Digenic inheritance in epidermolysis bullosa simplex involving two novel mutations in KRT5 and KRT14

Potential digenic inheritance of SERPINB7 and SERPINA12 variants in Chinese patients with Nagashima-type palmoplantar keratosis

Nagashima-type palmoplantar keratosis, caused by biallelic loss-of-function variants in SERPINB7, is the most prevalent palmoplantar keratoderma in East Asia and manifests as diffuse palmoplantar erythema and hyperkeratosis. We report four different variants of SERPINA12 in six Chinese individuals and identified the recurrent variant c.970_971del as a founder variant among East Asians.

Genotype and phenotype correlations in 441 patients with epidermolysis bullosa from China

BACKGROUND

Epidermolysis bullosa (EB) is a heterogeneous group of rare and incurable genetic blistering disorders.

OBJECTIVES

The objective was to analyse the genotype-phenotype correlation in EB among Chinese individuals.

METHODS

Next-generation sequencing and Sanger sequencing were performed to genetically confirm clinically diagnosed EB. Reverse transcription-PCR and splice-site analysis were used to evaluate the consequences of splicing mutations.

RESULTS

A total of 441 cases (413 families) across 11 genes were included. EB simplex (EBS), junctional EB (JEB), dystrophic EB (DEB), Kindler EB, simplex and junctional compound EB accounted for 23.4%, 12.7%, 61.5%, 1.1% and 0.2%, respectively. In 16 probands with presumptive recessive EB, failed to find the second allele, COL7A1 (10), COL17A1 (4), LAMB3 (1) and ITGB4 (1). De novo mutations are common in dominant EB (63.8% in EBS, 27.5% in DEB) but extremely rare in recessive DEB (RDEB; 0.74%). Mosaicism is more common than presumed, with 5.4% of dominant EBS. In JEB, only 45.0% of patients with biallelic premature termination codon (PTC) mutations in laminin 332 genes died within 24 months, with a longer average survival age of 11.1 months. In JEB, unusual phenotypes are frequently observed, notably urinary tract involvement, duodenal atresia and EB nevi. In RDEB, 48.8% of cases with biallelic PTC mutations in COL7A1 exhibited a relatively mild phenotype; they are likely to develop a severe phenotype at 0-4 years old, and the PTC mutations position closer to the N-terminal, leading to earlier onset. Glycine substitution mutations in DEB have complex genotypic and phenotypic heterogeneity. The rare subtype, dominant and recessive compound DEB, consists of 1.8% of the total DEB.

CONCLUSIONS

This study reveals the general rules governing genotype-phenotype correlations, rare phenotypes and complex genotypes. Collectively, mutation analysis in different forms of EB provides the basis for improved subclassification with accurate genetic counselling and for prenatal diagnosis.

A Novel Mutation p.L461P in KRT5 Causing Localized Epidermolysis Bullosa Simplex

Background

Epidermolysis bullosa (EB) is a rare genetic disease with widely different clinical manifestations, but the relationship between genotype and phenotype is not fully understood. In the present study, we recruited a Chinese family in which two members had been diagnosed with localized EB simplex (EBS), with clinical manifestation, including blisters and erosions on the soles of the feet since infancy.

Objective

To identify and confirm the genetic variation in a Chinese family diagnosed as localized EBS.

Methods

Our study included two patients, other healthy members of the family, and 100 normal controls. Genomic DNA samples were isolated from each participant, and then polymerase chain reaction (PCR) direct sequencing was performed.

Results

The results of PCR direct sequencing revealed a novel heterozygous missense mutation in codon 461 of exon 7 of KRT5 (c.1382T>C), which led to an amino acid change (p.L461P) in the patients with EBS but was absent in unaffected family members and 100 unrelated control samples.

Conclusion

The present study broadens the mutational spectrum of EBS, and this knowledge could be harnessed for prenatal screening, gene diagnosis, and gene therapy for localized EBS.

