The ichthyoses--pathogenesis and prenatal diagnosis: a review of recent advances

Loss-of-function mutations in CST6 cause dry skin, desquamation and abnormal keratosis without hypotrichosis

Cystatin M/E (encoded by the CST6 gene) is a cysteine protease inhibitor, that exerts regulatory and protective effects against uncontrolled proteolysis mainly by directly regulating cathepsin V, cathepsin L, and legumain activities. Previous studies have suggested that CST6 may exert a regulatory role in epidermal differentiation and hair follicle formation by inhibiting the activity of respective cognate target proteases. However, until recently, studies have revealed that loss- or gain-of-function of the CST6 gene causes dry skin with hypotrichosis in humans. Here, we reported two siblings of Chinese origin with dry skin, desquamation and abnormal keratosis without hypotrichosis. By applying whole-exome sequencing, we identified homozygous loss-of-function mutation c.251G > A (p.Gly84Asp) in the CST6 gene as the underlying genetic cause. Further fluorimetric enzyme assays demonstrated the mutant cystatin M/E protein lost its inhibitory function on the protease activity of cathepsins. Moreover, the corresponding mutation in mice resulted in excessive cornification, desquamation, impaired skin barrier function, and abnormal proliferation and differentiation of keratinocytes. In conclusion, the homozygous missense mutation c.251G > A in CST6 gene resulted in dry skin, desquamation, as well as abnormal keratosis of the skin, promoting our understanding of the role of protease-antiprotease balance in human skin disorders.

Epidermolytic hyperkeratosis: clinical update

Epidermolytic hyperkeratosis (EHK), earlier termed as bullous congenital ichthyosiform erythroderma is a skin disorder characterized as an autosomal dominant and rare disorder which has been observed to affect 1 in over 200,000 infants as a consequence of a significant mutation in the genes responsible for the keratin proteins, mostly keratin 1 and 10. The features present at birth include erythema and blistering. In adults, the hallmarks include hyperkeratosis, erosions, and blisters. The major symptoms including xerosis, pruritus, and painful fissuring lead not only to cosmetic problems but also stress, inferiority complex and other psychological conditions. While clinical inspection followed by confirmatory tests including histopathology and electron microscopic assessment is used for diagnosis, treatment modalities can be further improved for better diagnosis. This article reviews subtypes of ichthyosis, with a focus on EHK, genetics behind the disease, recently reported mutations, the existing diagnostics and treatments for the same and potential of new modalities in diagnosis/treatment.

Development of the stratum corneum

In 2015, Professor Ronald (Ronnie) Marks will celebrate his 80th birthday and the 35th year since assuming the Chair of Dermatology at the University of Wales College of Medicine in Cardiff, Wales. Ronnie's long and prolific career is well deserving of a celebratory Festschrift. Among his many accomplishments, Marks was an early champion of quantitative measurements and the application of bioengineering methods to clinical skin science, with particular focus on stratum corneum biology and the measurement of skin appearance. Appealing to Ronnie's wry sense of humour, I would characterize his career in the words of the native Welshman, Dylan Thomas, who published an unfinished novel in 1955 entitled Adventures in the Skin Trade. Ronnie Marks has been a quintessential and imaginative adventurer in the 'skin trade', and he continues to forge new trails for others to follow. The areas highlighted below are emblematic of Ronnie's varied research interests and his impact on stimulating experimental questions for me and future investigators of epidermal differentiation and stratum corneum development.

Revised nomenclature and classification of inherited ichthyoses: results of the First Ichthyosis Consensus Conference in Sorèze 2009

BACKGROUND

Inherited ichthyoses belong to a large, clinically and etiologically heterogeneous group of mendelian disorders of cornification, typically involving the entire integument. Over the recent years, much progress has been made defining their molecular causes. However, there is no internationally accepted classification and terminology.

OBJECTIVE

We sought to establish a consensus for the nomenclature and classification of inherited ichthyoses.

METHODS

The classification project started at the First World Conference on Ichthyosis in 2007. A large international network of expert clinicians, skin pathologists, and geneticists entertained an interactive dialogue over 2 years, eventually leading to the First Ichthyosis Consensus Conference held in Sorèze, France, on January 23 and 24, 2009, where subcommittees on different issues proposed terminology that was debated until consensus was reached.

