Recessive epidermolysis bullosa simplex associated with plectin mutations: infantile respiratory complications in two unrelated cases

Plectin is a 500 kDa protein involved in cytoskeleton-plasma membrane attachment with a wide tissue distribution including cutaneous and airway epithelia, muscle and neuronal tissue. Recently, mutations in the gene encoding plectin (PLEC1) have been implicated in the pathogenesis of an autosomal recessive variant of epidermolysis bullosa simplex in which cutaneous blistering starting in the neonatal period is associated with muscular dystrophy in later life. In this study, we report two unrelated patients, both of consanguineous parentage, who presented with cutaneous blistering and a hoarse cry from birth. Both experienced inspiratory stridor and respiratory distress, necessitating emergency tracheostomy in one case. Immunoreactivity to monoclonal antibodies against plectin was absent or markedly reduced in skin biopsies from both patients. Electron microscopy revealed a low intraepidermal plane of cleavage and hypoplastic hemidesmosomes with a reduced association with keratin intermediate filaments. Direct sequencing of PLEC1 in each case demonstrated two novel homozygous frameshift deletion mutations, 5069del19 and 5905del2, which both create downstream premature termination codons. Although currently neither patient has symptoms of muscle disease, the identification of mutations in PLEC1 may be predictive for the future development of muscular dystrophy. Recessive epidermolysis bullosa simplex resulting from abnormalities in plectin should be considered in the differential diagnosis blistering, hoarseness and stridor in infancy.

Mutations in the plakophilin 1 gene result in ectodermal dysplasia/skin fragility syndrome

Members of the armadillo protein gene family, which includes plakoglobin and beta-catenin, have important functions in cytoskeleton/cell membrane interactions. These proteins may act as linker molecules at adherens junctions and desmosomes at the plasma membrane; in addition, they may have pivotal roles in signal transduction pathways and significant effects on cell behaviour during development. Here, we describe the first human mutations in one of these dual function proteins, plakophilin 1 (band-6 protein; refs 8-10). The affected individual has a complete absence of immunostaining for plakophilin 1 in the skin and is a compound heterozygote for autosomal-recessively inherited premature termination codons of translation on both alleles of the plakophilin 1 gene (PKP1). Clinically, there are features of both cutaneous fragility and congenital ectodermal dysplasia affecting skin, hair and nails. There is no evidence of significant abnormalities in other epithelia or tissues. Desmosomes in the skin are small and poorly formed with widening of keratinocyte intercellular spaces and perturbed desmosome/keratin intermediate filament interactions. The molecular findings and clinical observations in this patient attest to the dual importance of plakophilin 1 in both cutaneous cell-call adhesion and epidermal morphogenesis.

Three-dimensional cultures of keratinocytes and an application to in vitro-amyloid production of cutaneous amyloidosis

Some three-dimensional culture models of the skin were reviewed including our systems using a collagen dermal substitute and a matrix dermal substitute. No obvious junctional structures, such as hemidesmosomes and the lamina densa, were formed between the basal keratinocytes and the dermal substitutes, when the cytoplasmic membrane of the basal keratinocytes directly faced the collagenous materials. On the other hand, when the cytoplasmic membrane of the basal keratinocytes faced the preformed basement membrane, the type IV collagen film, or the extracellular matrix gel, an organized interaction occurred between the basal keratinocytes and the dermal substitute through hemidesmosomes and a rudimentary lamina densa. Keratinocyte differentiation in the suprabasal layers seemed to be closely related to such a basal cell differentiation. Our preliminary examination of the experimental amyloid production by the epidermal sheet from the lesional skin of patients with primary localized cutaneous amyloidosis suggested that the basal cells in the transplanted lesional epidermis produced amyloid fibrils in our in vitro culture model. This is another use of the three-dimensional culture models of the skin in addition to the application of the systems to wound treatment.

