Seven novel mutations in the ATP2A2 gene of Austrian patients with Darier's disease.

Darier's disease (DD, OMIM 124200) is an autosomal dominant inherited genodermatosis characterized by warty papules and plaques in seborrheic areas, and loss of adhesion between suprabasal epidermal keratinocytes (acantholysis) and abnormal keratinisation (dyskeratosis). Till date, more than 150 pathogenic mutations in the ATP2A2 (SERCA2) gene, which encodes the sarcoplasmic/endoplasmic reticulum Ca(2+) ATPase isoform 2, have been identified as the genetic basis of DD. Our report of eight DD patients from Austria add seven novel variants (L32P, 149-158del10 each in two different non-consanguineous patients, S72Y, F73S, K460X, 2734delC, T982 M) to the repertoire of ATP2A2 mutations in the DD database which is in line with previous reports that most mutations are related to the 5'- and the 3'-end of the gene.

Role of immunofluorescence microscopy in dermatology.

This paper gives a survey about most of the dermatological and infectious cutaneous diseases in which immunofluorescence (IF) microscopy is an important, often decisive tool to reach diagnosis. In tabular form, bullous autoimmune disorders such as pemphigus and pemphigoid diseases, connective tissue diseases, vasculitides, mechanobullous disorders and cutaneous infectious agents and the respective IF findings are listed. Different IF methods and especially important aspects such as taking a biopsy at the right spot or how to send samples are described. Clinical pictures of a broad spectrum of cutaneous diseases are set in combination with the IF microscopic results and the value of special but still routine investigations such as the salt split skin test (SSST) or the antigen mapping (AM) method is demonstrated especially in a set of identical or atypical clinical pictures. Immunofluorescence microscopy has not lost it´s value and should be performed in each dermatological centre in the sense of "Do not miss a diagnosis by not performing IF!"

Nosocomial Staphylococcal scalded skin syndrome caused by intra-articular injection.

BACKGROUND: The pathogenic role of nasal carriage as a source for cutaneous and soft-tissue Staphylococcus aureus (SA) infections, and Staphylococcal scalded skin syndrome (SSSS) in particular, is unclear. OBSERVATION: We herein describe a nosocomial outbreak of SSSS in three orthopaedic patients who received intra-articular injections by a single orthopaedic surgeon. Bacteriological samples from the index patients and medical personnel involved in their care were assessed by phage typing, polymerase chain reaction for exfoliative toxin genes, SmaI macro-restriction analysis and molecular spa-typing. These studies first revealed SA cultural growth in synovial fluid of all three patients as well as nasal mucosa of one medical assistant. Moreover, all SA isolates had the same phage typing and antibiotic susceptibilities and were positive for exfoliative toxin ETa by polymerase chain reaction. SmaI macro-restriction and spa-typing further confirmed all proband isolates to be identical. CONCLUSION: These findings provide evidence that SA nasal colonization of otherwise healthy carriers is a risk factor for SA infections, including SSSS, in predisposed individuals.

[Immunofluorescence mapping for diagnosis of congenital epidermolysis bullosa]. / Mapeo por inmunofluorescencia para el diagnóstico de epidermólisis ampollosa congénita.

The tools for diagnosis of epidermolysis bullosa have advanced greatly since Hintner's group introduced antigen mapping as a diagnostic test for this family of genodermatoses. Monoclonal or polyclonal antibodies raised against some of the specific proteins found in the epidermis and basement membrane of the epidermis have allowed 4 types of epidermolysis bullosa de be identified and all variants to be classified. When a newborn baby presents with blisters, many conditions are implicated in the differential diagnosis. Examination under an optical microscope can suggest epidermolysis bullosa, but immunofluorescence mapping and electron microscopy are required for confirmation of the diagnosis and further classification of congenital epidermolysis bullosa. This article explains the importance of immunofluorescence antigen mapping and describes the methods employed for classification and subclassification of epidermolysis bullosa.

