Showing papers by "John A. McGrath published in 2009"

Increased invasive behaviour in cutaneous squamous cell carcinoma with loss of basement-membrane type VII collagen

Abstract: Type VII collagen (ColVII) is the main component of anchoring fibrils, attachment structures within the lamina densa of the basement membrane that are responsible for attachment of the epidermis to the dermis in skin. Mutations in the human ColVII gene, COL7A1, cause the severe inherited blistering disorder recessive dystrophic epidermolysis bullosa (RDEB) affecting skin and mucosae, associated with a greatly increased risk of skin cancer. In this study, we examined the effect of loss of ColVII on squamous cell carcinoma (SCC) tumourigenesis using RNAi in a 3D organotypic skin model. Our findings suggest that loss of ColVII promotes SCC migration and invasion as well as regulating cell differentiation with evidence for concomitant promotion of epithelial-mesenchymal transition (EMT). Immunostaining of RDEB skin and a tissue array of sporadic cutaneous SCCs confirmed that loss of ColVII correlates with decreased involucrin expression in vivo. Gene-expression-array data and immunostaining demonstrated that loss of ColVII increases expression of the chemokine ligand-receptor CXCL10-CXCR3 and downstream-associated PLC signalling, which might contribute to the increased metastatic potential of SCCs with reduced or absent ColVII expression. Together, these findings may explain the aggressive behaviour of SCCs in RDEB patients and may also be relevant to non-RDEB skin cancer, as well as other tumours from organs where ColVII is expressed.

Kindler syndrome: a focal adhesion genodermatosis

Abstract: Summary Kindler syndrome (OMIM 173650) is an autosomal recessive genodermatosis characterized by trauma-induced blistering, poikiloderma, skin atrophy, mucosal inflammation and varying degrees of photosensitivity. Although Kindler syndrome is classified as a subtype of epidermolysis bullosa, it has distinct clinicopathological and molecular abnormalities. The molecular pathology of Kindler syndrome involves loss-of-function mutations in a newly recognized actin cytoskeleton-associated protein, now known as fermitin family homologue 1, encoded by the gene FERMT1. This protein mediates anchorage between the actin cytoskeleton and the extracellular matrix via focal adhesions, and thus the structural pathology differs from other forms of epidermolysis bullosa in which there is a disruption of the keratin intermediate filament–hemidesmosome network and the extracellular matrix. In the skin, fermitin family homologue 1 is mainly expressed in basal keratinocytes and binds to the cytoplasmic tails of β1 and β3 integrins as well as to fermitin family homologue 2 and filamin-binding LIM protein 1. It also plays a crucial role in keratinocyte migration, proliferation and adhesion. In this report, we review the clinical, cellular and molecular pathology of Kindler syndrome and discuss the role of fermitin family homologue 1 in keratinocyte biology.

New insight into mechanisms of pruritus from molecular studies on familial primary localized cutaneous amyloidosis.

Abstract: Macular and lichen amyloidosis are common variants of primary localized cutaneous amyloidosis (PLCA) in which clinical features of pruritus and skin scratching are associated with histological findings of deposits of amyloid staining on keratinous debris in the papillary dermis. Most cases are sporadic, but an autosomal dominant family history may be present in up to 10% of cases, consistent with a genetic predisposition in some individuals. Familial PLCA has been mapped to a locus on 5p13.1-q11.2 and in 2008 pathogenic heterozygous missense mutations were identified in the OSMR gene, which encodes oncostatin M receptor beta (OSMRbeta), an interleukin (IL)-6 family cytokine receptor. OSMRbeta is expressed in various cell types, including keratinocytes, cutaneous nerves and nociceptive neurones in dorsal root ganglia; its ligands are oncostatin M and IL-31. All pathogenic mutations are clustered in the fibronectin-III repeat domains of the extracellular part of OSMRbeta, sites that are critical for receptor dimerization (with either gp130 or IL-31RA), and lead to defective signalling through Janus kinase-signal transducers and activators of transcription, extracellular signal-regulated protein kinase 1/2 and phosphoinositide 3 kinase/Akt pathways. Elucidating the molecular pathology of familial PLCA provides new insight into mechanisms of pruritus in human skin, findings that may have relevance to developing novel treatments for skin itching. This review provides a clinicopathological and molecular update on familial PLCA.

New glycine substitution mutations in type VII collagen underlying epidermolysis bullosa pruriginosa but the phenotype is not explained by a common polymorphism in the matrix metalloproteinase-1 gene promoter.