Mutations in the hair cortex keratin hHb6 cause the inherited hair disease monilethrix

Pathogenic mutations in a large number of human epithelial keratins have been well characterized. However, analogous mutations in the hard alpha-keratins of hair and nail have not yet been described. Monilethrix is a rare autosomal dominant hair defect with variable expression. Hairs from affected individuals show a beaded structure of alternating elliptical nodes and constrictions (internodes). These internodes exhibit a high prospensity to weathering and fracture. Strong evidence that trichocyte keratin defects might underlie this hair disorder was provided by genetic linkage analyses that mapped this disease to the type-II keratin gene cluster on 12q13. All affected individuals from a four-generation British family with monilethrix, previously linked to the type-II keratin gene cluster, as well as three unrelated single monilethrix patients, exhibited a heterozygous point mutation in the gene for type-II hair cortex keratin hHb6, leading to lysine substitution of a highly conserved glutamic acid residue in the helix termination motif (Glu 410 Lys). In a three-generation French family with monilethrix of a milder and variable phenotype, we detected another heterozygous point mutation in the same glutamic acid codon of hHb6, which resulted in a conservative aspartic acid substitution (Glu 410 Asp). These mutations provide the first direct evidence for involvement of hair keratins in hair disease.

X-linked ichthyosis with hypogonadism: not always Kallmann's syndrome

We describe two males with congenital ichthyosis secondary to steroid sulphatase deficiency who also manifested delayed puberty with biochemical features of hypogonadotrophic hypogonadism. In the first patient a history of cryptorchidism and the clinical findings of anosmia, micropenis and bimanual synkinesis suggested a contiguous gene syndrome, comprising X-linked Kallmann's syndrome and X-linked ichthyosis. An X-Y chromosomal translocation involving the Xp22.3 locus was identified; deletions of the STS locus and of exons 10-14 of the KAL locus were subsequently demonstrated. The second patient was euosmic and, although the STS locus was deleted in association with a pericentric inversion involving Xp22.3, no deletions were detected at the KAL locus. Clinically, he was felt to have constitutionally delayed puberty rather than hypogonadotropic hypogonadism and this diagnosis was substantiated by his subsequent development.

Characterization of LHTric-1, a new monospecific monoclonal antibody to the trichocyte keratin Ha1

The hair follicle is a heterogeneous tissue involving differentiation of both hair forming (trichocyte) and non-hair forming (root sheath) cells; while there are many antibody markers available which can determine the distribution of 'soft' epithelial keratins, fewer have been described which are truly monospecific for hair specific 'hard' keratins. We employed the proven strategy of raising monoclonal antibodies to a short synthetic peptide from the carboxy-terminal sequence of mouse Ha1 and report here the successful production of a monospecific monoclonal antibody which we have called LHTric-1. We have characterized the antibody using immunostaining on rat and human tissues and by immunoblotting against an extract of human follicles. The antibody cross-reacted between rat and human tissue but did not stain formalin-fixed tissue. LHTric-1 localized very specifically to the pre-cortical region of the hair follicle in early anagen and to pre-cortical cells in the upper bulb in anagen. Telogen follicles did not react. LHTric-1 immunoreacted within tongue and nail, staining being restricted to the mid-line above the connective tissue core in tongue and to the suprabasal layers of the nail matrix. The antibody did not react with the fully keratinized hair or nail plate. Finally, in immunoblotting, LHTric-1 reacted with a single band of 44 kDa, suggesting that a single protein was recognized. We conclude that this antibody, by virtue of its known antigen sequence specificity, will be useful in research into the formation of hair and nail in normal and diseased states.

Epidermolytic acanthomas: clinical characteristics and immunohistochemical features