RESULTS

It was agreed that currently the nosology should remain clinically based. "Syndromic" versus "nonsyndromic" forms provide a useful major subdivision. Several clinical terms and controversial disease names have been redefined: eg, the group caused by keratin mutations is referred to by the umbrella term, "keratinopathic ichthyosis"-under which are included epidermolytic ichthyosis, superficial epidermolytic ichthyosis, and ichthyosis Curth-Macklin. "Autosomal recessive congenital ichthyosis" is proposed as an umbrella term for the harlequin ichthyosis, lamellar ichthyosis, and the congenital ichthyosiform erythroderma group.

LIMITATIONS

As more becomes known about these diseases in the future, modifications will be needed.

CONCLUSION

We have achieved an international consensus for the classification of inherited ichthyosis that should be useful for all clinicians and can serve as reference point for future research.

Improved procedure for the separation of major stratum corneum lipids by means of automated multiple development thin-layer chromatography

The separation of the major stratum corneum lipids, i.e., ceramides, fatty acids, cholesterol and its esters by means of high-performance thin-layer chromatography is hereby presented. The used automated multiple development technique allows the reproducible development of a 17-step solvent gradient also capable of separating seven ceramide classes in the same run. Reliable quantification has been performed after visualisation and densitometric scanning. The present approach is less time and solvent-consuming than previously described procedures. The application to samples obtained by in vivo skin surface extraction with hexane-ethanol (2:1) demonstrates that the method can be routinely used for diagnostic purposes.

Non-bullous congenital ichthyosiform erythroderma, with ocular albinism and Noonan syndrome

A 21-year-old woman presented with non-bullous congenital ichthyosiform erythroderma; she was born a collodion baby. Associated features were ocular albinism, anterior segment dysgenesis of both eyes and Noonan syndrome. X-linked ichthyosis (steroid sulphatase deficiency) and X-linked ocular albinism have been mapped to the Xp22.3 region and cases have been reported with both conditions due to a partial short-arm deletion of the X chromosome. The ichthyosis and ocular albinism in the present case, however, are likely to be of the autosomal recessive type - a very rare association - and the combination with Noonan syndrome has not been reported previously.

Impaired cutaneous permeability barrier function, skin hydration, and sphingomyelinase activity in keratin 10 deficient mice

Point mutations in the suprabasal cytokeratins 1 (K1) or 10 (K10) in humans have been shown to be the cause of the congenital ichthyosis epidermolytic hyperkeratosis. Recently, a K10 deficient mouse model was established serving as a model for epidermolytic hyperkeratosis. Homozygotes suffered from severe skin fragility and died shortly after birth. Heterozygotes developed hyperkeratosis with age. To see whether phenotypic abnormalities in the mouse model were associated with changes in skin barrier function and skin water content we studied basal transepidermal water loss and capacity for barrier repair after experimental barrier disruption as well as stratum corneum hydration. Also, we determined the activities of acid and neutral sphingomyelinase key enzymes of the tumor necrosis factor and interleukin-1 signal transduction pathways generating the ceramides most important for epidermal permeability barrier homeostasis. Neonatal homozygotes showed an 8-fold increase in basal transepidermal water loss compared with wild type controls. Adult heterozygotes exhibited delayed barrier repair after experimental barrier disruption. Stratum corneum hydration was reduced in homozygous and heterozygous mice. Acid sphingomyelinase activity, which is localized in the epidermal lamellar bodies and generates ceramides for extracellular lipid lamellae in the stratum corneum permeability barrier, was reduced in homozygous as well as heterozygous animals. Neutral sphingomyelinase activity, which has a different location and generates ceramides involved in cell signaling, was increased. The reduction in acid sphingomyelinase activity may explain the recently described decreased ratio of ceramides to total lipids in K10 deficient mice. In summary, our results demonstrate the crucial role of the keratin filament for permeability barrier function and stratum corneum hydration.

Effect of a supplementary dietary evening primrose oil mixture on hoof growth, hoof growth rate and hoof lipid fractions in horses: a controlled and blinded trial

The lipid chemistry of the normal equine hoof, together with the effect of oral supplementation with an evening primrose oil mixture (EPOM) on its growth, growth rate and lipid content was assessed in a controlled and blinded feeding trial at the Defence Animal Centre. Twelve horses were paired as closely as possible according to sex, age, weight, height and colour and then one from each pair was randomly allocated to treatment or control groups. The treatment group received 30 ml of oral EPOM/day, otherwise the nutrition and management regimes were the same for all horses. No significant differences (P > 0.05) were seen between treatment and control groups for hoof horn growth or growth rate. However, there was a significant difference (P < 0.05) in hoof horn growth within the treatment group only between weeks 4 and 8 after the start of supplementation. The stratum medium contained significantly higher amounts of cholesterol ester (P < 0.05), triglycerides (P < 0.001) and free fatty acids (P < 0.05) than the periople. The periople contained significantly higher levels of free cholesterol and phospholipid (P < 0.001) than the stratum medium of the hoof wall. There were no significant differences (P > 0.05) between treatment and control groups for any of the lipid fractions measured for the stratum medium from the clippings of the hoof wall. However, there were differences in perioplic lipid analysis with significant increases (P < 0.05) in cholesterol esters and partial glycerides and a significant reduction (P < 0.001) in free cholesterol in the treatment group following supplementation.

