Spondylocostal dysostosis (SCD) is a term given to a heterogeneous group of disorders characterized by abnormal vertebral segmentation (AVS). We have previously identified mutations in the
Delta-like ...3 (
DLL3) gene as a major cause of autosomal recessive spondylocostal dysostosis.
DLL3 encodes a ligand for the Notch receptor and, when mutated, defective somitogenesis occurs resulting in a consistent and distinctive pattern of AVS affecting the entire spine. From our study cohort of cases of AVS, we have identified individuals and families with abnormal segmentation of the
entire spine but no mutations in
DLL3, and, in some of these, linkage to the
DLL3 locus at 19q13.1 has been excluded. Within this group, the radiological phenotype differs mildly from that of
DLL3 mutation–positive SCD and is variable, suggesting further heterogeneity. Using a genomewide scanning strategy in one consanguineous family with two affected children, we demonstrated linkage to 15q21.3-15q26.1 and furthermore identified a 4-bp duplication mutation in the human
MESP2 gene that codes for a basic helix-loop-helix transcription factor. No
MESP2 mutations were found in a further 7 patients with related radiological phenotypes in whom abnormal segmentation affected all vertebrae, nor in a further 12 patients with diverse phenotypes.
Desmosomes are essential adhesion structures in most epithelia that link the intermediate filament network of one cell to its neighbor, thereby forming a strong bond. The molecular components of ...desmosomes belong to the cadherin superfamily, the plakin family, and the armadillo repeat protein family. The desmosomal cadherins are calcium-dependent transmembrane adhesion molecules and comprise the desmogleins and desmocollins. To date, three human desmoglein isoforms have been characterized, namely desmogleins 1, 2, and 3 that are expressed in a tissue- and differentiation-specific manner. Here we have identified and characterized, at the genetic level, a novel human desmoglein cDNA sharing homology with desmogleins 1, 2, 3 and we name this desmoglein 4. The human desmoglein 4 cDNA (3.6kb) contains an open reading frame of 3120bp that encodes a precursor protein of 1040 amino acids. The predicted mature protein comprises 991 amino acids with a molecular weight of 107822Da at pI 4.38. Human desmoglein 4 shares 41% identity with human desmoglein 1, 37% with human desmoglein 2, and 50% with human desmoglein 3. Analysis of the exon/intron organization of the human desmoglein 4 gene (DSG4) demonstrates that it is composed of 16 exons spanning approximately 37kb of 18q12 and is situated between DSG1 and DSG3. We have demonstrated using RT-PCR on multiple tissue cDNA samples that desmoglein 4 has very specific tissue expression in salivary gland, testis, prostate, and skin.
Desmogleins (Dsgs), cadherin-type cell adhesion molecules, are targeted in skin-blistering diseases such as pemphigus and staphylococcal scalded skin syndrome (SSSS). The role of Dsg4, a new isoform, ...was investigated in these diseases. Dsg4 was recognized by 30 (77%) of 39 pemphigus sera containing anti-Dsg1 IgG but not by 16 pemphigus sera containing no anti-Dsg1 IgG or by 34 normal control sera. The Dsg4 immunoreactivity of these sera was abolished by removal of anti-Dsg1 IgG. Conversely, the removal of anti-Dsg4 IgG from pemphigus sera reduced the immunoreactivity against Dsg1 only 13.8% +/- 8.8% (n = 23) and did not affect its ability to induce blisters in neonatal mice. IgG that was affinity-purified on Dsg4 recognized Dsg1 but failed to induce blisters, while IgG purified on Dsg1 from the same pemphigus foliaceus sera induced blisters. Thus, pemphigus sera show Dsg4 reactivity due to cross-reactivity of a subset of anti-Dsg1 IgG, and the Dsg4/Dsg1-cross-reacting IgG has no demonstrable pathogenic effect. In addition, Dsg4 was not cleaved by exfoliative toxins that induce blisters in SSSS. These findings suggest that Dsg4 may play a role other than adhesion and that the cross-reactivity of desmoglein autoantibodies should be factored into the framework of future studies of autoimmune mechanisms in pemphigus.
Recently, the first example of a human mutation in the gene encoding the desmosomal plaque protein, desmoplakin, has been described in a patient with autosomal dominant striate palmoplantar kerato- ...derma. We now report a further case of a desmoplakin mutation in a proband with striate palmoplantar keratoderma that also results in a null allele and haploinsufficiency. The mutation was a heterozygous G>A transition at the donor +1 site of intron 7 of the desmoplakin gene (939 +1 G>A; Genbank M77830). The aberrant splicing leads to retention of the entire intron 7, which contains a premature termination codon within the N-terminal domain of the peptide. Because the mutant null allele could not be identified on cDNA sequencing, we determined by polymerase chain reaction the exon-intron organization of the desmoplakin gene to facilitate analysis of genomic DNA. The gene spans approximately 45kb of chromosome 6 and comprises 24 exons ranging in size from 51bp to 3922bp. We have also characterized fully the 3′UTR of the desmoplakin cDNA. This study demonstrates the relevance of haploinsufficiency for desmoplakin in the pathogenesis of this genodermatosis. Assess- ment of family members bearing the mutant allele also emphasizes the significance of an individual’s age and exposure to skin trauma in manifesting full phenotypic expression of the disorder.