Severe epidermolysis bullosa simplex phenotype caused by codominant mutations p.Ile377Thr in keratin 14 and p.Gly138Glu in keratin 5

Epidermolysis bullosa simplex (EBS) is a rare skin disease usually inherited in an autosomal dominant pattern. EBS is resulting from mutations in keratin 5 (KRT5) and keratin 14 (KRT14) genes encoding the keratins 5 and 14 proteins expressed in the keratinocytes of the basal layer of the epidermis. To date, seven pathogenic mutations have been reported to be responsible for EBS in the Canadian population from the province of Quebec: p.Pro25Leu, p.Leu150Pro, p.Met327Thr and p.Arg559X in KRT5; p.Arg125Ser, p.Ile377Thr and p.Ile412Phe in KRT14. Here, we present a novel French-Canadian patient diagnosed with EBS confined to the soles but presenting a severe complication form including blisters, hyperkeratosis, skin erosions and toenail abnormalities. Mutation screening was performed by direct sequencing of the entire coding regions of KRT5 and KRT14 genes and revealed the previously reported missense heterozygous mutation c. 1130T > C in KRT14 (p.Ile377Thr). Furthermore, this patient is carrying a second mutation in KRT5, c.413G > A (p.Gly138Glu), which has been linked to an increased risk of basal cell carcinoma in the literature. We suspect an impact of the p.Gly138Glu variant on the EBS phenotype severity of the studied patient. The pathogenicity and consequences of both genetic variations were simulated by in silico tools.

Next generation sequencing identifies double homozygous mutations in two distinct genes (EXPH5 and COL17A1) in a patient with concomitant simplex and junctional epidermolysis bullosa

Epidermolysis bullosa (EB) is a heterogeneous group of heritable blistering diseases. We developed a next generation sequencing (NGS) panel covering 21 genes associated with skin fragility disorders, and it was applied to DNA from 91 probands with the diagnosis of EB. In one patient, novel homozygous mutations were disclosed in two different, unlinked EB-associated genes: EXPH5, chr11 g.108510085G > A; p.Arg1808Ter and COL17A1, chr10 g.104077423delT; p.Thr68LeufsTer106. Consequences of the COL17A1 mutation were examined by RNAseq which revealed a complex splicing pattern predicting synthesis of a truncated polypeptide (85%) or in-frame deletion of exon 4 (15% of transcripts). Transmission electron microscopy (TEM) and immunostaining revealed findings consistent with EB simplex (EBS) and junctional EB (JEB), and clinical examination revealed a complex phenotype with features of both subtypes. This case illustrates the power of next generation sequencing in identifying mutations in patients with complex EB phenotype, with implications for genotype-phenotype correlations, prenatal testing, and genetic counseling of families at risk for recurrence.

Claudins are essential for cell shape changes and convergent extension movements during neural tube closure

During neural tube closure, regulated changes at the level of individual cells are translated into large-scale morphogenetic movements to facilitate conversion of the flat neural plate into a closed tube. Throughout this process, the integrity of the neural epithelium is maintained via cell interactions through intercellular junctions, including apical tight junctions. Members of the claudin family of tight junction proteins regulate paracellular permeability, apical-basal cell polarity and link the tight junction to the actin cytoskeleton. Here, we show that claudins are essential for neural tube closure: the simultaneous removal of Cldn3, −4 and −8 from tight junctions caused folate-resistant open neural tube defects. Their removal did not affect cell type differentiation, neural ectoderm patterning nor overall apical-basal polarity. However, apical accumulation of Vangl2, RhoA, and pMLC were reduced, and Par3 and Cdc42 were mislocalized at the apical cell surface. Our data showed that claudins act upstream of planar cell polarity and RhoA/ROCK signaling to regulate cell intercalation and actin-myosin contraction, which are required for convergent extension and apical constriction during neural tube closure, respectively.

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Simultaneous removal of Cldn3, −4 and −8 causes open neural tube defects.

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Folic acid cannot rescue open NTDs caused by depletion of Cldn3, −4 and −8.

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Removal of Cldn3, −4 and −8 prevents convergent extension.

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Apical constriction to form the median hinge point requires Cldn3, −4 and −8.

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Claudins localize polarity complex components to the apical surface.