Epidermolytic hyperkeratosis in bullous congenital ichthyosiform erythroderma results from mutations in the K1 and K10 genes. Epidermolytic acanthomas are solitary or multiple lesions with microscopic features that are identical to those in bullous congenital ichthyosiform erythroderma. In this study, the clinical and epidemiologic characteristics of epidermolytic acanthomas were summarized, and the expression of keratins (using antibodies to K1, K6, K10, K14, K16, and K19) in five solitary epidermolytic acanthomas was determined using immunohistochemistry techniques. The intensity of staining for K1 and K10 was (a) less in the altered granular layer, as compared to the adjacent nonaltered granular layer of the lesional skin, and (b) less in the lesional skin as compared to the perilesional, histologically normal-appearing skin. Expression of K6 and K16 was noted not only in the basal layer and suprabasal layers of the lesions, but also in the corresponding layers of the adjacent normal skin. Staining for K14 was also observed in the basal layers and suprabasal layers of the lesional and adjacent normal epidermis; within the lesional and perilesional normal skin, the intensity of positive staining for K14 was greater in the basal layers than in the suprabasal layers of the epidermis. The specimens did not stain for K19. In conclusion, using immunohistochemistry techniques on solitary epidermolytic acanthomas, we were able to demonstrate (1) an abnormality in K1 and K10 expression in the lesional skin as compared to the adjacent, histologically normal-appearing skin and (b) the expression of hyperproliferative keratins not only with the lesional skin, but also in the perilesional normal skin. We hypothesize that the pathogenesis of epidermolytic hyperkeratosis in lesions of solitary epidermolytic acanthomas results from mutations in the K1 and K10 genes.

Connexin 26 mutations in hereditary non-syndromic sensorineural deafness

Severe deafness or hearing impairment is the most prevalent inherited sensory disorder, affecting about 1 in 1,000 children. Most deafness results from peripheral auditory defects that occur as a consequence of either conductive (outer or middle ear) or sensorineuronal (cochlea) abnormalities. Although a number of mutant genes have been identified that are responsible for syndromic (multiple phenotypic disease) deafness such as Waardenburg syndrome and Usher 1B syndrome, little is known about the genetic basis of non-syndromic (single phenotypic disease) deafness. Here we study a pedigree containing cases of autosomal dominant deafness and have identified a mutation in the gene encoding the gap-junction protein connexin 26 (Cx26) that segregates with the profound deafness in the family. Cx26 mutations resulting in premature stop codons were also found in three autosomal recessive non-syndromic sensorineuronal deafness pedigrees, genetically linked to chromosome 13q11-12 (DFNB1), where the Cx26 gene is localized. Immunohistochemical staining of human cochlear cells for Cx26 demonstrated high levels of expression. To our knowledge, this is the first non-syndromic sensorineural autosomal deafness susceptibility gene to be identified, which implicates Cx26 as an important component of the human cochlea.

Keratin expression in anal carcinoma: an immunohistochemical study

The keratin expression of 40 frozen tissue specimens of anal carcinoma was investigated using a panel of 17 monoclonal antibodies to 14 individual keratins. The tumours were divided into three histological subgroups showing pure squamous, squamous and basaloid, or squamous and glandular differentiation. A further assessment of the tumour grade was made. The overall profile was of expression of keratins 4, 13, 17, 18 and 19 across the majority of the tumours, with the minority expressing keratins 1 and 10, and keratin 7. Dedifferentiation was associated with loss of expression of keratinocyte keratins, particularly the cornification markers keratin 1 and 10, and K6 and 16 associated with keratinocyte hyperproliferation and differentiation. This correlated with acquisition of the simple epithelial keratins 7 and 8. Compared with the tumours as a whole, well differentiated squamous tumours (the most easily identifiable histological group) showed consistent positivity for keratins 6 and 16, expressed suprabasally, while simple keratins 18 and 19 were also found. Independent of grade, mixed tumours showed more widespread positivity for simple epithelial keratins 7, 8 and 18 and loss of expression of cornification keratins 1 and 10 and K6 and 16 compared with pure squamous tumours. The relatively limited keratin profile of pure squamous tumours, predominantly consisting of keratinocyte keratins, suggests that these malignancies are less likely to originate from the region of the anal canal where the keratin profile is heterogeneous, i.e. the anal transitional zone.

