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Bullosa Simplex (bullosa + simplex)
Kinds of Bullosa Simplex Selected AbstractsA novel mutation (p.Thr198Ser) in the 1A helix of keratin 5 causes the localized variant of Epidermolysis Bullosa SimplexEXPERIMENTAL DERMATOLOGY, Issue 7 2009Paul E. Bowden Abstract:, A novel missense mutation (p.Thr198Ser) in the 1A helix of keratin 5 (K5) has been identified in a four-generation family with a history of the localized variant of epidermolysis bullosa simplex (EBS-loc), a genetic skin fragility disorder caused by K5 or K14 mutations. Genomic DNA was isolated from blood samples of patients and their healthy relatives, and all exons of the genes encoding K5 and K14 (KRT5 and KRT14) were amplified by PCR and directly sequenced. The identified mutation was confirmed by mismatch allele-specific (MM-AS)-PCR and restriction enzyme digestion with RsaI. K5 p.Thr198Ser lies at the C-terminal end of the 1A helical domain and is considered to be outside of the main mutation hotspot region. This is the first reported mutation to affect position 30 of the 1A helix (1A:T30S) in any of the 54 known keratins. [source] Plectin deficiency leads to both muscular dystrophy and pyloric atresia in epidermolysis bullosa simplex,HUMAN MUTATION, Issue 10 2010Ken Natsuga Abstract Plectin is a cytoskeletal linker protein which has a long central rod and N- and C-terminal globular domains. Mutations in the gene encoding plectin (PLEC) cause two distinct autosomal recessive subtypes of epidermolysis bullosa: EB simplex (EBS) with muscular dystrophy (EBS-MD), and EBS with pyloric atresia (EBS-PA). Previous studies have demonstrated that loss of full-length plectin with residual expression of the rodless isoform leads to EBS-MD, whereas complete loss or marked attenuation of expression of full-length and rodless plectin underlies the more severe EBS-PA phenotype. However, muscular dystrophy has never been identified in EBS-PA, not even in the severe form of the disease. Here, we report the first case of EBS associated with both pyloric atresia and muscular dystrophy. Both of the premature termination codon-causing mutations of the proband are located within exon 32, the last exon of PLEC. Immunofluorescence and immunoblot analysis of skin samples and cultured fibroblasts from the proband revealed truncated plectin protein expression in low amounts. This study demonstrates that plectin deficiency can indeed lead to both muscular dystrophy and pyloric atresia in an individual EBS patient. © 2010 Wiley-Liss, Inc. [source] Epidermolysis bullosa nevus arising in a patient with Dowling,Meara type epidermolysis bullosa simplex with a novel K5 mutationTHE JOURNAL OF DERMATOLOGY, Issue 8 2009Hiroko SUGIYAMA-FUKAMATSU Abstract We report herein a 4-year-old girl with Dowling,Meara type epidermolysis bullosa (EB) who presented with peculiar pigmented nevi. Blister formation had repeatedly occurred on the erythematous plaques in a circinate fashion since birth, and marked hyperkeratosis was observed on the palms and soles associated with nail deformity. Her mother and maternal grandmother also had similar symptoms. In addition to the blistering lesions, the patient had three large, asymmetrical, pigmented plaques with color variegation. Light and electron microscopic findings of the blistering lesions showed a subepidermal blister with intracytoplasmic granules in keratinocytes as well as degeneration of basal cells and aggregation of tonofilaments. The pigmented lesions revealed histopathological features of compound nevus without malignant changes. Gene analysis revealed an E478K (Glu to Lys) mutation in exon 5 of the keratin 5 (K5) gene. These findings, together with clinical features, were consistent with those of Dowling,Meara type EB associated with so-called EB nevus. [source] Keratin mutations in patients with epidermolysis bullosa simplex: correlations between phenotype severity and disturbance of intermediate filament molecular structureBRITISH JOURNAL OF DERMATOLOGY, Issue 5 2010B. Je, ábková Summary Background, Epidermolysis bullosa simplex (EBS) is an inherited skin disorder caused by mutations in the keratin 5 (KRT5) and keratin 14 (KRT14) genes, with fragility of basal keratinocytes leading to epidermal cytolysis and blistering. Objectives, In this study, we characterized mutations in KRT5 and KRT14 genes in patients with EBS and investigated their possible structure,function correlations. Materials and methods, Mutations were characterized using polymerase chain reaction (PCR) and DNA sequencing. Further, to explore possible correlations with function, the structural effects of the mutations in segment 2B of KRT5 and KRT14 and associated with EBS in our patients, as well as those reported previously, were modelled by molecular dynamics with the aid of the