Mapeo por inmunofluorescencia para el diagnóstico de epidermólisis ampollosa congénita / Immunofluorescence Mapping for Diagnosis of Congenital Epidermolysis Bullosa

Las herramientas para el diagnóstico en las epidermólisis ampollosas (EA) han tenido un gran avance desde que Hintner et al, introdujeron el mapeo antigénico como prueba diagnóstica en este grupo de genodermatosis. La utilización de anticuerpos monoclonales/policlonales dirigidos contra algunas de las proteínas específicas que conforman la epidermis y la membrana basal epidérmica, han servido para clasificar los 4 tipos de epidermólisis ampollosa y subclasificar todas sus variantes. Ante la presencia de un recién nacido con ampollas surgen diagnósticos diferenciales múltiples, en donde la microscopia de luz orienta el diagnostico de epidermólisis ampollosa. Sin embargo, el mapeo por inmunofluorescencia y la microscopia electrónica permiten confirmar y clasificar a las epidermólisis ampollosas congénitas. En este artículo, se explica la importancia y metodología para desarrollar la técnica de mapeo antigénico por inmunofluorescencia, con el propósito de clasificar y subclasificar las epidermólisis ampollosas (AU)

The tools for diagnosis of epidermolysis bullosa have advanced greatly since Hintner's group introduced antigen mapping as a diagnostic test for this family of genodermatoses. Monoclonal or polyclonal antibodies raised against some of the specific proteins found in the epidermis and basement membrane of the epidermis have allowed 4 types of epidermolysis bullosa de be identified and all variants to be classified. When a newborn baby presents with blisters, many conditions are implicated in the differential diagnosis. Examination under an optical microscope can suggest epidermolysis bullosa, but immunofluorescence mapping and electron microscopy are required for confirmation of the diagnosis and further classification of congenital epidermolysis bullosa. This article explains the importance of immunofluorescence antigen mapping and describes the methods employed for classification and subclassification of epidermolysis bullosa (AU)

Cytokeratin 8 interacts with clumping factor B: a new possible virulence factor target.

Staphylococcus aureus is a human pathogen of growing clinical significance, owing to its increasing levels of resistance to most antibiotics. Infections range from mild wound infections to severe infections such as endocarditis, osteomyelitis and septic shock. Adherence of S. aureus to human host cells is an important step, leading to colonization and infection. Adherence is mediated by a multiplicity of proteins expressed on the bacterial surface, including clumping factor B. In this study, we aimed to identify new targets of clumping factor B in human keratinocytes by undertaking a genome-wide yeast two-hybrid screen of a human keratinocyte cDNA library. We show that clumping factor B is capable of binding cytokeratin 8 (CK8), a type II cytokeratin. Using a domain-mapping strategy we identified amino acids 437-464 as necessary for this interaction. Recombinantly expressed fragments of both proteins were used in pull-down experiments and confirmed the yeast two-hybrid studies. Analysis with S. aureus strain Newman deficient in clumping factor B showed the clumping factor B-dependence of the interaction with CK8. We postulate that the clumping factor B-CK8 interaction is a novel factor in S. aureus infections.

Aberrant heterodimerization of keratin 16 with keratin 6A in HaCaT keratinocytes results in diminished cellular migration.

Keratin filaments form obligatory heterodimers consisting of one type I and one type II keratin that build the intermediate filaments. In keratinocytes, type II keratin 6 (K6) interacts with type I keratin 16 (K16). We previously showed that the intermediate filament protein K16 is up-regulated in aged human skin. Here, we report that there is an obvious imbalance of K16 to K6 mRNA in in vivo and in vitro aging, which possibly leads to cellular effects. To unveil a possible biological function of K16 overexpression we investigated the migration potential of keratinocytes having up-regulated K16 expression in vitro. Two cell lines were established by transfection of human keratinocytes (HaCaT cells) with K16 or control vectors and subsequent fluorescence-activated cell sorting. By performing migration assays we were able to show a 90% reduction in the migration ability of the K16-overexpressing keratinocytes. In addition, a delay in wound closure associated with K16-overexpressing cells was shown by scratch assays. Transient overexpression of K6A in K16-overexpressing keratinocytes partially corrected the cell-migration defect. By real-time PCR we excluded co-regulation of the annotated interaction partner, K6, in the K16 cell line. Finally, we observed a decreased level of tyrosine phosphorylation in K16-overexpressing cells. Taken together, these data highlight the possibility of a physiological role for K6/K16 heterodimers in keratinocyte cell migration, in addition to the heterodimer's known functions in cell differentiation and mechanical resilience.

[Orogenital and conjunctival involvement in hereditary and autoimmune blistering diseases]. / Schleimhautbeteiligung bei blasenbildenden Erkrankungen.