The striate form of palmoplantar keratoderma is a rare autosomal dominant disorder affecting palm and sole skin. Genetic heterogeneity of striate palmoplantar keratoderma has been demonstrated with ...pathogenic mutations in the desmosomal proteins desmoplakin and desmoglein 1. We have studied a four-generation family of British descent with striate palmoplantar keratoderma. Ultrastructural studies show that intermediate filaments of suprabasal keratinocytes are finer than those of the basal layer. In addition, desmosome numbers are normal, but their inner plaques and midline structures are attenuated. Microsatellite markers were used to screen candidate loci including the epidermal differentiation complex on 1q, the desmoplakin locus on 6p, the type I and II keratin gene clusters on chromosomes 12q and 17q, and the desmosomal cadherin gene cluster on chromosome 18q. Significant genetic linkage to chromosome 12q was observed using marker D12S368, with a maximum two-point lod score of 3.496 at a recombination fraction of 0. Direct sequencing of the keratin 1 gene revealed a frameshift mutation in exon 9 that leads to the partial loss of the glycine loop motif in the V2 domain and the gain of a novel 70 amino acid peptide. Using expression studies we show that the V2 domain is essential for normal function of keratin intermediate filaments.
Desmogleins (Dsgs), cadherin-type cell adhesion molecules, are targeted in skin-blistering diseases such as pemphigus and staphylococcal scalded skin syndrome (SSSS). The role of Dsg4, a new isoform, ...was investigated in these diseases. Dsg4 was recognized by 30 (77%) of 39 pemphigus sera containing anti-Dsg1 IgG but not by 16 pemphigus sera containing no anti-Dsg1 IgG or by 34 normal control sera. The Dsg4 immunoreactivity of these sera was abolished by removal of anti-Dsg1 IgG. Conversely, the removal of anti-Dsg4 IgG from pemphigus sera reduced the immunoreactivity against Dsg1 only 13.8% ± 8.8% (
n
= 23) and did not affect its ability to induce blisters in neonatal mice. IgG that was affinity-purified on Dsg4 recognized Dsg1 but failed to induce blisters, while IgG purified on Dsg1 from the same pemphigus foliaceus sera induced blisters. Thus, pemphigus sera show Dsg4 reactivity due to cross-reactivity of a subset of anti-Dsg1 IgG, and the Dsg4/Dsg1–cross-reacting IgG has no demonstrable pathogenic effect. In addition, Dsg4 was not cleaved by exfoliative toxins that induce blisters in SSSS. These findings suggest that Dsg4 may play a role other than adhesion and that the cross-reactivity of desmoglein autoantibodies should be factored into the framework of future studies of autoimmune mechanisms in pemphigus.
Ectodermal dysplasia/skin fragility syndrome is a recently described autosomal recessive disease affecting skin, nails, and hair (MIM 604536), that results from mutations in plakophilin 1, a ...structural component of desmosomes. We report a new plakophilin 1 mutation in an affected patient as well as detailing the intron–exon organization of the gene to facilitate future polymerase chain reaction-based mutation screening. Using polymerase chain reaction amplification of genomic DNA, we identified 15 exons spanning approximately 50 kb. Direct sequencing disclosed several nonpathogenic intragenic polymorphisms, as well as a homozygous splice site mutation (1233–2 A→T; GenBank Z73678) in a 17 y old affected male. The clinical features comprised skin erosions, dystrophic nails, sparse hair, and painful thickening and cracking of palms and soles. Skin biopsy showed negative immunolabeling with an anti-plakophilin 1 antibody and small desmosomes. These results expand the database of plakophilin 1 mutations and demonstrate the importance of this protein in the stabilization of desmosomal adhesion in terminally differentiating keratinocytes.
The constitutive desmosomal plaque protein desmoplakin plays a vital part in keratinocyte adhesion in linking the transmembranous desmosomal cadherins to the cytoplasmic keratin filament network. ...Recently, mutations in desmoplakin have been shown to underlie some cases of the autosomal dominant disorder, striate palmoplantar keratoderma, as well as an autosomal recessive condition characterized by dilated cardiomyopathy, woolly hair, and keratoderma. Here, we describe two unrelated individuals with a new autosomal recessive genodermatosis characterized by focal and diffuse palmoplantar keratoderma, hyperkeratotic plaques on the trunk and limbs, varying degrees of alopecia, but no apparent cardiac anomalies. Mutation screening of desmoplakin demonstrated compound heterozygosity for a non-sense/mis-sense combination of mutations in both cases, C809X/N287K and Q664X/R2366C, respectively. Heterozygous carriers of any of these mutations displayed no phenotypic abnormalities. Immunohistochemistry of skin biopsies from both affected individuals revealed that desmoplakin was not just located at the cell periphery but there was also cytoplasmic staining. In addition, electron microscopy demonstrated acantholysis throughout all layers of the skin, focal detachment of desmosomes into the intercellular spaces, and perinuclear condensation of the suprabasal keratin intermediate filament network. Clinicopathologic and mutational analyses therefore demonstrate that desmoplakin haploinsufficiency can be tolerated in some cases, but that in combination with a mis-sense mutation on the other allele, the consequences are a severe genodermatosis with specific clinical manifestations.
Defolliculated is a novel spontaneous mouse mutation that maps to chromosome 11 close to the type I keratin locus. Histology shows abnormal differentiation of the sebaceous gland, with the sebocytes ...producing little or no sebum and undergoing abnormal cornification. The hair follicles fail to regress during catagen leading to abnormally long follicles. In contrast the hair shafts are shorter than normal, suggesting altered differentiation or proliferation of matrix cells during anagen. The shafts emerge from the follicle with cornified material still attached. The dermis contains increased numbers of immune cells, including T cells (CD4-positive), macrophages, and mast cells, at all time points examined. Complete elimination of all pelage and tail follicles occurs after two to three hair cycles, apparently by necrosis. Defolliculated may be a useful model for determining further functions of the sebaceous gland, and for understanding the regulation of catagen and hair follicle immunology.