A hyaluronic acid membrane delivery system for cultured keratinocytes: clinical "take" rates in the porcine kerato-dermal model

The clinical take rates of cultured keratinocyte autografts are poor on a full-thickness wound unless a dermal bed is provided. Even under these circumstances two important problems are the time delay in growing autografts and the fragility of the grafts. A laser-perforated hyaluronic acid membrane delivery system allows grafting at early confluence without requiring dispase digestion to release grafts from their culture dishes. We designed this study to investigate the influence of this membrane on clinical take rates in an established porcine kerato-dermal grafting model. The study demonstrated a significant reduction in take as a result of halving the keratinocyte seeding density onto the membrane. The take rates, however, of grafts grown on the membrane at half or full conventional seeding density and transplanted to a dermal wound bed were comparable, if not better, than those of keratinocyte sheet grafts.

A novel human papillomavirus identified in epidermodysplasia verruciformis

Epidermodysplasia verruciformis (EV) is a rare inherited condition in which there is widespread infection with human papillomavirus (HPV). Patients have a high risk of developing squamous cell carcinoma and Bowen's disease on sun-exposed sites. We describe a Jamaican man with the typical clinical and histopathological features of EV.HPV 8, 24 and a subtype of HPV 38, along with a novel HPV sequence most closely related to HPV 9 have been detected in his skin lesions. Although skin tumours are rare in black patients with EV and he has lived in a temperate climate most of his life, several of the lesions showed bowenoid atypia and he is at risk of developing invasive cutaneous malignancies.

Missense mutations in keratin 17 cause either pachyonychia congenita type 2 or a phenotype resembling steatocystoma multiplex

Pachyonychia congenita (PC) is a group of autosomal dominant ectodermal dysplasias in which the main phenotypic characteristic is hypertrophic nail dystrophy. In the Jackson-Lawler form (PC-2), pachyonychia is accompanied by multiple pilosebaceous cysts, natal teeth, and hair abnormalities. By direct sequencing of genomic PCR products, we report heterozygous K17 missense mutations in the same conserved protein motif in a further five PC-2 families (K17 N92S in one familial and three sporadic cases; K17 Y98D in one familial case) confirming that mutations in this gene are a common cause of PC-2. We also show heterozygous missense mutations in K17 (N92H and R94H) in two families diagnosed as steatocystoma multiplex. Mild nail defects were observed in some but not all of these patients on clinical re-evaluation of these families. All the K17 mutations reported here were shown to co-segregate with the disease in the pedigrees analyzed and were excluded from 100 unaffected, unrelated chromosomes by restriction enzyme analysis of K17 genomic PCR products. We conclude that phenotypic variation is observed with K17 mutations, as is the case with other keratin disorders.

Oral tylosis: a re-appraisal

The oral lesions in patients with tylosis (palmoplantar keratoderma) associated with oesophageal cancer, are evaluated, based on their clinical presentation, histological features and long term follow-up. The terminology of these lesions is discussed, together with a proposed reclassification of some forms of palmoplantar keratoderma.

Plectin deficiency results in muscular dystrophy with epidermolysis bullosa

We report that mutation in the gene for plectin, a cytoskeleton-membrane anchorage protein, is a cause of autosomal recessive muscular dystrophy associated with skin blistering (epidermolysis bullosa simplex). The evidence comes from absence of plectin by antibody staining in affected individuals from four families, supportive genetic analysis (localization of the human plectin gene to chromosome 8q24.13-qter and evidence for disease segregation with markers in this region) and finally the identification of a homozygous frameshift mutation detected in plectin cDNA. Absence of the large multifunctional cytoskeleton protein plectin can simultaneously account for structural failure in both muscle and skin.

Loss of plectin causes epidermolysis bullosa with muscular dystrophy: cDNA cloning and genomic organization