Collodion baby and lamellar ichthyosis

It is important to differentiate the collodion baby from harlequin ichthyosis as the latter rarely survives past the first few days of life. Occasionally, babies share features of both disorders and defy a clinical diagnosis. We recently encountered such a baby who initially presented with harlequin-like features, but evolved into lamellar ichthyosis once the keratin cast was shed. Since the routine histology of all these ichthyoses is similar, we used electron microscopy to study serial biopsy specimens from the affected infant on days 7, 14, and 150, and compared them to our own other cases of harlequin ichthyosis and lamellar ichthyosis. Electron microscopic studies of our case revealed that the marginal band of cornified cells of the stratum corneum was absent when the baby exhibited collodion/harlequin ichthyosis features. Another biopsy taken when the clinical picture evolved into lamellar-like ichthyosis, showed a well-formed marginal band in the cornified cells. In harlequin ichthyosis, the marginal band is present at birth. It is suggested that electron microscopy can differentiate severe collodion baby from harlequin ichthyosis at birth using the absence of the marginal band. Previously reported features of harlequin ichthyosis, such as the presence of giant mitochondria and an abnormal formation of the marginal band in luminal villi of acrosyringeal eccrine duct, were absent in our case.

A case of recessive X-linked ichthyosis: scale-specific abnormalities of lipid composition may explain the pathogenesis of the skin manifestation

We analyzed the lipid content of the scales, red blood cells, and plasma from a recessive X-linked icthyosis patient. The patient's scales accumulated cholesterol sulfate, had decreased levels of free sterols, sterol esters and sphingolipids, and lacked phospholipids. Although the accumulation of cholesterol sulfate was found in the patient's red blood cells and plasma as well as in the scales, other lipid composition abnormalities were specific for scales. Such scale-specific abnormal lipid composition may explain the pathogenesis of generalized hyperkeratosis and abnormal scaling of the disease.

Inherited ichthyoses: a review of the histology of the skin

The histology of skin biopsies from 46 cases of different forms of congenital ichthyosis was reviewed. Sections were examined for hyperkeratosis, follicular keratosis, appearance of the granular layer, epidermal thickness, tonofilament clumps, epidermal vacuolation, spongiosis, bullae and dyskeratosis, appearance of the basal layer, inflammation, mitoses, and adnexae. A detailed description of the histological features of each type of ichtnyosis studied is presented. Some ichthyoses can be recognized on routine hematoxylin and eosin staining (bullous ichthyosiform erythroderma, Netherton's syndrome, and neutral lipid storage disease); some forms require frozen sections to demonstrate fat (neutral lipid storage disease) or enzyme activity (Sjögren-Larsson syndrome). Protein electrophoresis and enzymology are necessary for X-linked recessive ichthyosis. A close liaison with the clinicians is essential for the diagnosis of all types of ichthyosis, and combined studies including routine histopathology, electron microscopy, and frozen sections may be required for the diagnosis.

Clinical pathologic correlation of superficial corneal opacities in X-linked ichthyosis

X-linked ichthyosis is a relatively common oculodermal disorder. Characteristic corneal opacities are small punctate or filiform lesions and are located in the deep corneal stroma. In an unusual case, a 73-year-old man with X-linked ichthyosis and steroid sulfatase deficiency had superficial corneal opacities. The corneal opacities were granular in nature, involving the subepithelial and anterior stromal layers. The opacities resulted in irregular overlying corneal epithelium and were white-gray in color in direct illumination. Histopathologic and electron microscopic studies demonstrated abnormalities of the corneal epithelial basement membrane. The epithelial basement membrane was thickened with irregular extensions into Bowman's layers. Abnormal depositions of basement membrane protein were seen in the anterior stroma. These abnormalities may have resulted from increased production of basement membrane proteins by the corneal epithelium, resulting from hyperactive turnover of the basal layer.

