Synchronization of oscillations of proliferation of keratinocytes in psoriatic skin by external periodic force: a mathematical model

A mathematical model of mitotic activity of epidermis in normal skin and skin afflicted with psoriasis is presented as a system of two autonomous nonlinear differential equations. Its qualitative analysis was carried out and numerical solutions were obtained at the parameter values corresponding to these states. It was shown that in the norm, a single stable equilibrium of a "focus" type exists in the system; whereas in psoriasis, owing to an increase in the growing fraction, hyperproliferation, and enhanced migration of interacting keratinocytes, a stable limit cycle arises from the state of unstable focus. In this paper we also report on the results of computer modeling of synchronization of self-excited oscillations of keratinocyte population density in psoriatic lesions by an external periodic force. This synchronization is viewed as a possible mechanism of the clinically observed dependence of psoriasis course on some natural factors of cyclic nature.     

The targeted overexpression of a Claudin mutant in the epidermis of transgenic mice elicits striking epidermal and hair follicle abnormalities

Skin is one of the largest organs of the body, and is formed during development through a highly orchestrated process involving mesenchymal-epithelial interactions, cell commitment, and terminal differentiation. It protects against microorganism invasion and UV irradiation, inhibits water loss, regulates body temperature, and is an important part of the immune system. Using transgenic mouse technology, we have demonstrated that Claudin (Cldn)-containing tight junctions (TJs) are intricately involved in cell signaling during epidermal differentiation and that an epidermal suprabasal overexpression of Cldn6 results in a perturbed epidermal terminal differentiation program with distinct phenotypic abnormalities. To delineate the role of the Cldn cytoplasmic tail domain in epidermal differentiation, we engineered transgenic mice targeting the overexpression of a Cldn6 cytoplasmic tail-truncation mutant in the epidermis. Transgenic mice were characterized by a lethal barrier dysfunction in addition to the existence of hyperproliferative squamous invaginations/cysts replacing hair follicles. Immunohistochemical analysis revealed an epidermal cytoplasmic accumulation of Cldn6, Cldn11, Cldn12, and Cldn18, downregulation of Cldn1 and aberrant expression of various classical markers of epidermal differentiation; namely the basal keratins as well as K1, involucrin, loricrin, and filaggrin. Collectively these studies suggest an important role for Cldns in epidermal/hair follicle differentiation programs likely involving cross talk to signaling pathways (e.g., Notch) directing cell fate selection and differentiation.     

Characterization of the epidermis from barley primary leaves

A method is described for isolating epidermal protoplasts from the primary leaves of barley (Hordeum vulgare L.). Epidermal protoplasts are lighter than mesophyll protoplasts because of their smaller ratio of cytoplasm to vacuole, and can be separated from the latter by density-gradient centrifugation after complete digestion of the leaves. We have started a basic characterization of the epidermal protoplast fraction in comparison with mesophyll protoplasts. Epidermal protoplasts had a mean diameter of 63.5 m, whereas that of mesophyll protoplasts was 35.7 m. Their respiratory oxygen consumption was not influenced by light. They contained acid hydrolases and cytoplasmic enzymes in relative activities different from those of mesophyll protoplasts. Their polypeptide pattern as judged from two-dimensional separations was, in principle, similar to that of mesophyll cells after elimination of the plastids from the latter by the preparation of vacuoplasts. However, in addition, a considerable number of epidermis-specific polypeptides were observed. Isolated epidermal protoplasts were viable and efficiently incorporated [³⁵S]methionine into newly synthesized proteins. The results show that epidermal protoplasts are suitable for the investigation of the physiological and molecular properties of epidermal cells in leaves.Abbreviation SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis We are grateful to Professor U. Heber (Lehrstuhl Botanik 1, Würzburg) for his continuous support. This work was supported by the DFG and the University of Würzburg within the Sonderforschungsbereich 176.     

Characterization of keratins and associated proteins involved in the corneification of crocodilian epidermis

Crocodilian keratinocytes accumulate keratin and form a corneous cell envelope of which the composition is poorly known. The present immunological study characterizes the molecular weight, isoelectric point (pI) and the protein pattern of alpha- and beta-keratins in the epidermis of crocodilians. Some acidic alpha-keratins of 47-68 kDa are present. Cross-reactive bands for loricrin (70, 66, 55 kDa), sciellin (66, 55-57 kDa), and filaggrin-AE2-positive keratins (67, 55 kDa) are detected while caveolin is absent. These proteins may participate in the formation of the cornified cell membranes, especially in hinge regions among scales. Beta-keratins of 17-20 kDa and of prevalent basic pI (7.0-8.4) are also present. Acidic beta-keratins of 10-16 kDa are scarce and may represent altered forms of the original basic proteins. Crocodilian beta-keratins are not recognized by a lizard beta-keratin antibody (A68B), and by a turtle beta-keratin antibody (A685). This result indicates that these antibodies recognize specific epitopes in different reptiles. Conversely, crocodilian beta-keratins cross-react with the Beta-universal antibody indicating they share a specific 20 amino acid epitope with avian beta-keratins. Although crocodilian beta-keratins are larger proteins than those present in birds our results indicate presence of shared epitopes between avian and crocodilian beta-keratins which give good indication for the future determination of the sequence of these proteins.     