Plectin is a widely expressed high molecular weight protein that is involved in cytoskeleton-membrane attachment in epithelial cells, muscle, and other tissues. The human autosomal recessive disorder epidermolysis bullosa with muscular dystrophy (MD-EBS) shows epidermal blister formation at the level of the hemidesmosome and is associated with a myopathy of unknown etiology. Here, plectin was found to be absent in skin and cultured keratinocytes from an MD-EBS patient by immunofluorescence and immunoprecipitation, suggesting that plectin is a candidate gene/protein system for MD-EBS mutation. The 14800-bp human plectin cDNA was cloned and sequenced. The predicted 518-kD polypeptide has homology to the actin-binding domain of the dystrophin family at the amino terminus, a central rod domain, and homology to the intermediate filament-associated protein desmoplakin at the carboxyl terminus. The corresponding human gene (PLEC1), consisting of 33 exons spanning >26 kb of genomic DNA was cloned, sequenced, and mapped to chromosomal band 8q24. Homozygosity by descent was observed in the consanguineous MD-EBS family with intragenic plectin polymorphisms. Direct sequencing of PCR-amplified plectin cDNA from the patient's keratinocytes revealed a homozygous 8-bp deletion in exon 32 causing a frameshift and a premature termination codon 42 bp downstream. The clinically unaffected parents of the proband were found to be heterozygous carriers of the mutation. These results establish the molecular basis of MD-EBS in this family and clearly demonstrate the important structural role for plectin in cytoskeleton-membrane adherence in both skin and muscle.

Human papillomavirus infections in nonmelanoma skin cancers from renal transplant recipients and nonimmunosuppressed patients

BACKGROUND

Nonmelanoma carcinomas of the skin represent the most frequent cancers among the Caucasian population worldwide. They occur with high frequency in renal allograft recipient patients after prolonged immunosuppression.

PURPOSE

We analyzed tumors obtained from both immunosuppressed and nonimmunosuppressed patients for human papillomavirus (HPV) DNA.

METHODS

Twenty-nine specimens of nonmelanoma carcinomas of the skin were obtained from 19 renal allograft recipient patients; these included 20 specimens of squamous cell carcinoma (SCC) from 11 patients, five specimens of basal cell carcinoma (BCC) from four patients, and four specimens of carcinoma in situ (CIS) from four patients. Forty-one specimens of nonmelanoma carcinomas of the skin were obtained from 32 nonimmunosuppressed patients; these included 26 SCC specimens from 19 patients, 11 BCC specimens from nine patients, and four keratoacanthoma (benign epithelial tumor) specimens from four patients. A polymerase chain reaction method involving use of degenerate oligonucleotide primers, in which the conserved region of the open reading frame of the HPV L1 (major capsid protein) gene is amplified, was used to amplify total cellular DNA purified from individual tumors. The DNA of each specimen was subjected to 16 different amplification reactions; different primer combinations were used in order to increase the sensitivity and specificity of HPV detection. Resulting products were probed with a radioactively labeled, degenerate oligonucleotide. HPV-specific DNA was either sequenced directly after elution from the gel or amplified with semi-nested, degenerate primers, after which the products were cloned and sequenced. Sequences were compared with all known papillomavirus sequences.

RESULTS

Thirteen (65%) of the 20 SCC specimens and three of the five BCC specimens from immunosuppressed (renal allograft recipient) patients contained identifiable HPV-related sequences, among them 13 putative novel HPV genomes. In addition, all other malignant tumor specimens from this patient group revealed faint signals upon amplification and hybridization; the origin of these signals has not been identified in the present study. In nonimmunosuppressed patients, eight (31%) of 26 SCC specimens and four (36%) of 11 BCC specimens contained sequences of HPV types. Two putative novel HPV sequences could be identified in this group. Faint signals of yet undetermined origin were observed in eight of the SCC specimens and in two of the BCC specimens. Two of four keratoacanthoma specimens contained sequences of known HPV type. (Keratoacanthoma is a nonmalignant lesion for which the natural history has not been defined.) The spectrum of HPV types in both groups of patients differed substantially.

CONCLUSIONS

These data point to the frequent presence of HPV sequences in SCCs and BCCs of the skin. The etiologic relationship of these infections to the respective malignant tumors remains to be evaluated.

IMPLICATIONS

The presence of HPV DNA in a large percentage of specimens of nonmelanoma carcinomas of the skin from immunosuppressed patients, as well as from nonimmmunosuppressed patients, renders a papillomavirus infection as a possible factor in the etiology of this disease.