Characteristic morphologic abnormality of harlequin ichthyosis detected in amniotic fluid cells

We have examined cells from amniotic fluid obtained at 17 and 21 weeks' gestation and fetal skin biopsy samples from a fetus at risk of harlequin ichthyosis by light and electron microscopy. Clumps of abnormally keratinized cells that had a large number of lipid droplets in the cytoplasm were seen within both the 17- and 21-week amniotic fluid cell pellets. The cells in these clumps were similar to the thick layers of keratinized cells observed in the skin biopsy and autopsy samples. Morphologic examination of the fetal skin biopsy samples obtained at 21 weeks gestation revealed the characteristic changes of harlequin ichthyosis. The intraepidermal portions of hair canals had an excessive number of layers of keratinized cells. Normal lamellar granules were absent but abundant membrane-bound vesicles of a similar size and a number of dense bodies were observed in the cells of the upper intermediate layers of the epidermis. Autopsy skin samples of the terminated fetus at the twenty-third week of gestation showed structural changes that corresponded to those of the amniotic fluid cells and the fetal skin biopsy samples, although the periderm was gone in all the regions. Our findings of amniotic fluid indicate that the characteristic epidermal abnormality of harlequin ichthyosis has been expressed at 17 weeks gestation in some parts of the body or structures of fetal skin (e.g., hair canals) that keratinize before interfollicular epidermis. Moreover, the results suggest that harlequin ichthyosis can be detected in utero by morphologic analysis of amniotic fluid cells obtained by amniocentesis.

Lipid modification during epidermal cell differentiation

As keratinocytes differentiate into corneocytes of the stratum corneum or epidermal permeability barrier, their lipids are modified so as to fulfill totally different functions. Recent experimentation has clarified the molecular mechanisms by which lipids of membrane origin are targeted to specialized lamellar bodies, where metabolic retailoring makes them suitable for use in the water-impermeable intercellular lamellae. In this latter structure the modified lipids are bound covalently to specialized proteins in a way that encourages the formation of lipid bilayers alternating with lipid monolayers. Only now are potential clues to the molecular regulation of this dramatic lipid transformation becoming apparent.

Abnormal lamellar granules in harlequin ichthyosis

Lamellar granules are specialized lipid-rich organelles present in epidermal granular cells. They fuse with the apical cell surface and discharge their contents into the intercellular space forming lamellar sheets. It was previously shown by electron microscopy that lamellar granules in biopsies of infants affected with harlequin ichthyosis are either absent or abnormal and no intercellular lamellae could be detected. A monoclonal antibody (AE17) directed against a protein component of lamellar granules was used for immunoblotting and immunohistochemical studies as an indication of both the presence and function of lamellar granules. Epidermal extracts from all harlequin and normal specimens tested showed an immunoreactive protein of 25-28 kD. Immunohistochemical staining of normal skin using AE17 showed apical cytoplasmic staining in the granular layer and intercellular staining between the granular and stratum corneum cells. Harlequin samples showed variable degrees of staining ranging from little to heavy apical cytoplasmic staining of granular cells. No intercellular staining was detected. The immunohistochemical staining pattern correlated with the electron microscopic localization of abnormal vesicles and the absence of intercellular lamellae in the affected samples. We conclude that the vesicles represent lamellar granules that contain the AE17 antigen but are structurally abnormal and defective in their ability to discharge both their lipid and protein contents into the intercellular space. We suggest that this defect in the lamellar granules represents the underlying basis for stratum corneum cell retention and subsequent accumulation of scale in harlequin ichthyosis.

Keratohyalin granules are heterogeneous in ridged and non-ridged human skin: evidence from anti-filaggrin immunogold labelling of normal skin and skin of autosomal dominant ichthyosis vulgaris patients

Recent biochemical and morphological investigations have provided evidence for a heterogeneous composition of keratohyalin in human skin. A major component is filaggrin. In interfollicular epidermis the heterogeneity of keratohyalin is not directly visible, whereas in normal ridged skin bicomponent keratohyalin is revealed by electron microscopy. Skin biopsies of ridged and non-ridged skin of normal individuals and patients with autosomal dominant ichthyosis vulgaris (ADI)--characterized by defective keratohyalin synthesis and lack of filaggrin--were investigated by routine transmission electron microscopy and immunogold postembedding techniques using a commercial monoclonal anti-filaggrin antibody. In normal interfollicular epidermis filaggrin labelling was demonstrated on keratohyalin granules and in the lowermost cornified cells, whereas in ADI patients crumbly keratohyalin granules were present that did not show specific labelling for filaggrin. In normal ridged skin only the major (more electron-dense) component reacted with anti-filaggrin, whereas the attached (less electron-dense) component did not react. Ridged skin of ADI patients contained globular keratohyalin that did not react with anti-filaggrin, thus corresponding to the attached keratohyalin component in normal ridged skin. Our results provide a visible counterpart to the recent biochemical investigations of keratohyalin protein heterogeneity and contribute to the understanding of terminal differentiation in human skin and of the defective keratohyalin synthesis in ADI.

