Marie Virtanen

Congenital ichthyosis: an overview of current and emerging therapies.

Congenital ichthyosis is a collective name for a group of monogenetic disorders of cornification, sometimes associated with systemic symptoms. There may be an abnormal quality or quantity of scale produced, abnormal thickness of stratum corneum or abnormal keratinocyte kinetics, often associated with skin inflammation. Pruritus, skin fragility, ectropion and anhidrosis are sometimes associated with the rare types of ichthyosis. Three important mechanisms are involved in the action of topical agents used in the treatment of ichthyosis: hydration, lubrication and keratolysis. The latter effect can also be achieved with systemic retinoids. For ichthyosis with an increased tendency towards skin infections, antimicrobials are another group of widely used agents. Considering that patients with ichthyosis are potential mega-users of topical therapy, with an estimated lifetime consumption of approximately one tonne cream per capita, surprisingly few controlled trials of the various treatments have been performed. Moreover, nearly all therapeutic principles were established long before the recent increase in knowledge about the aetiology and pathophysiology of ichthyosis. This calls for new ideas and intensified efforts to develop future ichthyosis therapies.

Improved topical treatment of lamellar ichthyosis: a double-blind study of four different cream formulations

Lamellar ichthyosis (LI) is characterized by generalized scaling of the skin and is often resistant to ordinary emollients. Recently, Locobase® fatty cream containing a mixture of 5% lactic acid and 20% propylene glycol (LPL) was found to be markedly effective in a pilot study. To consolidate this finding, a double‐blind study comparing LPL with the corresponding mixture in Essex® (Diprobase®) cream (LPE) and Locobase® fatty cream containing either 5% urea or 20% propylene glycol was conducted in 20 patients with LI. Before and after applying the creams twice daily on each of the four extremities for 4 weeks, the following investigations were performed: scoring of xerosis, scaling and erythema, measurements of skin hydration (capacitance) and transepidermal water loss (TEWL), and moulding of the skin surface (replicas). Xerosis was reduced by all four creams, but significantly more so by LPL (P < 0·001) and LPE (P < 0·01). Scaling was only reduced by LPL (P < 0·001) and LPE (P < 0·01), which also caused a slight increase in the erythema score (P < 0·05 for both). The patients’ weekly evaluation of symptoms showed that LPL produced the most rapid effect: the response rate after 4 weeks was 63%. Skin hydration and TEWL were both significantly increased by LPL and LPE, whereas skin roughness was reduced most by LPL. Fourteen patients preferred LPL over the other cream formulations. Ten patients continued using LPL for up to 8 weeks with good results and no side‐effects other than occasional irritation in the skin folds. LPL is a major advance in the topical treatment of LI that suits most patients. Some patients, however, seem to prefer the more hydrophilic LPE formulation. Both formulations effectively reduce hyperkeratosis and xerosis, but may cause slight irritation and adversely affect the epidermal barrier function.

Phenotypic/genotypic correlations in patients with epidermolytic hyperkeratosis and the effects of retinoid therapy on keratin expression

Dominant-negative mutations in the KRT1 and KRT10 genes cause epidermolytic hyperkeratosis, a rare form of ichthyosis sometimes associated with palmoplantar keratoderma. Although there is no permanent cure, some patients improve on retinoid therapy. More knowledge is needed, however, about the mechanism of action of retinoids and the genotypic/phenotypic correlations in this disease. Thirteen patients from 10 families with generalized disease and 2 sporadic patients with nevoid lesions were studied, probably representing most of the patients in Sweden and Norway. All patients, except one nevoid case, were known to have KRT1 or KRT10 mutations. Those with mutated keratin 1 (K1) invariably had associated keratoderma (n=6). In contrast, only 1 of 7 patients with K10 mutations had this problem (p = 0.0047). Five out of 6 patients with KRT10 mutations benefited from treatment with oral acitretin (5-25mg/day) or topical tretinoin/tazarotene, but none of the patients with KRT1 mutations derived any benefit. Quantitative analysis of K1 and K10 mRNA in skin biopsies obtained before and after retinoid therapy (n=8) showed no consistent down-regulation of mutated keratin that would explain the therapeutic outcome. Instead, the mRNA expression of K2e (a normal constituent of the upper epidermis) diminished especially in nonresponders. In contrast, K4 mRNA and protein (marker of retinoid bioactivity in normal epidermis) increased in almost all retinoid-treated patients. In conclusion, our study confirms a strong association between KRT1 mutations and palmoplantar keratoderma. Retinoid therapy is particularly effective in patients with KRT10 mutations possibly because they are less vulnerable to a down-regulation of K2e, potentially functioning as a substitute for the mutated protein in patients with KRT1 mutations.

Autosomal Recessive Congenital Ichthyosis in Sweden and Estonia: Clinical, Genetic and Ultrastructural Findings in Eighty-three Patients

Congenital (non-bullous) ichthyosis is a rare group of keratinizing disorders which can be tentatively subclassified based on clinical criteria, analysis of transglutaminase 1 gene mutations and electron microscopy of epidermis. We studied 83 patients who were all on topical therapy and in 16 cases also on oral retinoids. Three main groups of patients were distinguished: (A) those with transglutaminase 1 gene mutations (n=44), (B) those without transglutaminase 1 gene mutations showing a coarse, generalized scaling (n=19), and (C) those without transglutaminase 1 gene mutations showing only fine or focal scaling (n=20). On clinical scoring, patients in group A were more hyperkeratotic and less erythematous than those in group B (p < 0.05). Anhidrosis was recorded in nearly all patients (> or = 80%), but ectropion and a collodion phenotype at birth were more common in group A versus other groups. Ultrastructurally, a high frequency of type I (Anton-Lamprechts classification) was found in all three groups (37-63%), 20 cases of type II in group A and a few cases of types III and IV in groups B and C, respectively. In conclusion, transglutaminase 1 gene mutation is a major cause of congenital ichthyosis in Sweden and Estonia, and is often associated with severe scaling and ultrastructural type II in corneocytes. The transglutaminase-unrelated cases are more heterogeneous, probably reflecting a more varied aetiology.