Linkage of an American pedigree with palmoplantar keratoderma and malignancy (palmoplantar ectodermal dysplasia type III) to 17q24. Literature survey and proposed updated classification of the keratodermas

OBJECTIVES

To determine linkage in a pedigree with palmoplantar keratoderma (PPK) associated with squamous cell carcinoma of the esophagus.

DESIGN

A large American pedigree was studied and the clinical phenotype was described. Linkage analysis was performed using genomic DNA from key individuals.

SETTING

A community-based family study.

PATIENTS

The family pedigree was expanded from a single index case.

MAIN OUTCOME MEASURES

To demonstrate linkage and the relative risk of squamous cell carcinoma of the esophagus in this pedigree.

RESULTS

Focal PPK was inherited as an autosomal dominant with variable expression, but signs were not limited to the palmoplantar epidermis. The generalized nature of this pattern of PPK was highlighted by the perifollicular papules and oral hyperkeratosis. Affected individuals (125 individuals) in 7 generations were identified, with 17 affected individuals having associated cancer. Seven of the 8 squamous cell carcinomas of the esophagus occurred in smokers. Other tumors were seen in nonsmokers, but these were not significantly increased. The combined male-female expected incidence of squamous cell carcinoma of the mouth and esophagus was 0.21; observed, 8 (relative risk of 38; P < .001). Linkage to the tylosis and esophageal cancer gene locus on 17q24 was demonstrated with a maximum 2-point lod score of 8.20 at zero recombination fraction for the DNA marker D17S1603.

CONCLUSION

The distinctive clinical phenotype in this family suggests a new classification for PPKs, in particular a reappraisal of the phenotype as a focal PPK. A very similar phenotype is found in patients with keratin K16 gene mutations.

Close mapping of the focal non-epidermolytic palmoplantar keratoderma (PPK) locus associated with oesophageal cancer (TOC)

Focal non-epidermolytic palmoplantar keratoderma (PPK or palmoplantar ectodermal dysplasia type III) is associated with oesophageal cancer in three families: two large pedigrees located in Liverpool, UK and in the midwestern American states and one smaller family from Germany. In these families, the PPK is inherited as autosomal dominant and has a late onset, usually manifesting between 7 and 8 years of age. The disease is characterised by thickening of the pressure areas of the soles, but is not restricted to the feet and also presents with oral leukokeratosis and follicular hyperkeratosis. The disease locus [previously termed the "tylosis oesophageal cancer gene' (TOC) locus] has been mapped to 17q23-qter by linkage analysis. This region is located telomeric to the keratin 16 gene, in which mutations have been identified in focal PPK families who show no increased cancer risk. We describe the close mapping of this locus to the interval between AFMb054zf9 and D17S1603 using haplotype analysis of additional Généthon markers in the region and show that although the American family is unlikely to be related to either of the other two, the UK and German pedigrees may share a common descent. This work provides a basis for positional cloning and candidate gene analysis in order to identify a gene that may be involved in familial oesophageal cancer.

Punctate palmoplantar keratoderma and malignancy in a four-generation family

We report a large kindred in which a punctate palmoplantar keratoderma (PPK) is associated with malignancy, including Hodgkin's disease, renal, breast, pancreatic and colonic adenocarcinomas. The family was traced through four generations, and over 320 individuals were identified, of whom 49 had punctate PPK. The punctate PPK appeared to be inherited as an autosomal dominant trait with variable penetrance. Ten of the 43 adults (23%) with punctate PPK developed malignancies, and five of these developed before the age of 50. Of the 271 unaffected individuals, six (2%) have developed malignancies, one prior to the age of 50. The association of keratoderma and malignancy is discussed.