All about ichthyosis

From "alligator people" to "porcupine boys," the ichthyoses have been a distinctly recognizable entity for thousands of years. Recent improvements in biochemical and genetic research have allowed more scientific delineation of this class of diseases. This article covers the latest in pathophysiology, the major classes of ichthyoses, many of the newer minor ones, prenatal diagnosis, and treatment options.

The phenotypic heterogenicity of bullous ichthyosis--a case report of three family members

We present a family with an inherited disorder of cornification. The clinical features are much less severe and developed much later in life than is usual in bullous ichthyosis. Skin biopsy demonstrated epidermolytic hyperkeratosis, a feature typical of bullous ichthyosis. The family is reported both to highlight the wide interfamilial variation that may occur in this condition and the value of histology in classifying this form of ichthyosis.

Epidermal growth factor receptors in genetically induced hyperproliferative skin disorders

The presence and morphologic distribution of epidermal growth factor receptor (EGF-R) were investigated in a variety of genetic disorders that affect human epidermis. These diseases included various forms of ichthyoses as well as restrictive dermopathy and the CHILD syndrome (congenital hemidysplasia-ichthyosiform erythroderma-limb defects). The distribution of EGF-R was detected by immunohistochemical techniques. Increased staining of immunoreactive EGF-R was frequently, but not always, seen in lesions with experimental or clinical evidence of hyperproliferation, suggesting an increased potential to respond to endogenous levels of either transforming growth factor-alpha or EGF. The finding that EGF-R levels are not always increased in congenital epidermal disorders indicated that the presence of this receptor pathway is not simply a marker for aberrant epidermis.

Heterogeneity in harlequin ichthyosis, an inborn error of epidermal keratinization: variable morphology and structural protein expression and a defect in lamellar granules

Skin biopsies and scale samples from nine infants and one fetus affected with harlequin ichthyosis (HI) were obtained from eight families. Epidermal differentiation was examined by morphologic and biochemical criteria and cell culture studies. Two striking abnormalities were identified; first, keratin and filaggrin expression were abnormal and varied between cases, and, second, in all cases lamellar granules were absent or abnormal, and intercellular lamellae within the stratum corneum were absent. Three HI phenotypes were distinguished by variable expression of epidermal structural proteins. Cases were classified by the absence (type 1) or presence (types 2 and 3) of keratins K6 and K16 ("hyperproliferative" keratins) and by the presence of profilaggrin in the interfollicular epidermis (types 1 and 2 only). Profilaggrin is apparently not converted to filaggrin, but it is retained in the scale. The block in profilaggrin processing may be due to an inactive phosphatase. Siblings in two families (presenting with types 1 and 2) showed the same type classification suggesting that expression of the phenotype is consistent within families but differs between families. Cultured HI keratinocytes were normal by phase microscopy, but abnormal by electron microscopy with no lamellar granules and extensive stacking of the upper layers. We conclude that harlequin ichthyosis is a genetically heterogeneous group of disorders with altered lamellar granules, intercellular lipids, and variation in expression and/or processing of structural protein markers of normal epidermal keratinization. Furthermore, the lamellar granule and structural protein defects may be indirectly related via a mechanism involving phosphorylation/dephosphorylation.

Long-term survival of a harlequin fetus

Harlequin ichthyosis is a rare, severe form of congenital ichthyosis, which probably represents a heterogeneous group of disorders. Unfortunately very little is known regarding the pathogenesis, course, and prognosis of harlequin ichthyosis because most of these infants die within a few weeks of birth. A case of an 9-year-old girl that had been a harlequin fetus, with clinical and histologic features similar to nonbullous congenital ichthyosiform erythroderma, is described.