Abstract: Epidermolysis bullosa (EB) pruriginosa is an unusual variant of dystrophic EB in which intense itching can lead to striking skin changes resembling acquired skin disorders such as nodular prurigo or hypertrophic lichen planus. The molecular pathology involves mutations in the COL7A1 gene, but the nature of the mutations is similar to those seen in other non-pruritic forms of dystrophic EB. The mechanism of the dramatic phenotypic differences is currently unknown. In this study we assessed the incidence of a common functional polymor-phism in the matrix metalloproteinase-1 gene promoter (1G or 2G at nucleotide -1607) in individuals with EB pruriginosa (n = 27) compared with non-itchy dominant dystrophic EB (n = 23), recessive dystrophic EB (n = 25) and normal controls (n = 50). The hypothesis is that the 2G allele, which was previously shown to increase matrix metalloproteinase-1 activity and lead to increased degradation of type VII collagen, could explain the phenotypic heterogeneity encountered in dominant forms of EB, particularly the itchy EB pruriginosa phenotype. The rationale is that increased type VII collagen degradation could trigger an inflammatory response leading to itchy skin characteristic of EB pruriginosa. All 27 individuals with EB pruriginosa were heterozygous for dominant-negative glycine substitution mutations in the COL7A1 gene, six of which have not been reported previously. The frequency of the 2G allele in these subjects (46.3%) was greater than in the controls (42.0%), but less than in non-itchy dominant dystrophic EB (52.2%) or recessive dystrophic EB (62.0%), indicating that variants of a common functional polymorphism in the matrix metalloproteinase-1 gene promoter do not account for the itchy skin phenotype. The pathophysiology of EB pruriginosa remains unexplained.

Novel truncating mutations in PKP1 and DSP cause similar skin phenotypes in two Brazilian families

Abstract: Inherited mutations in components of desmosomes result in a spectrum of syndromes characterized by variable abnormalities in the skin and its appendages, including blisters and erosions, palmoplantar hyperkeratosis, woolly hair or hypotrichosis and, in some cases, extracutaneous features such as cardiomyopathy. We investigated the molecular basis of two Brazilian patients presenting with clinical features consistent with ectodermal dysplasia-skin fragility syndrome. In patient 1 we identified a homozygous nonsense mutation, p.R672X, in the PKP1 gene (encoding plakophilin 1). This particular mutation has not been reported previously but is similar to the molecular pathology underlying other cases of this syndrome. In patient 2 we found compound heterozygosity for two frameshift mutations, c.2516del4 and c.3971del4, in the DSP gene (encoding desmoplakin). Although there was considerable clinical overlap in the skin and hair abnormalities in these two cases, patient 2 also had early-onset cardiomyopathy. The mutation c.3971del4 occurs in the longer desmoplakin-I isoform (which is the major cardiac transcript) but not in the more ubiquitous desmoplakin-II. In contrast, PKP1 is not expressed in the heart, which accounts for the lack of cardiomyopathy in patient 1. Collectively, these cases represent the first desmosomal genodermatoses to be reported from Brazil and add to genotype-phenotype correlation in this group of inherited disorders. Loss-of-function mutations in the DSP gene can result in a phenotype similar to ectodermal dysplasia-skin fragility syndrome resulting from PKP1 mutations but only DSP pathology is associated with cardiac disease.

Loss-of-Function FERMT1 Mutations in Kindler Syndrome Implicate a Role for Fermitin Family Homolog-1 in Integrin Activation

Abstract: Kindler syndrome is an autosomal recessive disorder characterized by skin atrophy and blistering. It results from loss-of-function mutations in the FERMT1 gene encoding the focal adhesion protein, fermitin family homolog-1. How and why deficiency of fermitin family homolog-1 results in skin atrophy and blistering are unclear. In this study, we investigated the epidermal basement membrane and keratinocyte biology abnormalities in Kindler syndrome. We identified altered distribution of several basement membrane proteins, including types IV, VII, and XVII collagens and laminin-332 in Kindler syndrome skin. In addition, reduced immunolabeling intensity of epidermal cell markers such as β1 and α6 integrins and cytokeratin 15 was noted. At the cellular level, there was loss of β4 integrin immunolocalization and random distribution of laminin-332 in Kindler syndrome keratinocytes. Of note, active β1 integrin was reduced but overexpression of fermitin family homolog-1 restored integrin activation and partially rescued the Kindler syndrome cellular phenotype. This study provides evidence that fermitin family homolog-1 is implicated in integrin activation and demonstrates that lack of this protein leads to pathological changes beyond focal adhesions, with disruption of several hemidesmosomal components and reduced expression of keratinocyte stem cell markers. These findings collectively provide novel data on the role of fermitin family homolog-1 in skin and further insight into the pathophysiology of Kindler syndrome.