Linkage of monilethrix to the trichocyte and epithelial keratin gene cluster on 12q11-q13

Monilethrix is characterized by beaded or moniliform hair, which results from the periodic thinning of the hair shaft. The beaded hair thus produced is subject to excess weathering and premature fracturing at the internodes. Clinically, monilethrix presents with short, fragile, broken hair. The follicular abnormalities range from subtle perifollicular abnormalities range from subtle perifollicular erythema and hyperkeratosis to horny follicular papule formation. At the ultrastructural level, cytolysis and keratin tonofilament clumping (epidermolysis) are seen in the cortical cells of the bulb of the hair follicle. Microsatellite markers flanking the keratin gene clusters at 17q12-q21 and 12q11-q13 were used to perform linkage analysis in a monilethrix pedigree. This study demonstrates linkage of monilethrix in a pedigree to microsatellite DNA loci mapping to the region on chromosome 12 containing the type II keratin cluster. A major group of structural hair proteins, the basic type II trichocyte keratins, map within this epithelial cytokeratin gene cluster. This study implicates a mutation in a trichocyte keratin gene in the pathogenesis of a structural hair disorder.

The region coding for the helix termination motif and the adjacent intron 6 of the human type I hair keratin gene hHa2 contains three natural, closely spaced polymorphic sites

Mutations in distinct sites of epidermal keratins, in particular in the helix initiation and termination regions, cause human genodermatoses due to faulty intermediate filament formation. Extension of this observation to human hereditary hair and nail diseases includes population analyses of human hair keratin genes for natural sequence variations in the corresponding sites. Here we report on a large-scale genotyping of the short helix termination region (HTR) of the human type I cortical hair keratins hHa1, a3-I, and a3-II, and the cuticular hair keratin hHa2. We describe two polymorphic loci, P1 and P2, exclusively in the cuticular hHa2 gene, both creating dimorphic protein variants. P1 is due to a C to T mutation in a CpG element leading to a threonine to methionine substitution; P2 concerns a serine codon AGT that also occurs as an asparagine coding variant AAC. A third polymorphism, P3, is linked with a C to T point mutation located at the very beginning of intron 6. The three polymorphic sites are clustered in a 39-nucleotide sequence of the hHa2 gene. Both allelic frequency calculations in individuals of different races and pedigree studies indicate that the two-allelic hHa2 variants resulting from P1 and P2 occur ubiquitously in a ratio of about 1:1 (P1) and 2:1 (P2) respectively in our survey, and are clearly inherited as Mendelian traits. A genotype carrying both mutations simultaneously on one allele could not be detected in our sampling, and there was no association of a distinct allelic hHa2 variant with the known ethnic form variations of hairs. Sequence comparisons of the HTR of hHa2 with those of other type I hair keratins including the hHa2-ortholog from chimpanzee provide evidence that the P1- and P2-linked mutations must have occurred very early in human evolution and that the two P2-associated codon variants may be the result of two independent point mutations in an ancestral AGC serine codon. These data describe natural polymorphisms in the HTR of a member of the keratin multigene family.

Oral psoriasis

We present a patient with oral lesions consistent with a diagnosis of oral psoriasis and discuss the relationship of oral and skin lesions in psoriasis.

Keratin expression in pilosebaceous epithelia in truncal skin of acne patients

This study compared the pattern of keratin expression in pilosebaceous follicles in uninvolved trunk skin of acne patients, comedones, and normal control skin by immunohistochemistry, using both immunofluorescent (IF) and immunoperoxidase (IP) techniques. The shape, size and gross morphology of truncal follicles varied greatly. There was no difference in keratin expression between normal skin and uninvolved skin of patients with acne. The upper part of the pilosebaceous duct expressed keratins K1, K5, K10 and K14, whereas the lower duct expressed keratins K5, K6, K14, K16, K17 and K19. The sebaceous gland showed considerable heterogeneity in keratin expression, with some lobules expressing keratins K1, K5, K7, K10, K14 and K17. The comedone wall showed a pattern of keratin expression similar to that of the upper follicle, except that there was, in addition, expression of keratins K6 and K16 suprabasally, and panepithelial expression of K17 in the comedone wall. IF techniques were found to be less sensitive than the IP method in the detection of individual keratins, but the use of multiple antibodies and many different transverse and longitudinal sections of follicles permitted full conclusions to be made. The increased expression of keratins K6, K16 and K17 in the comedone wall is likely to represent a secondary effect of increased cell turnover due to the primary underlying mechanism of comedogenesis, which is as yet unknown.