Ichthyosis. Reliability of clinical signs in the differentiation between autosomal dominant and sex-linked forms

The reliability of clinical signs to differentiate between autosomal dominant ichthyosis (ADI) or sex-linked ichthyosis (SLI) were assessed. SLI was defined as ichthyosis in combination with steroid sulphatase deficiency. Age of onset and format of the scales were found to be reliable signs to ascertain the diagnosis of ADI or SLI. The ADI-like appearance in histopathology seems to be of little diagnostic value.

Microanalytical screening of all major stratum corneum lipids by sequential high-performance thin-layer chromatography

For rapid and sensitive screening of lipid biochemical abnormalities of scaling skin disorders a sequential, one-dimensional high-performance thin-layer chromatographic method (HPTLC) has been developed. All major human stratum corneum lipid classes, i.e., cholesterol sulfate, glucosylceramides, six major ceramide fractions, free sterols, free fatty acids, triglycerides, sterol esters, squalene, and n-alkanes, are separated and quantitated after a stepwise development of a single silica gel 60 HPTLC-plate using three consecutive solvent systems. Reproducible results have been obtained by degradative charring as well as fluorescence detection. By fluorescence detection the method is particularly suitable for the determination of minor amounts of cholesterol sulfate and other sterols.

Autosomal dominant lamellar ichthyosis exhibits an abnormal scale lipid pattern

Autosomal dominant lamellar ichthyosis (ADLI) is a recently recognized genetic skin disorder. Clinically and histologically, it cannot be distinguished with certainty from the more frequent autosomal recessive lamellar ichthyosis (ARLI), which in itself may still be heterogeneous. By ultrastructural examination of ADLI a prominent transforming zone between the stratum granulosum and stratum corneum and lipid inclusions in the stratum corneum have been observed. Using sequential high-performance thin-layer chromatography, we studied the plantar scale lipid pattern of two patients, mother and daughter, affected with ADLI. We found a distinctive alteration in the relative composition of the scale lipid pattern characterized by excessive amounts of free fatty acids, triglycerides, elevated n-alkanes, reduced free sterols and decreased total ceramides. This scale lipid profile clearly differs from that of the erythrodermic and non-erythematous variants of ARLI and confirms that this disorder is a distinct entity of the heterogeneous group of lamellar ichthyoses.

Gene diagnosis in X-linked ichthyosis

Three families segregating for X-linked ichthyosis (XLI) were analysed using the full-length STS cDNA probe and an anonymous polymorphic DNA sequence closely linked to the STS gene. In patients from two of the families, submicroscopic chromosomal deletions could be detected using both the STS and the GMGX9 (DXS237 locus) probes. Patients in the third family showed the same hybridization pattern as healthy males following molecular hybridization with either of the probes. The results of DNA analysis (indirect genotype diagnosis) agree well with those based on the arysulfatase C/beta-gal determination and prove the reliability of the biochemical test. Both methods are discussed for carrier detection, prenatal diagnosis, and genetic counseling.

The expression of congenital ichthyosiform erythroderma in second trimester fetuses of the same family: morphologic and biochemical studies

The first born offspring of first-cousin parents was affected with a keratinization disorder thought to be nonbullous congenital ichthyosiform erythroderma (CIE). In each of three subsequent pregnancies, the parents elected to have prenatal diagnosis based on evaluation of fetal skin biopsies. The epidermis of fetus 1 was identical to normal 21-wk estimated gestation age (EGA) fetal epidermis, but because keratinization begins normally around 24 wk EGA, the procedure was repeated 4 wk later. A thin epidermis with a few layers of stratum corneum indicated a normal fetus and a healthy infant was born at term. Skin biopsy samples from fetus 2 gave conflicting results; the epidermis of one sample appeared normal but the second had 5-15 layers of incompletely keratinized cells superficial to basal and intermediate layers. The hair canals of both samples were hyperkeratotic. Pelleted amniotic fluid cells contained aggregates of incompletely keratinized epidermal cells and concentric rings of keratinized cells. The fetus was thought to be affected and the pregnancy terminated. Regional variation in epidermal thickness and keratinization was noted upon gross examination of the fetus and by histology of the skin. Marked hyperkeratinization of follicles was evident in all regions. No abnormal keratins were expressed in the affected epidermis but epidermal lipids analyzed from two body regions had a lower triglyceride content and a higher content of free sterols compared with age-matched, normal fetal epidermis. Immunolabeling for markers of differentiation revealed variable stages of epidermal differentiation according to region. Four structurally identical biopsy samples were obtained from a third fetus. The epidermis appeared normal for age and hair canals were keratinized to various extents. The pregnancy was continued and at 33 wk a male infant was born with a severe ichthyosis of the face and scalp and fine, white scaling on the body. The epidermis of both the severely and mildly affected regions of the newborn had a thick, compact stratum corneum and other features of CIE. Scars from all four fetal biopsies were identified on the trunk, in areas which appeared less affected clinically. This study reports, for the first time, the criteria for prenatal diagnosis of CIE and the variable expression of this disorder in the midtrimester fetus. More importantly, it demonstrates the risks and pitfalls of this in utero diagnosis based on epidermal morphology.

