New developments in the molecular treatment of ichthyosis: review of the literature.

Ichthyosis covers a wide spectrum of diseases affecting the cornification of the skin. In recent years, new advances in understanding the pathophysiology of ichthyosis have been made. This knowledge, combined with constant development of pathogenesis-based therapies, such as protein replacement therapy and gene therapy, are rather promising for patients with inherited skin diseases. Several ongoing trials are investigating the potency of these new approaches and various studies have already been published. Furthermore, a lot of case series report that biological therapeutics are effective treatment options, mainly for Netherton syndrome and autosomal recessive congenital ichthyosis. It is expected that some of these new therapies will prove their efficacy and will be incorporated in the treatment of ichthyosis.

Proposal for a 6-step approach for differential diagnosis of neonatal erythroderma.

The broad differential diagnosis of neonatal erythroderma often poses a diagnostic challenge. Mortality of neonatal erythroderma is high due to complications of the erythroderma itself and the occasionally severe and life-threatening underlying disease. Early correct recognition of the underlying cause leads to better treatment and prognosis. Currently, neonatal erythroderma is approached on a case-by-case basis. The purpose of this scoping review was to develop a diagnostic approach in neonatal erythroderma. After a systematic literature search in Embase (January 1990 - May 2020, 74 cases of neonatal erythroderma were identified, and 50+ diagnoses could be extracted. Main causes were the ichthyoses (40%) and primary immunodeficiencies (35%). Congenital erythroderma was present in 64% (47/74) of the cases, predominantly with congenital ichthyosis (11/11; 100%), Netherton syndrome (12/14, 86%) and Omenn syndrome (11/23, 48%). Time until diagnosis ranged from 102 days to 116 days for cases of non-congenital erythroderma and congenital erythroderma respectively. Among the 74 identified cases a total of 17 patients (23%) died within a mean of 158 days and were related to Omenn syndrome (35%), graft-versus-host disease (67%) and Netherton syndrome (18%). Disease history and physical examination are summarized in this paper. Age of onset and a collodion membrane can help to narrow the differential diagnoses. Investigations of blood, histology, hair analysis, genetic analysis and clinical imaging are summarized and discussed. A standard blood investigation is proposed, and the need for skin biopsies with lympho-epithelial Kazal-type related Inhibitor staining is highlighted. Overall, this review shows that diagnostic procedures narrow the differential diagnosis in neonatal erythroderma. A 6-step flowchart for the diagnostic approach for neonatal erythroderma during the first month of life is proposed. The approach was made with the support of expert leaders from international multidisciplinary collaborations in the European Reference Network Skin-subthematic group Ichthyosis.

[Cutaneous lesions in COVID-19 patients]. / Huidafwijkingen bij covid-19.

Aside from the typical respiratory symptoms resulting from an infection with SARS-CoV-2, there are reports of cutaneous lesions in patients diagnosed with a SARS-CoV-2 infection. There are reports of multiple groups of skin lesions presenting in different stages of this diagnosis. The most common reported groups are chilblains, vesicular eruptions, morbilliformexanthems, acute urticaria and livedo. It is unlikely that all these groups of skin lesions are distinctive of an infection with SARS-CoV-2. Chilblains of new onset, however, could possibly be a distinctive symptom of a mild/asymptomatic infection with SARS-CoV-2. It is recommended to consider an infection with SARS-CoV-2 in the differential diagnosis in patients presenting with these groups of skin lesions. Consider testing for SARS-CoV-2 and consult the dermatologist if needed, especially in case of chilblains, to ensure histopathological evaluation of the skin lesions to increase knowledge of the underlying pathophysiology.

Amelioration of junctional epidermolysis bullosa due to exon skipping.

Mutations in the COL17A1 gene lead to the genetic blistering disorder junctional epidermolysis bullosa generalized intermediate type (JEB-gen-intermed). Antisense oligonucleotide-mediated exon skipping is a strategy that aims to skip the mutation-containing exon and thereby produce a smaller but functional protein. COL17A1 is an interesting candidate, as 53 of the 55 exons (96%) can be skipped without disturbing the reading frame. Information on the functionality of the shortened protein product is important in order to obtain support for this therapeutic strategy. Here we report a patient with JEB-gen-intermed with amelioration of the phenotype due to exon 49 skipping by two distinct mechanisms - premature termination codon-induced exon skipping and revertant mosaicism - both of which induced skipping of the same exon. The patient was compound heterozygous for two inherited COL17A1 mutations, a frameshift mutation in exon 18 (c.1490_1491delinsT, p.Ala497Valfs*23) and a nonsense mutation in exon 49 (c.3487G>T, p.Glu1163Ter). Upon clinical examination, skin patches were found that were resistant to blister formation. In these patches, naturally corrected cells were present that harboured an additional splice-site mutation, c.3419-1G>T, resulting in skipping of the mutation-containing exon 49. This natural gene therapy phenomenon shows that type XVII collagen with residues 1140-1169 deleted is largely functional. In addition, in affected skin cells a low level of exon 49 skipping was observed. Our results support the notion that skipping of a mutated in-frame exon in COL17A1 ameliorates the phenotype.

Adhesive stripping to remove epidermis in junctional epidermolysis bullosa for revertant cell therapy.

BACKGROUND: Replacing mutant skin in epidermolysis bullosa (EB) by epithelial sheets of transduced autologous keratinocytes is the essential surgical step of ex vivo gene therapy. The same applies for revertant cell therapy in which epithelial sheets of revertant autologous keratinocytes are used. Revertant cells can be found in patches of normal skin in patients with junctional EB (JEB) due to revertant mosaicism caused by in vivo reversions. OBJECTIVES: To develop a technique of adhesive tape stripping as a method for epidermis removal to prepare the acceptor site for revertant cell therapy in a patient with revertant mosaic JEB. METHODS: We performed revertant cell therapy on a patient with mosaic type XVII collagen-deficient non-Herlitz JEB. Skin biopsies were taken from revertant skin on the wrist. Graft production took place on a 3T3-J2 feeder layer resulting in two 6 x 7 cm grafts. An innovative method that uses the pathological plane of least resistance of JEB skin was developed to prepare the acceptor site. A polyacrylate adhesive plaster was placed on the skin and then pulled off with the epidermis. RESULTS: The epidermis was easily removed with the plaster. The skin separated at the level of the lamina lucida, leaving a bloodless wound bed of naked lamina densa. Transplantation was successful; the acceptor site healed without scarring. However, blistering could be provoked. The functional repair was not achieved due to the low percentage of revertant cells in the graft. CONCLUSIONS: We conclude that adhesive stripping is a simple, effective and almost painless procedure for removing epidermis for ex vivo cell therapy in EB.