of a series of 91 patients.

BACKGROUND: Kindler Syndrome (KS) is a rare genodermatosis characterized by skin fragility, skin atrophy, premature aging and poikiloderma. It is caused by mutations in the FERMT1 gene, which encodes kindlin-1, a protein involved in integrin signalling and the formation of focal adhesions. Several reports have shown the presence of non-melanoma skin cancers in KS patients but a systematic study evaluating the risk of these tumors at different ages and their potential outcome has not yet been published. We have here addressed this condition in a retrospective study of 91 adult KS patients, characterizing frequency, metastatic potential and body distribution of squamous cell carcinoma (SCC) in these patients. SCC developed in 13 of the 91 patients. RESULTS: The youngest case arose in a 29-year-old patient; however, the cumulative risk of SCC increased to 66.7% in patients over 60 years of age. The highly aggressive nature of SCCs in KS was confirmed showing that 53.8% of the patients bearing SCCs develop metastatic disease. Our data also showed there are no specific mutations that correlate directly with the development of SCC; however, the mutational distribution along the gene appears to be different in patients bearing SCC from SCC-free patients. The body distribution of the tumor appearance was also unique and different from other bullous diseases, being concentrated in the hands and around the oral cavity, which are areas of high inflammation in this disease. CONCLUSIONS: This study characterizes SCCs in the largest series of KS patients reported so far, showing the high frequency and aggressiveness of these tumors. It also describes their particular body distribution and their relationship with mutations in the FERMT-1 gene. These data reinforce the need for close monitoring of premalignant or malignant lesions in KS patients

Recessive mutation in tetraspanin CD151 causes Kindler syndrome-like epidermolysis bullosa with multi-systemic manifestations including nephropathy

Epidermolysis bullosa (EB) is caused by mutations in as many as 19 distinct genes. We have developed a next-generation sequencing (NGS) panel targeting genes known to be mutated in skin fragility disorders, including tetraspanin CD151 expressed in keratinocytes at the dermal-epidermal junction. The NGS panel was applied to a cohort of 92 consanguineous families of unknown subtype of EB. In one family, a homozygous donor splice site mutation in CD151 (NM_139029; c.351 + 2T > C) at the exon 5/intron 5 border was identified, and RT-PCR and whole transcriptome analysis by RNA-seq confirmed deletion of the entire exon 5 encoding 25 amino acids. Immunofluorescence of proband's skin and Western blot of skin proteins with a monoclonal antibody revealed complete absence of CD151. Transmission electron microscopy showed intracellular disruption and cell-cell dysadhesion of keratinocytes in the lower epidermis. Clinical examination of the 33-year old proband, initially diagnosed as Kindler syndrome, revealed widespread blistering, particularly on pretibial areas, poikiloderma, nail dystrophy, loss of teeth, early onset alopecia, and esophageal webbing and strictures. The patient also had history of nephropathy with proteinuria. Collectively, the results suggest that biallelic loss-of-function mutations in CD151 underlie an autosomal recessive mechano-bullous disease with systemic features. Thus, CD151 should be considered as the 20th causative, EB-associated gene

Skin Manifestations in COVID-19 Patients: Are They Indicators for Disease Severity? A Systematic Review

Introduction: Until now, there are several reports on cutaneous manifestations in COVID-19 patients. However, the link between skin manifestations and the severity of the disease remains debatable. We conducted a systematic review to evaluate the temporal relationship between different types of skin lesions and the severity of COVID-19. Methods: A systematic search was conducted for relevant studies published between January and July 2020 using Pubmed/Medline, Embase, and Web of knowledge. The following keywords were used: SARS-CoV-2 or COVID-19 or new coronavirus or Wuhan Coronavirus or coronavirus disease 2019 and skin disease or skin manifestation or cutaneous manifestation. Results: Out of 381 articles, 47 meet the inclusion criteria and a total of 1,847 patients with confirmed COVID-19 were examined. The overall frequency of cutaneous manifestations in COVID-19 patients was 5.95%. The maculopapular rash was the main reported skin involvement (37.3%) commonly occurred in middle-aged females with intermediate severity of the disease. Forty-eight percentage of the patients had a mild, 32% a moderate, and 20% a severe COVID-19 disease. The mild disease was mainly correlated with chilblain-like and urticaria-like lesions and patients with vascular lesions experienced a more severe disease. Seventy-two percentage of patients with chilblain-like lesions improved without any medication. The overall mortality rate was 4.5%. Patients with vascular lesions had the highest mortality rate (18.2%) and patients with urticaria-like lesions had the lowest mortality rate (2.2%). Conclusion: The mere occurrence of skin manifestations in COVID-19 patients is not an indicator for the disease severity, and it highly depends on the type of skin lesions. Chilblain-like and vascular lesions are the ends of a spectrum in which from chilblain-like to vascular lesions, the severity of the disease increases, and the patient\u27s prognosis worsens. Those with vascular lesions should also be considered as high-priority patients for further medical care