Ichthyosis congenita type III. Clinical and ultrastructural characteristics and distinction within the heterogeneous ichthyosis congenita group

We describe one type of the heterogeneous ichthyosis congenita group, inherited autosomal-recessively, noting its clinical and ultrastructural features based on the findings in a female patient, aged 30 at the time of first clinical and ultrastructural investigation, and supplemented with those of eight further patients, aged 2 to 22 years. Clinically this keratinization disorder was characterized by a generalized congenital ichthyosis with a reticulate skin pattern pronounced in a variable degree of severity, also involving the large flexures and the face, palms, and soles. Typical ultrastructural criteria were membrane structures, abnormal vesicular keratinosomes, vesicular complexes, and membrane-bound vacuoles within the cytoplasm of the granular cells, partly retained in the horny layer. A successful therapy with retinoids resulted in a complete removal of the hyperkeratoses but left the striking skin pattern unchanged. The morphological peculiarities remained unaltered as well. They are independent of the localization of the biopsies, of age and sex of the patients, and of oral and local treatment. Based on the clinical and ultrastructural features, this scaling disorder can be delineated against all other inherited ichthyoses and was termed ichthyosis congenita type III. A new nomenclature contributing to a distinct classification within the heterogeneous ichthyosis congenita group is discussed.

Ichthyosis and neutral lipid storage disease

A boy with a lipid storage disease characterized by lamellar ichthyosis, cataracts, hepatosplenomegaly, and leukocyte vacuoles has been identified in a Sicilian family. This patient shows all the characteristics of ichthyosis and neutral lipid storage disease (Chanarin-Dorfman syndrome). Family data confirm an autosomal recessive inheritance; the heterozygotes may be detected by the presence of vacuoles in circulating eosinophils.

Composition and morphology of epidermal cyst lipids

The contents of epidermal cysts were used as a source of desquamated human keratinocytes uncontaminated by sebaceous, subcutaneous, or bacterial lipids. Lipids extracted with chloroform:methanol mixtures included six series of ceramides (41% of the total extractable lipid), cholesterol (27%), cholesteryl esters (10%), fatty acids (9%), cholesteryl sulfate (1.9%), a novel class of ceramide esters (3.8%), and a sterol diester (0.9%). Electron microscopy revealed that the lipids in the cyst contents existed as multiple intercellular lamellae, as in stratum corneum. One lamella, adjacent to the horny cell protein envelope, was resistant to lipid extraction and is thought to represent covalently bound lipid on the outer surface of the keratinocyte. The results indicate that the degradation of intercellular lipid lamellae is not required for desquamation.

Keratinocytes cultured from subjects with ichthyosis vulgaris are phenotypically abnormal

Ichthyosis vulgaris (IV) is an autosomal dominant, scaling disorder in which keratohyaline granules and filaggrin are reduced in or absent from the epidermis of affected individuals. Morphologic and biochemical markers of epidermal differentiation were studied in keratinocytes cultured from clinically unaffected skin of patients with IV, from clinically unaffected skin of an obligate gene carrier, and from normal skin of unaffected family members and an adult volunteer. Cultured keratinocytes from affected subjects formed thickened layers of scaly cells that failed to react with monoclonal antibody to filaggrin. In contrast, normal cells contained many large, immunoreactive granules. Electron microscopy confirmed the absence of keratohyaline granules in affected cells and the presence of large keratohyaline granules in normal cells. Immunoblot analysis of keratinocyte extracts from subjects with ichthyosis showed that profilaggrin was absent, but no differences in keratins were detected between affected and control cells. For all parameters, findings in cells of the clinically unaffected obligate gene carrier were intermediate between those from affected patients and controls. We conclude that keratinocytes cultured from patients with IV maintain structural and biochemical phenotypic characteristics of the disease in vitro.