known crystal structure of the analogous segment of human vimentin. Results, We have identified mutations in the KRT5 and KRT14 genes in 16 of 23 families affected by EBS in the Czech Republic. Eleven different sequence variants were found, of which four have not been reported previously. Novel mutations were found in two patients with the EBS-Dowling,Meara variant (EBS-DM) [KRT14-p.Ser128Pro and KRT14-p.Gln374_Leu387dup(14)] and in three patients with localized EBS (KRT14-p.Leu136Pro and KRT5-p.Val143Ala). Molecular dynamics studies show that the mutations p.Glu411del and p.Ile467Thr perturb the secondary alpha-helical structure of the mutated polypeptide chain, the deletion p.Glu411del in KRT14 has a strong but only local influence on the secondary structure of KRT14, and the structural impact of the mutation p.Ile467Thr in KRT5 is spread along the helix to the C-terminus. In all the other point mutations studied, the direct structural impact was significantly weaker and did not destroy the alpha-helical pattern of the secondary protein structure. The changes of 3-D structure of the KRT5/KRT14 dimer induced by the steric structural impact of the single point mutations, and the resulting altered inter- and intramolecular contacts, are spread along the protein helices to the protein C-terminus, but the overall alpha-helical character of the secondary structure is not destroyed and the atomic displacements induced by mutations cause only limited-scale changes of the quaternary structure of the dimer. Conclusions, The results of molecular modelling show relationships between patients' phenotypes and the structural effects of individual mutations. [source] Antiplectin autoantibodies in subepidermal blistering diseasesBRITISH JOURNAL OF DERMATOLOGY, Issue 4 2009J.J.A. Buijsrogge Summary Background, Hemidesmosomal proteins may become targets of autoimmunity in subepidermal blistering diseases. Well-known recognized autoantigens are the intracellular plaque protein BP230, the transmembrane BP180 and its shed ectodomain LAD-1. Objectives, To establish the prevalence of autoimmunity against plectin, another intracellular plaque protein, and to investigate its antigenic sites. Methods, Two hundred and eighty-two patients with subepidermal blistering diseases, investigated by routine immunoblot analysis for possible antiplectin antibodies, were included in the study. Epitope mapping was performed using recombinantly produced overlapping plectin domains from the actin-binding domain to the rod domain. The COOH-terminal region of plectin was not included in the study. Results, In 11 of 282 (3·9%) patients an immunoblot staining pattern identical to that of antiplectin monoclonal antibody HD121 was found. Affinity-purified antibodies bound back to normal human skin in a pattern typical for plectin, i.e. to the epidermal basement membrane zone as well as to keratinocytes in the epidermis, and to myocytes. No binding was seen to plectin-deficient skin of a patient with epidermolysis bullosa simplex with muscular dystrophy. Epitope mapping of the plectin molecule showed that the central coiled-coil rod domain is an immunodominant hotspot as 92% of the sera with antiplectin antibodies reacted with it. Most patients with antiplectin antibodies also had antibodies to other pemphigoid antigens. Conclusions, Plectin is a minor pemphigoid antigen with an immunodominant epitope located on the central rod domain. [source] Epidermolysis bullosa simplex in Japanese and Korean patients: genetic studies in 19 casesBRITISH JOURNAL OF DERMATOLOGY, Issue 2 2006K. Yasukawa Summary Background, Epidermolysis bullosa simplex (EBS) comprises a group of hereditary bullous diseases characterized by intraepidermal blistering caused by mutations in either keratin gene, KRT5 or KRT14. Significant correlation between the position of mutations within these proteins and the clinical severity of EBS has been noted. A recent report showed EBS cases in Israel had unique genetic features compared with European or U.S.A. associated families, which suggests that the ethnic and geographical features of EBS patients may be different. Objectives, To assess the possibility that EBS may present with certain specific features in Japanese and Koreans and to identify additional EBS mutations for genotype/phenotype correlation. Methods, EBS was clinically diagnosed and confirmed by transmission electron microscopic examination of a skin biopsy. Mutation analysis of KRT5 and KRT14 was performed by direct sequencing in 17 Japanese and two Korean EBS patients. Results, We have identified six novel KRT5 missense mutations (V143D, D158V, V186M, Q191P, R352S, G517D). R352S is the first mutation in the 2A domain. Most of these novel mutations changed amino acids that were evolutionarily conserved. Eight including all five mutations in