Chronic involvement of orogenital and conjunctival mucosa in the course of either genetically based (epidermolysis bullosa hereditaria) or auto-immunologically mediated (as for example pemphigus vulgaris, mucous membrane pemphigoid or epidermolysis bullosa acquisita) blistering diseases can cause significant morbidity. To provide accurate care, recognition of clinical, pathogenic and diagnostic features as well as awareness of recent advances in the development of new therapeutic modalities are mandatory and thus will be discussed in this review.

[Hereditary blistering diseases. Symptoms, diagnosis and treatment of epidermolysis bullosa]. / Erbliche blasenbildende Erkrankungen. Klinik, Diagnostik und Therapie der Epidermolyis bullosa.

Hereditary epidermolysis bullosa (EB) is a term for a heterogeneous group of rare genetic disorders characterized by marked fragility of the skin and mucous membranes following minor trauma. Significant progress has been made in understanding the molecular basis of EB, which has far-reaching implications for an improved classification with consequences for prognosis, genetic counseling, DNA-based prenatal and preimplantation testing, and the development of future treatments including gene therapy. Besides mucocutaneous changes, EB leads to a number of systemic manifestations whose management requires multidisciplinary access. Extracutaneous complications include ophthalmologic, dental, gastrointestinal, pulmonary, urogenital, hematologic, and nutritional problems. This article reviews the progress that has been made in the understanding of the molecular basis of EB, clinical aspects of major EB subtypes, and the management of patients suffering from EB, and it gives an outlook on molecular therapy projects such as gene, cell, vector, and protein therapies.

[Unilateral localized bullous pemphigoid following radiotherapy]. / Unilateral lokalisiertes bullöses Pemphigoid nach Radiotherapie.

A 74-year-old woman presented with a four-week history of locally expanding, highly pruritic urticarial plaques, bullae and erosions on her left breast. She had undergone surgery for an infiltrating ductal carcinoma of the same breast six months before and received intra- and postoperative radiotherapy (RT) followed by adjuvant hormonal anticancer treatment. Histopathological, immunological and serological data confirmed the diagnosis of localized bullous pemphigoid (BP) and treatment with systemic and local corticosteroids led to a sustained remission. After excluding other factors, we concluded that RT was the most likely trigger of her localized BP.

Nonsense-associated altered splicing of the Patched gene fails to suppress carcinogenesis in Gorlin syndrome.

Mutations in the gene coding for the transmembrane receptor protein Patched (PTCH) are implicated in the autosomal dominant disorder Gorlin syndrome (also known as naevoid basal cell carcinoma syndrome), characterized by congenital abnormalities and cancer predisposition. Tumour promotion is thought to be associated with aberrant function of PTCH, leading to misregulation of the hedgehog signalling network. However, the transcriptional events that underlie the reduced tumour suppression effects of PTCH have not been studied in detail. We describe a patient with Gorlin syndrome who had three molecular aberrations resulting in biallelic disruption of the PTCH gene, leading to abnormal protein expression and development of basal cell carcinoma. Remarkably, within tumour cells, the somatic nonsense mutation G1019X was associated with activation of a cryptic splice donor site, in which an in-frame deletion of the exon sequence containing the nonsense mutation occurred. However, the function of the resulting PTCH protein variant was still compromised. The pathogenetic alterations described give insights into the sequence of events leading to cellular transformation and underscore the importance of the PTCH protein in skin homeostasis.

Ocular involvement in anti-epiligrin cicatricial pemphigoid.

PURPOSE: To report an anti-epiligrin cicatricial pemphigoid (AECP) patient with severe ocular involvement and to provide a practical approach to distinguishing AECP patients from those with other subepidermal blistering diseases. METHODS: Techniques included direct and indirect immunofluorescence microscopy, Western blot and immunoprecipitation studies, as well as interdisciplinary examinations of mucous membranes and skin. RESULTS: This study describes a patient with clinical features of cicatricial pemphigoid, circulating anti-basement membrane zone IgG antibodies, and subepidermal blisters. Histopathology and immunofluorescence analysis suggested the diagnosis of a cicatricial pemphigoid-like type of epidermolysis bullosa acquisita. However, Western blot and immunoprecipitation studies demonstrated that the patient's serum contained autoantibodies against laminin 5 alpha3 subunit, leading to the diagnosis of an AECP. CONCLUSION: Since patients with AECP have an increased relative risk for malignant tumors, it is important to distinguish this entity within the spectrum of cicatricial pemphigoid patients by additional studies such as Western blot or immunoprecipitation.

Introducing a fast and simple PCR-RFLP analysis for the detection of mutant thiopurine S-methyltransferase alleles TPMT*3A and TPMT*3C.

