What does acne genetics teach us about disease pathogenesis?

BACKGROUND: Acne vulgaris is a highly prevalent inflammatory skin disorder with a complex pathogenesis, characterized by comedones, papules, pustules and nodules. Familial preponderance clearly indicates a genetic basis for acne vulgaris, but until recently solid genetic associations were lacking. RESULTS: The advent of high-resolution genotyping array technologies has allowed for large-scale studies with both family-based and cross-sectional designs. These studies have revealed genetic loci encompassing genes that could be active in biological pathways and processes underlying acne vulgaris. However, specific functional consequences of those variants remain elusive. In parallel, investigations into rare disorders and syndromes that incorporate features of acne or acne-like lesions have recently accelerated our understanding of disease pathogenesis. The genes revealed by these rare disorders highlight mechanisms cardinal for pilosebaceous biology and therefore anchor our insights from genetic association studies for acne vulgaris. CONCLUSIONS: The next phase of research will require more in-depth mechanistic investigations of loci and genes implicated in acne phenotypes to define the key molecular players driving the disorder. Concurrently, new treatments for acne vulgaris could be developed by dissecting the candidate molecular pathways to identify druggable targets.

Homeostasis of the sebaceous gland and mechanisms of acne pathogenesis.

BACKGROUND: Sebaceous glands (SGs) are appendages of mammalian skin that produce a mixture of lipids known as sebum. Acne vulgaris is an exceptionally common skin condition, characterized by elevated sebum production, altered sebum composition, and the formation of infundibular cysts, called comedones. Comedo-associated SGs are atrophic, suggesting that comedo formation involves abnormal differentiation of progenitor cells that generate the SG and infundibulum: the 'comedo switch'. Understanding the biological processes that govern SG homeostasis promises to highlight potential aetiological mechanisms underlying acne and other SG-associated skin disorders. RESULTS: In this review, we discuss the clinical data, genetic mouse models and in vitro research that have highlighted major hormones, paracrine factors, transcription factors and signalling pathways that control SG homeostasis. These include, but are not limited to androgens, progestogens and oestrogens; retinoids; receptor tyrosine kinases such as ErbB family receptors, fibroblast growth factor receptor 2 and insulin/insulin-like growth factor 1 receptors; peroxisome proliferator-activated receptor γ; aryl hydrocarbon receptor; and the Wnt signalling pathway. Where possible, the cellular and molecular mechanisms by which these regulatory factors control SG biology are indicated, along with considerations as to how they might contribute to acne pathogenesis. CONCLUSIONS: Future research should seek to establish the relative importance, and causative relationships, of altered sebum production, sebum composition, inflammation and abnormal differentiation of sebaceous progenitors to the process of comedo formation in acne. Such an understanding will allow for therapeutic targeting of regulatory factors that control SG homeostasis, with the aim of treating acne.

Cutaneous clues for diagnosing X-chromosomal disorders.

In a multidisciplinary outpatient clinic for hereditary skin diseases and/or syndromes involving the skin, 7% (30 of 409) of patients were found to have an abnormality involving the X chromosome, a mutation in a gene located on the X chromosome or a clinical diagnosis of an X-linked monogenetic condition. The collaboration of a dermatologist and a clinical geneticist proves to be very valuable in recognizing and diagnosing these conditions. By combining their specific expertize in counselling an individual patient, X-linked diagnoses were recognized and could be confirmed by molecular and/or cytogenetic studies in 24 of 30 cases. Mosaicism plays an important role in many X-linked hereditary skin disorders. From our experience, we extracted clinical clues for specialists working in the field of genetics and/or dermatology for considering X-linked disorders involving the skin.

Sprengel's deformity and spinal dysraphism: connecting the shoulder and the spine.