PORCN gene mutations and the protean nature of focal dermal hypoplasia.

Abstract: Summary Focal dermal hypoplasia (FDH) is an X-linked dominant disorder featuring developmental abnormalities of ectodermal and mesodermal tissues. Pathogenic mutations in the PORCN gene (locus Xp11.23) were identified in 2007 and thus far 27 different mutations have been reported. PORCN encodes a putative O-acyltransferase which facilitates secretion of Wnt proteins required for ectomesodermal tissue development. We investigated PORCN gene pathology and pattern of X-chromosome inactivation analysis in two unrelated Caucasian female patients who presented with multiple developmental abnormalities consistent with FDH. We also reviewed the clinical and molecular data for all reported PORCN mutations and assessed genotype–phenotype correlation for sporadic and familial cases of FDH. DNA sequencing revealed two new PORCN gene mutations: p.W282X and c.74delG (p.G25fsX51). X-chromosome inactivation analysis revealed a random pattern in one case but was uninformative in the other. Collectively, point/small mutations account for 24 out of the 29 PORCN mutations and are typically seen in sporadic cases; larger deletions are more common in familial cases. Identification of two new PORCN gene mutations confirms the importance of PORCN-associated Wnt signalling in embryogenesis. Both new cases showed Blaschko-linear dermal hypoplasia and extensive ectomesodermal abnormalities, including severe limb developmental anomalies and a giant cell tumour of bone in one patient. Clinical variability can be attributed to the degree of lyonization and postzygotic genomic mosaicism, which are important mechanisms in determining the clinical presentation.

Autosomal dominant junctional epidermolysis bullosa.

Abstract: Summary Background Epidermolysis bullosa (EB) encompasses a heterogeneous group of inherited skin disorders associated with trauma-induced blistering. The junctional forms of EB (JEB), Herlitz JEB, non-Herlitz JEB and JEB associated with pyloric atresia have all been attributed to autosomal recessive inheritance. We describe a 7-year-old girl with defective dental enamel, trauma-induced blistering and subsequent scarring. Her mother, a carrier of the mutation p.G627V in the collagen XVII gene (COL17A1) had evidence of hypoplastic dental enamel without skin blistering. Her grandmother had non-Herlitz JEB as a result of a compound heterozygous mutation in COL17A1 (p.G627V and c.3514ins25). Objectives To explore the molecular, ultrastructural and immunofluorescence findings of the first case of dominant JEB. Methods Mutational analysis of COL17A1 was performed on the proband’s genomic DNA. In addition, transmission electron microscopy and immunofluorescence microscopy were performed on a nonlesional skin biopsy from the proband and an unrelated healthy control. Results Direct sequencing revealed a heterozygous glycine substitution mutation, p.G627V, in COL17A1. No discernible morphological abnormalities were found on transmission electron microscopy; however, immunofluorescence microscopy revealed findings of an altered distribution pattern for type XVII collagen epitopes close to the dermal–epidermal junction. Conclusion This report describes the first case of dominant JEB. Although some heterozygous mutations in COL17A1 are known to cause dental abnormalities none were associated with skin fragility. The dominant-negative interference between the proband’s mutated type XVII collagen and the wild-type allele appears to render the skin prone to trauma-induced blister formation. Alternatively, other undisclosed modifying genetic or epigenetic factors might explain why the patient gets blistering whereas her mother, who has the same COL17A1 mutation, has no skin fragility.

Lipoid proteinosis: identification of two novel mutations in the human ECM-1 gene and lack of genotype-phenotype correlation.