BACKGROUND: Azathioprine, in combination with corticosteroids, is the first-line therapy of severe forms of pemphigus vulgaris. Patients with an impaired thiopurine S-methyltransferase (TPMT) activity are at risk of developing severe myelo-suppression upon treatment with thiopurines such as azathioprine. Analysis of the TPMT status prior to drug administration is therefore highly recommended. However, because of the limited availability of TPMT testing outside of specialized centres, pre-emptive TPMT testing is not widespread. To avoid laborious biochemical and sequencing assays, we evaluated a new restriction fragment length polymorphism (RFLP) analysis. METHODS: We designed a rapid genetic polymerase chain reaction (PCR)-RFLP screen for the most prevalent mutant TPMT*3A and TPMT*3C alleles that are known to result in reduced TPMT enzyme activity. RESULTS: Validating our fast system on 871 Caucasian DNA samples, we observed that 8.61% of our probands carried the TPMT*3A allele and 0.23% were heterozygous for the TPMT*3C allele, which is in concordance with previously reported allele frequencies. CONCLUSION: This simple and low-cost PCR-RFLP TPMT polymorphism testing approach can be performed in a standard laboratory. It should be applied to all patients prior to receiving thiopurine drug therapy to avoid the severe, but predictable, haematopoietic side-effects of thiopurine drug administration.

Relative quantitation of protein-protein interaction strength within the yeast two-hybrid system via fluorescence beta-galactosidase activity detection in a high-throughput and low-cost manner.

The yeast two-hybrid (Y2H) method is capable of delivering vast amounts of interacting positive yeast colonies from a single library screen, particularly if a multifunctional protein is used as bait. However, the selection of definitive colonies for further molecular analysis is limited by both technical practicality and high costs. Here we demonstrate a cost-effective and simple method for the rapid selection and ranking of those Y2H-positive interaction clones that are suitable for further analysis. We performed a Y2H screen for the identification of human transforming growth factor beta2- interacting proteins in a human skin keratinocyte library. The identified clones were ranked by the amount of beta-galactosidase enzyme produced, as well as by the interaction strength of the positive colonies. The combination of high-throughput microplate fluorescence readers and specific fluorescence assays can be utilized for relative quantitation of protein-protein interaction strength of Y2H-positive colonies in crude yeast-cell lysates. We demonstrate here that the high sensitivity of the fluorescence approach can bypass cumbersome conventional methods of cell lysis used in beta-galactosidase assays, and still deliver accurate values for analysis of protein interaction data. Finally, we also achieved a better understanding of general aspects of beta-galactosidase measurements in the Y2H system, such as protein normalization, the influence of yeast culture incubation time on optimal beta-galactosidase detection, and the linearity of beta-galactosidase detection in crude cell lysates.

Epidermolysis bullosa naevi reveal a distinctive dermoscopic pattern.

BACKGROUND: Large, asymmetrical and irregularly pigmented naevi in patients with epidermolysis bullosa (EB) have been reported often to mimic cutaneous melanoma clinically. OBJECTIVES: As the biological course of these peculiar moles is benign, we assessed EB naevi with a dermatoscope to determine whether they could be reliably differentiated from cutaneous melanoma. METHODS: We evaluated digital dermoscopic images of 23 EB naevi from 11 patients with EB and analysed these pigmented lesions according to pattern analysis, ABCD rule of dermoscopy and the seven-point checklist. RESULTS: Melanoma-associated dermoscopic criteria such as multicomponent pattern (20 of 23), atypical pigment network (17 of 23), irregular dots/globules (16 of 23), irregular pigmentation (22 of 23) and an atypical vascular pattern (seven of 23) were frequently seen in EB naevi. In contrast, other criteria frequently associated with melanoma progression, such as irregular streaks, blue-whitish veil, regression structures (blue-whitish areas) or black dots, were rarely seen. Most lesions gave false-positive results when the scores of the dermoscopic diagnostic algorithms were calculated. CONCLUSIONS: Recurring dermoscopic structures in EB naevi reveal a distinctive dermoscopic pattern of this recently defined entity. Although EB naevi represent an exception to dermoscopic diagnostic algorithms, their dermoscopic evaluation most often allows us to estimate their benign nature. Nevertheless, as an unequivocal discrimination from malignant melanoma in vivo is sometimes not possible, regular clinical follow up of EB naevi with histopathological evaluation of highly suspicious lesions is mandatory.