Prenatal diagnosis of congenital non-bullous ichthyosiform erythroderma (lamellar ichthyosis)

We report the first positive prenatal diagnosis of congenital non-bullous ichthyosiform erythroderma or lamellar ichthyosis. Fetal skin samples were obtained by fetoscopy at 21 weeks' gestation and examined by light and electron microscopy. Light microscopy revealed a thickened interfollicular epidermis with multiple layers of flattened cells and excessive keratinization of the epidermal lining of the follicular infundibulum. Electron microscopy of the thickened epidermis revealed granular cells that contained larger-than-normal keratohyalin granules and multiple layers of parakeratotic cornified cells. Although there was regional variation in the degree of interfollicular keratinization, follicles from all regions showed greater and more complete keratinization, indicating that they express the abnormality early enough in development to permit prenatal diagnosis at about 20 weeks' gestation.

Topical retinoids: in vivo predictive assays

Vitamin A is important for epithelial cell proliferation and differentiation and therefore has been used as a therapy for a variety of skin diseases. Synthetic vitamin A derivatives, called retinoids, have been used to treat a number of clinical skin conditions, including cystic acne and various forms of ichthyosis, Darier's disease, and psoriasis. Because of the toxicity of existing retinoids, newer vitamin A derivatives have been synthesized and must be evaluated in preclinical assays. Retinoids have profoundly differing biologic properties that can be evaluated selectively by studying their efficacy in different in vivo animal assays. This review will discuss some of the assays that may be useful predictors of retinoid efficacy.

Autosomal dominant lamellar ichthyosis

Five members of two generations of one family were affected with lamellar ichthyosis, suggesting autosomal dominant transmission. The clinical and histopathological characteristics of the cases described here are similar to those reported by Traupe et al. (1984) as autosomal dominant lamellar ichthyosis and thus confirm the existence of this new form of ichthyosis.

Ichthyosis bullosa of Siemens: a unique type of epidermolytic hyperkeratosis

We report the second family of ichthyosis bullosa, an entity that was first described by Siemens in 1937 and since then has fallen into oblivion. Clinically, ichthyosis bullosa is characterized by blistering resembling epidermolysis bullosa simplex and by generalized, yet circumscribed dark gray hyperkeratoses covering mainly the arms and the legs. Lichenification and superficially denuded areas (mauserung) are further prominent features. Histology disclosed intracorneal blister formation corresponding to the mauserung phenomenon and epidermolytic hyperkeratosis that was confined to the granular layer and to the uppermost layers of the prickle cells. On electron microscopic examination the keratinocytes of these layers displayed structural alterations of tonofilaments as usually observed in epidermolytic hyperkeratosis. Thus ichthyosis bullosa shares with bullous ichthyosiform erythroderma blistering and epidermolytic hyperkeratosis, but can be distinguished from this wellknown disease by the lack of erythroderma, by the mauserung phenomenon, by the confinement of acanthokeratolysis to the superficial layers of the epidermis, and by intracorneal blistering.

Lipid composition of cohesive and desquamated corneocytes from mouse ear skin

An organ culture system has been used to examine differences in the lipid compositions of materials derived from cohesive and desquamated mouse ear stratum corneum. Within this culture system, skin explants display rates of cell replication and differentiation comparable to those observed in vivo for up to 2 weeks and, during this period, loosened or dishesive material accumulates at the surface. Lipid compositions were determined for both intact and loosened stratum corneum derived from cultured skin and also for freshly prepared stratum corneum. In all 3 cases, the profiles of the nonpolar lipids and the ceramides were essentially the same; some of the nonpolar lipids appeared to be of sebaceous origin. The only changes detected upon desquamation were reductions of cholesteryl sulfate and a second unidentified lipid of similar polarity. Cholesteryl sulfate constitutes 4-5% of the polar lipid in fresh stratum corneum or stratum corneum from organ culture. This is reduced to 0.4% in the desquamated material which accumulates in the culture system. The unidentified lipid decreases from 1-2% of the polar lipid in intact fresh or cultured stratum corneum to 0.1% in the desquamated material. The possible function of cholesteryl sulfate in corneocyte cohesion is discussed.

Prenatal diagnosis of bullous ichthyosiform erythroderma: detection of tonofilament clumps in fetal epidermal and amniotic fluid cells

The prenatal diagnosis of bullous ichthyosiform erythroderma (BIE) has been achieved at 20 weeks' gestation by electron microscopic identification of a pathognomonic cytoskeletal abnormality within fetal epidermal cells obtained by fetoscopic skin biopsy. The same abnormality was also observed in skin derived amniotic fluid cells. The question whether amniocentesis might be used instead of fetoscopy for future prenatal detection of BIE is discussed.