Abstract: 'Department of Dermatology and tlif Center for Genetic Diseases of the Skin and Hair. Hadassah-Hehrew University Medical Center. Jerusalem, fsrael. •Department of Dermatology and Allergology, Academic Teaching Hospital Dresden-Frietirichstadt. Dresden. Germany. 'Goldyne Savad Institute of Gene Tfierapy. Hadassah Hebrew University Medical Center. Jerusalem. 'Maccabi Health Services. Bnei-Brak. Israel. -The Robin Eady National Diagnostic Epidermolysis Biilhsa Laboratory: The Guys andSt Thomas 'NHS Foundation Tnut. and \"The Guy's. King's College and St Thomas'.School of Medicine. Genetic .Skin Disease Group, St John s institute of Dermatology^ Division of Genetics and Molecular Medicine. London. United Kingdom. E-mail: ritrano%hadassah. org. il Accepted Maivh 23. 2009.

Acantholytic ectodermal dysplasia: clinicopathological study of a new desmosomal disorder.

Abstract: We describe two boys with curly hair, palmoplantar keratoderma and skin fragility who presented clinical and histological features similar, but not identical, to those exhibited by patients with ectodermal dysplasia-skin fragility syndrome (McGrath syndrome) and other genetic desmosomal defects such as Carvajal syndrome and Naxos disease. Clinical features included trauma-induced blisters and erosions, palmoplantar keratoderma and hyperkeratotic, fissured plaques with perioral involvement. The patients had abundant curly scalp hair, and normal eyebrows and eyelashes. Sweating was normal. Nails were normal at birth but subsequently showed secondary dystrophy. Histopathological analysis of the skin demonstrated acantholysis and intercellular widening of the spinous and granular layers in involved regions. No involvement of scalp skin was seen. Desmosomes were markedly reduced in number and poorly developed with no clear insertions of the keratin filaments. The latter were clumped around the nuclei. Immunostaining of patient skin with antibodies raised against key desmosomal proteins demonstrated disrupted expression of desmoplakin, plakoglobin and desmoglein 1. Additional studies of the family history and of the desmoplakin, plakoglobin and desmoglein 1 genotype for both patients may help further elucidate the molecular cause of this variation on ectodermal dysplasia-skin fragility syndrome.

Epidermolysis bullosa pruriginosa in association with lichen planopilaris

Abstract: Summary Epidermolysis bullosa pruriginosa (EBP) is a clinical variant of dominant or occasionally recessive, dystrophic epidermolysis bullosa (EB). Clinically, intense pruritus on a background of inherited skin fragility often leads to skin signs that resemble acquired inflammatory disorders such as hypertrophic lichen planus (LP) or nodular prurigo. Moreover, symptoms and signs may not appear until adult life, further compounding difficulties in distinguishing between inherited or acquired skin pathology. We describe a 61-year-old white British woman who developed EBP during her 40s, with lichenified plaques on the legs that resembled hypertrophic LP. Molecular screening of the COL7A1 gene showed a novel heterozygous glycine substitution in type VII collagen, designated p.G2290A, in keeping with dominant dystrophic EB. During her 50s, however, the patient developed new abnormalities with patchy scarring alopecia and perifollicular inflammation. Histological examination of a skin biopsy found features of lichen planopilaris. To our knowledge, this is the first example of a patient with EBP in whom the genetic disease does not merely resemble LP but is actually associated with coexisting acquired lichenoid skin pathology. Intriguingly, treatment with topical tacrolimus 0.03% led to marked improvement in the inflammation on the legs but had little effect on the scalp.

Familial Primary Localized Cutaneous Amyloidosis in Brazil

Abstract: Background Macular and lichen amyloidosis are clinical variants of primary localized cutaneous amyloidosis (PLCA). Most cases are sporadic, but approximately 10% of cases may be familial. To our knowledge, the clinicopathologic and molecular features of such pedigrees, however, have not been studied in detail. Observations We assessed 2 Brazilian families with either lichen-type (family 1 had 14 affected subjects) or macular-type (family 2 had 7 affected subjects) PLCA. Typically, in both pedigrees, the onset of symptoms was around puberty, and pruritus usually began on the lower legs. Findings from lesional skin biopsy samples from both families showed thioflavin T–positive material in the papillary dermis, which was more prominent in the lichen phenotype in family 1. Spontaneous improvement occurred in 3 subjects (from both families) after age 25 years. All affected individuals in family 1 had a heterozygous missense mutation in the OSMR gene (p.I691T), but no pathogenic mutation in OSMR was found in family 2. Conclusions Familial PLCA shows autosomal dominant inheritance, but there is clinical and genetic heterogeneity and variable clinical penetrance. Demonstration of mutations in the OSMR gene provides new insight into mechanisms of itch and apoptosis in human skin.