Janice Schwartz scite author profile

Summary Background Pachyonychia congenita (PC) refers to a group of autosomal dominant disorders caused by mutations in five keratin genes (KRT16,KRT6A,KRT17,KRT6B or KRT6C). Current disease classification is based on the gene harbouring disease‐causing variants. Aims We harnessed the International Pachyonychia Congenita Research Registry (IPCRR) containing both clinical and molecular data on patients with PC worldwide, to identify genetic variants predicting disease severity. Methods We ascertained 815 individuals harbouring keratin mutations registered in the IPCRR. We looked for statistically significant associations between genetic variants and clinical manifestations in a subgroup of patients carrying mutations found in at least 10% of the cohort. Data were analysed using χ2 and Kruskal–Wallis tests. Results We identified five mutations occurring in at least 10% of the patients registered in the IPCRR. The KRT16 p.L132P mutation was significantly associated with younger age of onset, presence of palmar keratoderma oral leucokeratosis and a higher number of involved nails. By contrast, the KRT16 p.N125S and p.R127C mutations resulted in a milder phenotype featuring a decreased number of involved nails and older age of onset. Patients carrying the p.N125S mutation were less likely to develop palmar keratoderma while p.R127C was associated with an older age of palmoplantar keratoderma onset. Moreover, the KRT17 p.L99P mutation resulted in an increased number of involved fingernails and patients demonstrating 20‐nail dystrophy, while the opposite findings were observed with KRT17 p.N92S mutation. Conclusions We have identified novel and clinically useful genetic predictive variants in the largest cohort of patients with PC described to date.

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Coexistence of pachyonychia congenita and hidradenitis suppurativa: more than a coincidence

Pavlovsky

Peled

Sarig

et al. 2022

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Background The coexistence of pachyonychia congenita (PC) and hidradenitis suppurativa (HS) has been described in case reports. However, the pathomechanism underlying this association and its true prevalence are unknown. Objectives To determine the genetic defect underlying the coexistence of PC and HS in a large kindred, to delineate a pathophysiological signalling defect jointly leading to both phenotypes, and to estimate the prevalence of HS in PC. Methods We used direct sequencing and a NOTCH luciferase reporter assay to characterize the pathophysiological basis of the familial coexistence of HS and PC. A questionnaire was distributed to patients with PC registered with the International Pachyonychia Congenita Research Registry (IPCRR) to assess the prevalence of HS among patients with PC. Results Direct sequencing of DNA samples obtained from family members displaying both PC and HS demonstrated a missense variant (c.275A>G) in KRT17, encoding keratin 17. Abnormal NOTCH signalling has been suggested to contribute to HS pathogenesis. Accordingly, the KRT17 c.275A>G variant resulted in a significant decrease in NOTCH activity. To ascertain the clinical importance of the association of HS with PC, we distributed a questionnaire to all patients with PC registered with the IPCRR. Seventy-two of 278 responders reported HSassociated clinical features (25Á9%). Disease-causing mutations in KRT17 were most prevalent among patients with a dual phenotype of PC and HS (43%). Conclusions The coexistence of HS and KRT17-associated PC is more common than previously thought. Impaired NOTCH signalling as a result of KRT17 mutations may predispose patients with PC to HS.What is already known about this topic?• The coexistence of pachyonychia congenita (PC) and hidradenitis suppurativa (HS) has been described in case reports. • However, the pathomechanism underlying this association and its true prevalence are unknown.What does this study add?• A dual phenotype consisting of PC and HS was found to be associated with a pathogenic variant in KRT17. • This variant was found to affect NOTCH signalling, which has been previously implicated in HS pathogenesis.

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Heterozygous variants in the integrin subunit beta 4 gene (ITGB4) cause autosomal dominant nail dystrophy

Malovitski

Meijers

Cohen‐Barak

et al. 2022

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A unique skin phenotype resulting from a large heterozygous deletion spanning six keratin genes

Mohamad

Sarig

Beattie

et al. 2022

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The phenotypic spectrum of genodermatoses is continuously expanding. Three siblings were referred because of a highly unusual phenotype comprising alopecia, dystrophic nails, palmoplantar keratoderma and trauma‐induced skin blistering. Whole‐exome sequencing analysis identified a heterozygous large genomic alteration of around 116 0000 bp resulting in the deletion of the KRT9, KRT14, KRT15, KRT16 and KRT19 genes, as well as part of KRT17. This genomic change leads to the generation of a truncated keratin 17 (KRT17) protein encoded by the first three exons of the gene and part of intron 3. The three patients were found to carry the heterozygous genomic deletion while their healthy parents did not, indicative of germline mosaicism. The genomic alteration was found to result in reduced KRT17 expression in patient skin. More importantly, the abnormal truncated KRT17 was found to exert a deleterious effect on keratinocyte cytoskeleton formation, leading to keratin aggregation. Coexpression of wildtype and truncated KRT17 proteins also caused keratin aggregation, demonstrating that the deletion exerts a dominant negative effect. In conclusion, we are reporting on a novel clinical phenotype that was found to result from germline mosaicism for a large genomic deletion spanning six keratin genes, thus expanding the spectrum of clinical manifestations associated with keratin disorders. What is already known about this topic? Various conditions known as keratinopathies have been shown over recent years to be associated with dominant or recessive variants in several individual keratin genes. What does this study add? We report three patients presenting with a unique clinical phenotype that was found to result from germline mosaicism for a large genomic deletion spanning six keratin genes. The genomic variant is predicted to result in a truncated form of keratin 17, which was found in an in vitro assay to disrupt keratinocyte cell cytoskeleton formation.

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Janice Schwartz

Perianal tuberculosis in an immunocompetent patient

Identification of clinically useful predictive genetic variants in pachyonychia congenita

Coexistence of pachyonychia congenita and hidradenitis suppurativa: more than a coincidence

Heterozygous variants in the integrin subunit beta 4 gene (ITGB4) cause autosomal dominant nail dystrophy

A unique skin phenotype resulting from a large heterozygous deletion spanning six keratin genes

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