EBS-Dowling,Meara patients have been previously reported. We were unable to detect mutations in five sporadic EBS-Koebner patients. The proportion of mutations in KRT5 (11 of 14; 78%) is higher than that for KRT14 mutations (3 of 14; 21%) in these Japanese and Korean EBS patients. Conclusions, Japanese and Korean patients with EBS showed very similar phenotype and genotype correlations with patients from Western countries. Whether the higher proportion of KRT5 mutations is a definite characteristic of Japanese and Korean patients with EBS or not, requires further research into mutations in Japanese and Korean people. [source] Clinical heterogeneity in recessive epidermolysis bullosa due to mutations in the keratin 14 gene, KRT14CLINICAL & EXPERIMENTAL DERMATOLOGY, Issue 6 2008E. Yiasemides Summary Background., Epidermolysis bullosa simplex (EBS), the most common subtype of EB, is usually inherited as an autosomal dominant trait caused by mutations in either the keratin 5 (KRT5) or keratin 14 (KRT14) genes. Recessive EBS (R-EBS) is extremely rare. Methods., We present the first Australian patient diagnosed with R-EBS, to our knowledge, and a comprehensive review of genotypes and phenotypes of R-EBS reported cases. Results., The female proband, of Turkish descent with consanguineous parentage, was referred to us at the age of 8 years. Clinically, she had a severe phenotype including generalized blisters, mucosal involvement and EB naevi. Immunofluorescence mapping and electron microscopy were consistent with a diagnosis of EBS. Staining for Keratin 14 (K14) was negative. The basal layer, however, reacted with monoclonal antibodies to keratins 6 (K6) and 16 (K16). Mutation screening from genomic DNA showed that the proband was homozygous for the truncation mutation Y204X in exon 3 of KRT14, and both unaffected parents were heterozygous for a single KRT14 Y204X mutation. The phenotype of our patient is reported in more detail and with longer follow-up than those of others published in the literature. Discussion., The proband's phenotype was severe as an infant but improved with age, suggesting that an alternative keratin is pairing with K5 in her skin to compensate for the loss of K14 , a novel biological compensatory mechanism. It is interesting that K6 and K16 were expressed, as these are normally positive in hyperproliferative skin disorders. [source] A new mutation in the linker 12 domain of keratin 5 in a Chinese family with Weber,Cockayne epidermolysis bullosa simplexCLINICAL & EXPERIMENTAL DERMATOLOGY, Issue 5 2004J.-G. Li Summary A previously undescribed missense mutation was detected in the L12 domain of keratin 5 (K5) in a Chinese family with Weber,Cockayne epidermolysis bullosa simplex. Direct sequencing of the PCR products identified a single base substitution (983A,G) that changes the aspartic acid residue at codon 328 to glycine in all affected family members, while no mutation was observed either in the healthy individual or 50 unrelated control samples. Asp328 of K5 is remarkably conserved among all type II keratins. D328G is the fourth mutation found to affect this residue in K5-related epidermolysis bullosa simplex, indicating the importance of Asp328 for K5 structure and the dramatic effect that fine changes can have on keratin intermediate filament integrity. [source] Identification of somatic and germline mosaicism for a keratin 5 mutation in epidermolysis bullosa simplex in a family of which the proband was previously regarded as a sporadic caseCLINICAL GENETICS, Issue 3 2004M Nagao-Watanabe Epidermolysis bullosa simplex (EBS) is an autosomal-dominant inherited blistering skin disease characterized by intraepidermal blistering due to mechanical stress-induced degeneration of basal keratinocytes. EBS is caused by mutations in either keratin 5 or keratin 14, the major keratins expressed in the basal layer of the epidermis. We experienced a unique EBS-affected family. The proband had a heterozygous 1649delG mutation in the keratin 5 gene and had been reported as a case of de novo mutation, because the mutations were not detected in the parents' DNA from blood samples. However, the proband's younger sister was revealed to have the same disease at birth and we found the same mutation in her. We reinvestigated the familial segregation of the 1649delG mutation and it was shown that the mother's DNA from hair bulb and buccal cell samples had the 1649delG mutation heterozygously, but her DNA from blood samples did not. A careful check on the mother's history disclosed that she had migratory circinate pigmentation in her skin in childhood, which means maternal somatic and germline mosaicism. The demonstration of somatic and gonadal mosaicism in the keratin 5 gene is important for accurate genetic counselling of families with sporadic cases of EBS. [source] | |||||||||||||