BACKGROUND AND PURPOSE: Sprengel's deformity, a rare congenital malformation of the scapula, may be observed in combination with spinal dysraphism. The co-occurrence of these malformations suggests an unknown shared etiology. Therefore, we reviewed the medical records of eight children presenting with both malformations and performed a review of the literature. PATIENTS AND METHODS: Databases from four university medical centers were searched for children presenting between 1992 and 2012 with spinal dysraphism and a Sprengel's deformity. CONCLUSION: The combination of spinal dysraphism and Sprengel's deformity is rare, and is associated with segmentation defects of the spine and ribs. Although the etiology of both spinal dysraphism and Sprengel's deformity remains unclear, all deformities of the spine, ribs, and shoulder might result from a common genetic defect affecting somitogenesis.

Ehlers-Danlos arthrochalasia type (VIIA-B)--expanding the phenotype: from prenatal life through adulthood.

The Ehlers-Danlos syndromes (EDS) form a clinically and genetically heterogeneous group of inherited connective-tissue disorders characterized by joint hypermobility, tissue fragility and skin abnormalities. Six subtypes have been well characterized based on clinical features and molecular genetic abnormalities. The arthrochalasia type EDS (formerly types VIIA and B) is characterized by severe generalized joint hypermobility with multiple dislocations including congenital bilateral dislocation of the hips, muscular hypotonia and distinct dysmorphic features. The diagnosis of the arthrochalasia type EDS is of importance in the neonatal period because of consequences of physical disability in later life. However, the differential diagnosis may be difficult because of overlap with other hypermobility syndromes. In addition, the significant hypotonia may direct the physician toward various neuromuscular diagnoses. As patients become older, the hypotonia decreases and facial features become less distinct. In this report, we describe seven patients at different ages. Timing of diagnosis varied from prenatal life to adult age. The diagnosis of EDS type VII was confirmed by biochemical studies or mutation analysis showing characteristic mutations in COL1A1 and COL1A2. These mutations result in skipping of exon 6, which leads to defective collagen synthesis. For physicians treating patients with EDS type VII, achieving mobility for the patient is the greatest challenge and it may be impossible because of recurrent dislocations of nearly all joints in severe cases.

Genodermatoses caused by genetic mosaicism.

Genetic mosaicism is defined as the existence of at least two genetically distinct cell populations within one individual. Mosaic presentation of genetic disorders is common and is often particularly obvious in the skin, because there it will generate recognizable patterns. Recognizing those can frequently assist in establishing a diagnosis. In this review, we discuss the mechanisms that give rise to genetic mosaicism. We describe its most frequent cutaneous manifestations that are relevant to paediatric practice. While most mosaic genetic diseases are rare, it is important to recognize them so that patients and parents may receive appropriate genetic counselling. Moreover, recent developments are now resulting in novel, targeted treatments for such disorders that promise to considerably improve patients' lives.

Renal cancer and pneumothorax risk in Birt-Hogg-Dubé syndrome; an analysis of 115 FLCN mutation carriers from 35 BHD families.

BACKGROUND: Birt-Hogg-Dubé (BHD) syndrome is an autosomal dominant condition caused by germline FLCN mutations, and characterised by fibrofolliculomas, pneumothorax and renal cancer. The renal cancer risk, cancer phenotype and pneumothorax risk of BHD have not yet been fully clarified. The main focus of this study was to assess the risk of renal cancer, the histological subtypes of renal tumours and the pneumothorax risk in BHD. METHODS: In this study we present the clinical data of 115 FLCN mutation carriers from 35 BHD families. RESULTS: Among 14 FLCN mutation carriers who developed renal cancer 7 were <50 years at onset and/or had multifocal/bilateral tumours. Five symptomatic patients developed metastatic disease. Two early-stage cases were diagnosed by surveillance. The majority of tumours showed characteristics of both eosinophilic variants of clear cell and chromophobe carcinoma. The estimated penetrance for renal cancer and pneumothorax was 16% (95% minimal confidence interval: 6-26%) and 29% (95% minimal confidence interval: 9-49%) at 70 years of age, respectively. The most frequent diagnosis in families without identified FLCN mutations was familial multiple discoid fibromas. CONCLUSION: We confirmed a high yield of FLCN mutations in clinically defined BHD families, we found a substantially increased lifetime risk of renal cancer of 16% for FLCN mutation carriers. The tumours were metastatic in 5 out of 14 patients and tumour histology was not specific for BHD. We found a pneumothorax risk of 29%. We discuss the implications of our findings for diagnosis and management of BHD.