Characterization of immortalized human epidermolysis bullosa simplex (KRT5) cell lines : trimethylamine N-oxide protects the keratin cytoskeleton against disruptive stress condition

BACKGROUND Epidermolysis bullosa simplex (EBS) is an autosomal inherited mechano-bullous disease, characterized by intraepidermal blistering and skin fragility caused by mutations in the keratin (KRT) 5 or 14 genes. Despite a vast knowledge about the intermediate filament pathology in this disease, the progress in therapy has been slow. Animal models and well-characterized continuous cell culture models of EBS are needed prior to clinical testing. OBJECTIVES Our aim was to generate immortalized cell lines as an in vitro model for the study of EBS and test a chemical chaperone, trimethylamine N-oxide (TMAO), as a putative novel therapy. METHODS We generated four immortalized cell lines, two each from an EBS patient with a KRT5-mutation (V186L) and a healthy control, using human papillomavirus 16 (HPV16) E6E7 as transducer. Cell lines were established in serum-free and serum-containing medium and assessed for growth characteristics, keratin expression profiles, ability to differentiate in organotypic cultures, and response to heat stress with and without the presence of TMAO. RESULTS All cell lines have been expanded >160 population doublings and their cellular characteristics are similar. However, the formation of cytoplasmic keratin filament aggregates in response to heat-shock treatment differed between EBS and normal cell lines. Notably, serum-free established EBS-cell line was most vulnerable to heat shock but both cell lines exhibited significant reduction in the number of keratin aggregates containing cells by TMAO. CONCLUSION The immortalized cell lines represent a suitable model for studying novel therapies for EBS. TMAO is a promising new agent for future development as a novel EBS therapy.

Immortalized keratinocytes derived from patients with epidermolytic ichthyosis reproduce the disease phenotype: a useful in vitro model for testing new treatments

Background  Epidermolytic ichthyosis (EI) is a skin fragility disorder caused by mutations in genes encoding suprabasal keratins 1 and 10. While the aetiology of EI is known, model systems are needed for pathophysiological studies and development of novel therapies.

Epidermolysis bullosa simplex due to KRT5 mutations: mutation-related differences in cellular fragility and the protective effects of trimethylamine N-oxide in cultured primary keratinocytes.

Summary Background  Epidermolysis bullosa simplex (EBS) is a mechanobullous skin fragility disease characterized by cytolysis of basal keratinocytes and intraepidermal blistering often caused by mutations in keratin genes (KRT5 or KRT14). No remedies exist for these disorders presenting a need for development of novel therapies.

Whole-exome sequencing identifies novel autosomal recessive DSG1 mutations associated with mild SAM syndrome

Whole-exome sequencing identifies novel autosomal recessive DSG1 mutations associated with mild SAM syndrome

Topical retinoic acid alters the expression of cellular retinoic acid-binding protein-I and cellular retinoic acid-binding protein-II in non-lesional but not lesional psoriatic skin.

Abstract: Therapeutic retinoids have profound effects on psoriatic skin pathology but their interactions with various retinoid‐binding proteins in lesional vs non‐lesional skin have not been investigated. Using quantitative real‐time PCR the mRNA expression of cellular retinol‐binding protein I (CRBPI) and retinoic acid‐binding protein I/II (CRABPI/CRABPII) was studied in psoriatic and healthy control (=normal) skin after 4 days of occlusive RA/vehicle treatment (n=6). Untreated psoriatic lesions showed a markedly elevated CRABPII/CRABPI ratio, while the CRBPI level was reduced in lesional and non‐lesional skin as compared to normal skin. In RA‐treated normal and non‐lesional skin, the mRNA expression of CRBPI was unaltered while that of CRABPI and CRABPII was reduced by ≈80% and increased ≈5‐fold, respectively, as compared to vehicle‐treated skin. In contrast, lesional skin exposed to RA showed an almost 90% increase in CRBPI transcripts but unaltered expression of CRABPI and CRABPII, yet, the mRNA expression of several inflammatory mediators, e.g. inducible nitric oxide synthase, interferon‐γ and interleukin‐1β, was clearly reduced. Immunohistochemistry localized CRABPII to suprabasal keratinocytes in normal skin and revealed markedly elevated levels in lesional skin. RA treatment induced CRABPII protein expression in normal and non‐lesional skin, to similar levels as in untreated lesions. The results indicate that the effects of RA differ in normal/non‐lesional psoriatic skin and lesional skin. Whether the high expression of CRABPII in psoriatic skin lesions is due to increased amounts of endogenous retinoids in lesional skin or reflects an abnormal regulation of the CRABPII gene in psoriasis remains to be studied.

Keratins 2 and 4/13 in reconstituted human skin are reciprocally regulated by retinoids binding to nuclear receptor RARα

Please cite this paper as: Keratins 2 and 4/13 in reconstituted human skin are reciprocally regulated by retinoids binding to nuclear receptor RARα. Experimental Dermatology 2010; 19: 674–681.