G.J. de Jongh

Expression of tenascin-C splice variants by human skin cells

Abstract Tenascin-C is an extracellular matrix glycoprotein that is expressed in a spatially and temporally restricted pattern. Various functionally different tenascin-C isoforms can be expressed as a result of alternative splicing of the pre-mRNA. Previously we identified human epidermal keratinocytes as a source of tenascin-C in healing wounds. In this study, we investigated whether different tenascin-C transcripts are expressed by epidermal keratinocytes and dermal fibroblasts. In addition, we compared expression of tenascin-C splice variants at the mRNA and protein levels in tissue samples of normal and diseased skin. Northern blot analysis revealed two major tenascin-C mRNA transcripts of approximately 7500 and 5800 nucleotides in cultured epidermal keratinocytes and fibroblasts, and in biopsies. Although both dermal fibroblasts and epidermal keratinocytes predominantly expressed the larger tenascin-C mRNA, epidermal keratinocytes expressed smaller transcripts at higher levels than dermal fibroblasts. In keratinocytes the levels of the two mRNAs were differentially affected by inflammatory cytokines that increased tenascin-C expression in these cells. The addition of IFNγ slightly increased the proportion of large transcripts. In contrast, TNFα favoured expression of smaller tenascin-C transcripts, and IL-4 equally affected the expression of large and small tenascin-C mRNAs. To enable detection of tenascin-C transcripts that are expressed at very low levels, we amplified by polymerase chain reaction the fibronectin type III repeats whose expression is regulated by alternative splicing. In cDNA of cultured keratinocytes and fibroblasts, and in skin biopsies, several tenascin-C transcripts could be detected that corresponded to tenascin-C variants including different numbers of fibronectin type III repeats. Distribution of tenascin-C isoforms at the protein level was studied immunohistochemically in healthy skin, wounds, psoriatic lesions and epidermal tumours and hyperplasia. No differences were observed in reactivity between an antibody that binds all tenascin-C isoforms and antibodies that bind fibronectin type III repeats that can be spliced out from smaller tenascin-C isoforms. We conclude that the tenascin-C isoforms that are translated from transcripts that we identified at the mRNA level seem to be distributed similarly in the conditions investigated.

MON-150, a versatile monoclonal antibody against involucrin: characterization and applications

SummaryA monoclonal antibody, designated MON-150, was found serendipitously to react strongly with the granular layer of normal human epidermis and with the upper spinous layers of psoriatic epidermis. From analysis by flow cytometry of cultured human keratinocytes, it appeared that the percentage of MON-150-positive cells strongly increased when the cells reached confluence and the growth fraction declined. To identify the antigen recognized by MON-150, a lysate of human keratinocytes was subjected to affinity chromatrography using a MON-150 Sepharose column. This yielded a single protein of approximately 350 kDa as measured on Superose 6 FPLC gel permeation chromatography using nondenaturing conditions. In Western blot analysis under denaturing and reducing conditions, a 140-kDa protein was detected. The subcellular localization and the molecular weight of the antigen recognized by MON-150 suggested that the antigen involved might be involucrin. This was confirmed using a commercial polyclonal antiserum against involucrin. We conclude that MON-150 is a new, versatile antibody against human involucrin.

Flow cytometric and microscopic characterization of the uptake and distribution of phosphorothioate oligonucleotides in human keratinocytes

Gene-specific inhibition by antisense oligonucleotides has been successful in a large number of systems. In an attempt to use this strategy for the modulation of skin disease-specific gene expression, we studied oligonucleotide uptake in cultured human keratinocytes. This study revealed a heterogeneous uptake of fluorescently labeled phosphorothioate oligonucleotides. Flow cytometric and microscopic analysis showed two fluorescent cell populations with differences in intensity: a ‘bright’ population of highly fluorescent small cells and a ‘dim’ population of less fluorescent but larger cells. The heterogeneity in uptake between these two populations was not a result of differences in cell cycle phases of the keratinocytes, as shown by flow cytometric sorting and measurements of relative DNA content. In both populations the oligonucleotides were transported intracellularly and were mainly located in the cytoplasm. A typically speckled localization pattern was demonstrated by confocal laser scanning microscopy. We used propidium iodide (PI) to assess viability, and showed that in nonviable (PI-permeable) keratinocytes the oligonucleotides accumulated in the nucleus. The use of a lipidfection reagent also changed the intracellular distribution of oligonucleotides from a punctate cytoplasmic pattern to an intense nuclear localization. The process of uptake by the viable keratinocytes was dependent on oligonucleotide concentration, incubation time and temperature. This study underlines the importance of kinetic studies on oligonucleotide uptake in human keratinocytes which must be considered when specific oligonucleotides are used against skin disease-specific genes.