Hereditary leiomyomatosis and renal cell cancer in families referred for fumarate hydratase germline mutation analysis.

Heterozygous fumarate hydratase (FH) germline mutations cause hereditary leiomyomatosis and renal cell cancer (HLRCC), an autosomal dominant syndrome characterized by multiple cutaneous piloleiomyomas, uterine leiomyomas and papillary type 2 renal cancer. The main objective of our study was to evaluate clinical and genetic data from families suspected of HLRCC on a nationwide level. All families referred for FH mutation analysis in the Netherlands were assessed. We performed FH sequence analysis and multiplex ligation-dependent probe amplification. Families with similar FH mutations were examined for haplotype sharing. In 14 out of 33 families, we identified 11 different pathogenic FH germline mutations, including 4 novel mutations and 1 whole-gene deletion. Clinical data were available for 35 FH mutation carriers. Cutaneous leiomyomas were present in all FH mutation carriers older than 40 years of age. Eleven out of 21 female FH mutation carriers underwent surgical treatment for symptomatic uterine leiomyomas at an average of 35 years. Two FH mutation carriers had papillary type 2 renal cancer and Wilms' tumour, respectively. We evaluated the relevance of our findings for clinical practice and have proposed clinical diagnostic criteria, indications for FH mutation analysis and recommendations for management.

A novel missense mutation in GJB2, p.Tyr65His, causes severe Vohwinkel syndrome.

Gap junctions are intercellular channels which are permeable to ions and small molecules up to about 1 kDa in size. They are prominent in the skin, but their precise function there is largely unknown. Mutations in skin-expressed gap junction genes disrupt epidermal growth and differentiation. A relatively minor epidermal connexin, connexin 26 (Cx26), is associated with a wide variety of phenotypes, each specifically associated with a particular amino acid residue. How the different mutations in GJB2 lead to such distinctive phenotypes is poorly understood. Analysis of new GJB2 mutations can shed new light on pathogenesis and the apparently vital role of Cx26 in maintaining epidermal integrity.

Focal dermal hypoplasia in a male patient due to mosaicism for a novel PORCN single nucleotide deletion.

BACKGROUND: Focal dermal hypoplasia (FDH) is an X-linked dominant disorder caused by nonsense mutations and deletions in the PORCN gene coding for a transmembrane endoplasmic reticulum protein required for Wingless signalling. Symptoms consist mainly of linear atrophic skin defects, skeletal deformities and, in many cases, mental retardation. Osteopathia striata is a nearly constant feature. Approximately 90% of patients are women. A few instances of father-to-daughter transmission and a number of sporadic male cases presumably as a result of somatic mosaicism have been recorded. OBJECTIVES: The aim of this study was to demonstrate the presence of somatic mosaicism for PORCN mutations in a male patient. METHODS: We sequenced the PORCN gene in different tissues from a boy with symptoms of FDH. RESULTS: We demonstrate post-zygotic mosaicism for a novel deletion in the PORCN gene. CONCLUSIONS: A novel PORCN deletion, present in a post-zygotic mosaic, causes focal dermal hyplasia in a male patient.

Bile duct paucity is part of the neonatal ichthyosis-sclerosing cholangitis phenotype.