Skin-derived antileukoproteinase (SKALP) is decreased in pustular forms of psoriasis. A clue to the pathogenesis of pustule formation?

Skin-derived antileukoproteinase (SKALP, also known as elafin) is an inducible epidermal serine proteinase inhibitor, that we have recently characterized at the protein and DNA levels. SKALP is a strong and specific inhibitor of PMN elastase, and is putatively involved in the regulation of cutaneous inflammatory processes. In order to investigate the role of SKALP in the control of elastase in psoriatic epidermis, we compared SKALP expression in normal skin, and in skin from patients with chronic plaque psoriasis and pustular forms of psoriasis. Epidermal scales and biopsies were collected and SKALP expression was studied at the mRNA level and at the protein level both functionally and immunochemically. In epidermal scales, we found that the levels of both free and total SKALP activity in pustular psoriasis were far lower than in plaque psoriasis. A significant number of pustular psoriasis patients showed latent SKALP activity, which represents the amount of SKALP putatively complexed to elastase. In addition, we found free elastase activity in 25% of the pustular psoriasis patients, indicating a total saturation of epidermal SKALP activity. In epidermal biopsies from pustular psoriasis patients, SKALP activity was significantly decreased compared with those from plaque psoriasis patients. Northern blot analysis did not reveal differences in epidermal mRNA levels between chronic plaque psoriasis and pustular psoriasis. We hypothesize that a reduced amount of epidermal SKALP contributes to an imbalance between elastase and its inhibitor, thereby promoting the formation of epidermal pustules. We suggest that these findings could provide a rationale for the treatment of pustular psoriasis with inhibitors of PMN-derived proteinases, as a new therapeutic modality.

Dithiocarbamate therapy for nickel dermatitis

Increased internal exposure to nickel can cause an exacerbation of nickel contact dermatitis. Nickel ions are chelated by diethyldithiocarbamate (DDC) and thereby inactivated. An oral dose of about 1 g DDC/day was given to a patient. The nickel excretion in the urine increased about tenfold; the nickel elimination in scalp hair did not increase. The slightly negative nickel balance did not exhaust the nickel content of the organs appreciably with a dose of 1.2 g DDC/day for 2 months. At the end of this experiment patch tests with nickel sulphate were still positive though less local therapy was needed, and the cross correlation between the activity of the eczema and the nickel concentration in the urine had lost its former periodicity. It is therefore not yet possible to conclude whether or not DDC may be really of help in the very nickel hypersensitive patient by reducing the exposure to nickel originating in food and other environmental sources.

Factors influencing nickel dermatitis. I.

The nickel concentrations in urine and blood plasma of a very hypersensitive female patient have been followed during two periods of 34 and 42 days each. A limited degree of correlation was found between the course of the nickel concentration in plasma, the nickel concentration in urine and the clinical activity of the dermatitis. Evidently other factors also influence the activity of the dermatitis; among these menstruation and stress might be expected to play a role.

The growth and differentiation of human keratinocytes in vitro: a combined immunohistochemical and flow cytometric study.

In this study we performed a cell kinetic characterization of the growth and differentiation of human keratinocytes. Using a combination of immunohistochemical and flow cytometric techniques it was possible to obtain a detailed description of these processes. The proliferative activity of the cell cultures was analysed with flow cytometric techniques, measuring relative DNA content, iododeoxyuridine incorporation and the expression of the antigen recognized by Ki-67. In addition to a standard monolayer culture technique, cells were maintained in suspension. Under these conditions these cells were not capable of dividing, started to lose their nuclei, and the expression of differentiation-related proteins such as involucrin and filaggrin was induced, suggesting that the cells changed towards a differentiated phenotype. Binding of the antibody Ks8.12, recognizing keratins 13 and 16, occurred under all culture conditions, independent of cell density, and also in suspension, suggesting that it is a marker for abnormal differentiation rather than for hyperproliferation.