Neonatal ichthyosis-sclerosing cholangitis (NISCh) syndrome is a rare autosomal recessive disorder associated with scalp hypotrichosis, scarring alopecia, ichthyosis and sclerosing cholangitis. It is caused by homozygous mutations in the CLDN1 gene coding for the tight junction component claudin-1. Only five patients have been reported so far: four patients from two inbred Moroccan families, all carrying a dinucleotide deletion c.200_201delTT in the CLDN1 gene and a Swiss patient with a 1-bp deletion (c.358delG) in exon 2. Here, we report on three Moroccan brothers born of consanguineous parents (first cousins) presenting with ichthyosis, hypotrichosis and congenital paucity of bile ducts. In our patients, we found the same dinucleotide deletion (c.200_201delTT) in the CLDN1 gene that had been reported previously. In our view, this is suggestive of a founder effect. Interestingly, our patients presented not with sclerosing cholangitis but with congenital paucity of bile ducts. Although the two conditions cannot always be easily distinguished, we would suggest that paucity of bile ducts could be a manifestation of NISCh.

A novel mutation in the L12 domain of keratin 1 is associated with mild epidermolytic ichthyosis.

BACKGROUND: Epidermolytic ichthyosis (EI), previously termed bullous congenital ichthyosiform erythroderma or epidermolytic hyperkeratosis, is a clinically heterogeneous genodermatosis caused by mutations in the genes encoding the suprabasal keratins 1 and 10. Classical EI is clinically characterized by severe neonatal erythroderma, blistering and fragile skin in infancy, quickly subsiding with subsequent development of generalized scaling hyperkeratosis. We report three Dutch families with palmoplantar keratoderma and mild blistering, but without neonatal erythroderma and generalized scaling. A novel heterozygous missense mutation in the linker L12 domain of KRT1:c.1019A>G, p.Asp340Gly was found associated with this phenotype in these families. OBJECTIVES: To investigate the effects of the novel KRT1:p.Asp340Gly and the one other previously reported KRT1:p.Asp340Val mutations on keratinocyte cytoskeleton formation and stress resistance. METHODS: Wild-type and mutant pEGFP-KRT1 fusion constructs were transfected into HaCaT cells and exposed to hypo-osmotic shock. Haplotyping and genealogical studies were performed to investigate the possibility of a common founder for p.Asp340Gly. RESULTS: Cells transfected with either one of the keratin 1 L12 domain mutations showed significantly increased tonofilament aggregation. The haplotype around the KRT1 gene was shared in all affected family members of two families and a common founder was traced. CONCLUSIONS: Our study supports the pathogenicity of the keratin 1 L12 domain mutations in vitro. These mutations are associated with a milder EI phenotype with pronounced palmoplantar keratoderma, and without neonatal erythroderma and scaling. The KRT1:p.Asp340Gly mutation in the Dutch families is likely to have arisen from a common founder.

Unique skin changes in a case of Albright hereditary osteodystrophy caused by a rare GNAS1 mutation.

Albright hereditary osteodystrophy (AHO) is a syndrome of short stature, obesity, brachydactyly and subcutaneous calcifications with pseudohypoparathyroidism (PHP; leading to hypocalcaemia, hyperphosphataemia and elevated levels of parathyroid hormone, PTH). It was first described over 60 years ago. Since then, much has been learned about the aetiology of AHO which has been shown to be caused by heterozygous loss-of-function mutations within the GNAS1 gene. GNAS1 is subject to imprinting leading to phenotypic heterogeneity within kindreds with one mutation. Patients with AHO often present with symptoms of hypocalcaemia and/or with subcutaneous calcifications. The latter is thought to be the typical skin abnormality in AHO. We describe a family with AHO and hormone resistance (PHP type Ia) resulting from a rare mutation in GNAS1. The proband presented with small subcutaneous calcifications in the helix of the right ear and concentrated in a sharply demarcated zone of subcutaneous and dermal hypoplasia. This abnormality has so far not been described in patients with AHO. We speculate on the mechanism of dermal hypoplasia and resistance to PTH and suggest that subcutanous or dermal hypoplasia might be another feature which can be present in patients with AHO.