Cell kinetic characterization of the epidermal growth factor dependent BALB/MK line using flow cytometric analysis of DNA content and iododeoxyuridine incorporation

Epidermal hyperproliferation (psoriasis, wound repair) is the result of quiescent (G0) keratinocytes being recruited into the cell cycle. A detailed characterization of the cell cycle kinetic parameters of the mouse keratinocyte line (Balb/MK) has been carried out with the aid of bivariate iododeoxyuridine (IdUrd) and DNA analysis using flow cytometry, in order to establish whether it might provide a useful model for the study of the biochemical events controlling recruitment into the cell cycle. Balb/MK keratinocytes were cultured using low Ca2+ Dulbeccos modified Eagles medium/F12 in the presence of 10% dialysed fetal bovine serum and 4 ng/ml epidermal growth factor (EGF). IdUrd labelling followed by flow cytometric analysis of trypsinized cells showed that about 95% of the population were actively cycling, with a cell cycle time of around 14 h and no significant contact inhibition. Omission of serum and EGF followed by IdUrd pulse‐labelling indicated that the cells progressively withdrew from the cycle and, after 16h, less than 10% incorporated IdUrd. Subsequent restimulation with serum resulted in a synchronized cohort of cells being recruited. Entry into the S phase of the cell cycle (IdUrd incorporation) started at 8 h and was maximal between 12 h and 16 h after stimulation. Restimulation with EGF alone reached a growth fraction of 87% after 24 h continuous labelling compared with 97% using serum together with EGF. Epidermal growth factor already showed a significant stimulation at 10 pg/ml compared with the controls. There is a broad plateau centred on 5 ng/ml, followed by a slight decline above this level. We conclude that the use of a cell line with defined cell cycle kinetic parameters which can be switched between the quiescent and cycling states in a fully defined medium will provide an ideal model for biochemical studies of the relevant signal transduction pathways in keratinocytes.

A Left/Right Comparison of Twice-Daily Calcipotriol Ointment and Calcitriol Ointment in Patients with Psoriasis: The Effect on Keratinocyte Subpopulations

Vitamin D3 analogues are a first-line treatment of chronic plaque psoriasis, but so far, comparative clinical studies on calcipotriol and calcitriol ointment are sparse, and in particular no comparative studies are available on cell biological effects of these compounds in vivo. Using flow cytometric assessment, we investigated whether these compounds had different effects on the composition and DNA synthesis of epidermal cell populations responsible for the psoriatic phenotype. For 8 weeks, 20 patients with psoriasis vulgaris were treated twice daily with calcipotriol and calcitriol ointment in a left/right comparative study. Before and after treatment, clinical assessment of target lesions was performed, together with flow cytometric analysis of epidermal subpopulations with respect to keratin (K) 10, K6, vimentin and DNA distribution. Treatment with each compound resulted in a substantial clinical improvement, a reduction of the K10-K6- population and an increase of the K10+K6- population. A correlation was found between the clinical response of calcipotriol and the K10+K6- population, and the clinical response of calcitriol and the K10+K6- population, as well as the percentage of cells in the S, G2 and M phase of the cell cycle within the K10-K6- population, suggesting that the analogues have a different preference for affecting the K10+K6- pool (committed differentiated cells) or affecting the K10-K6- pool (basal cells).

Multi Parameter Flow Cytometric Assessment of Regenerative Epidermis with Special Reference to the Antiproliferative Effect of Occlusion

Multi parameter flow cytometrical assays permit simultaneous assessment of proliferation, differentiation, and inflammation parameters. In this study, the validation of TO-PRO-3 iodide (TP3) compared to propidium iodide (PI) and DE-K10 compared to RKSE60 were evaluated in tape stripping induced hyperproliferation. No occlusion, Duoderm (intermediate occlusion) and Blenderm (maximal occlusion) were used as a model to evaluate the effect of occlusion on epidermal regeneration. Proliferation in the keratin 10-negative compartment measured with TP3 proved to be a good approximation of proliferation measured with PI. Other epidermal subpopulations (keratin 10-dim and -bright cells) did not make a relevant contribution to hyperproliferation. DE-K10 is probable more sensitive than RKSE60 to distinguish populations that differ in degree of differentiation. Occlusion of tape stripped skin resulted in decreased proliferation and increased differentiation. This effect was most pronounced with maximal occlusion. This study showed that occlusion is a therapy, which realises normalisation of hyperproliferative skin disorders.