Characterization of beta-keratins and associated proteins in adult and regenerating epidermis of lizards

Reptilian epidermis contains two types of keratin, soft (alpha) and hard (beta). The biosynthesis and molecular weight of beta-keratin during differentiation of lizard epidermis have been studied by autoradiography, immunocytochemistry and immunoblotting. Tritiated proline is mainly incorporated into differentiating and maturing beta-keratin cells with a pattern similar to that observed after immunostaining with a chicken beta-keratin antibody. While the antibody labels a mature form of beta-keratin incorporated in large filaments, the autoradiographic analysis shows that beta-keratin is produced within the first 30 min in ribosomes, and is later packed into large filaments. Also the dermis incorporates high amount of proline for the synthesis of collagen. The skin was separated into epidermis and dermis, which were analyzed separately by protein extraction and electrophoresis. In the epidermal extract proline-labeled proteic bands at 10, 15, 18-20, 42-45, 52-56, 85-90 and 120 kDa appear at 1, 3 and 5 h post-injection. The comparison with the dermal extract shows only the 85-90 and 120 kDa bands, which correspond to collagen. Probably the glycine-rich sequences of collagen present also in beta-keratins are weakly recognized by the beta-1 antibody. Immunoblotting with the beta-keratin antibody identifies proteic bands according to the isolation method. After-saline or urea-thiol extraction bands at 10-15, 18-20, 40, 55 and 62 kDa appear. After extraction and carboxymethylation, weak bands at 10-15, 18-20 and 30-32 kDa are present in some preparations, while in others also bands at 55 and 62 kDa are present. It appears that the lowermost bands at 10-20 kDa are simple beta-keratins, while those at 42-56 kDa are complex or polymeric forms of beta-keratins. The smallest beta-keratins (10-20 kDa) may be early synthesized proteins that are polymerized into larger beta-keratins which are then packed to form larger filaments. Some proline-labeled bands differ from those produced after injection of tritiated histidine. The latter treatment does not show 10-20 kDa labeled proteins, but tends to show bands at 27, 30-33, 40-42 and 50-62 kDa. Histidine-labeled proteins mainly localize in keratohyalin-like granules and dark keratin bundles of clear-oberhautchen layers of lizard epidermis, and their composition is probably different from that of beta-keratin.     

Localization of calcium in murine epidermis following disruption and repair of the permeability barrier

Summary Perturbation of the cutaneous permeability barrier results in rapid secretion of epidermal lamellar bodies, and synthesis and secretion of new lamellar bodies leading to barrier repair. Since external Ca²⁺ significantly impedes the repair response, we applied ion capture cytochemistry to localize Ca²⁺ in murine epidermis following barrier disruption. In controls, the numbers of Ca²⁺ precipitates in the basal layer were small, increasing suprabasally and reaching the highest density in the stratum granulosum. Barrier disruption with acetone produced an immediate, marked decrease in Ca²⁺ in the stratum granulosum, accompanied by secretion of lamellar bodies. Loss of this pattern of Ca²⁺ distribution was associated with the appearance of large Ca²⁺ aggregates within the intercellular spaces of the stratum corneum. The Ca²⁺-containing precipitates progressively reappeared in parallel with barrier recovery over 24 h. Disruption of the barrier with tape stripping also resulted in loss of Ca²⁺ from the nucleated layers of the epidermis, but small foci persisted where the stratum corneum was not removed; in these sites the Ca²⁺ distribution did not change and accelerated secretion of lamellar bodies was not observed. Following acetone-induced barrier disruption and immersion in isoosmolar sucrose, the epidermal Ca²⁺ gradient did not return, and both lamellar body secretion and barrier recovery occurred. However, with immersion in isoosmolar sucrose plus Ca²⁺, the epidermal Ca²⁺ reservoir was replenished, and both secretion of lamellar bodies and barrier recovery were impeded. These results demonstrate that barrier disruption results in loss of the epidermal Ca²⁺ reservoir, which may be the signal that initiates lamellar body secretion leading to barrier repair.     

Delivery of antibody-captured proteins into living cells using PTD-fused protein A

Protein transduction domain (PTD)-mediated protein delivery into animal cells is a useful technique for regulating cellular functions. Proteins captured by antibodies were delivered into living cells using an antibody/PTD-fused protein A complex. As a model protein, fluorescent-modified antibodies, captured by their respective primary antibody, were analyzed by fluorescence-activated cell sorting (FACS) which showed that the fluorescent-modified antibodies were directly delivered into cells. Peroxidase, captured by its specific antibody, was also delivered into cells and retained its activity.     

Merkel cells and nerve endings in the labial epidermis of a lizard

Summary Examination of the labial epidermis of the lizard Lacerta sicula revealed cells displaying all features of Merkel cells. These cells are located in the stratum basale of epidermal pegs and are arranged in clusters.     

Septate junctions in the cephalic epidermis of turbellarians (Bipalium)

Summary In the epidermis of turbellarians septate junctions of the pleated sheet type have been demonstrated in conventional thin sections and freeze fractured preparations. The structure of these junctions entirely agrees with that found in molluscs and arthropods.Financially supported by DFG (Sto 75/3,4; We 380/5)     

Alignment of desmosomes in stratifying human epidermis

Summary Cultured human epithelial cells stained with antibody to desmosomal proteins by indirect immunofluorescence showed linear arrays of desmosomes en face between stratified cells. To confirm that an extensive linear pattern existed on the cell surface, subconfluent cultures were viewed using scanning electron microscopy. Aligned arrays of blunt protrusions lying parallel to each other and extending in the direction of the long axis of the cell were observed on the surface of groups of superficial cells in intact cultures. That this pattern was indeed related to desmosomal distribution was verified by transmission microscopy of thin sections cut in a plane between the upper and lower surfaces of flattened stratified cells to view desmosomes directly. A similar arrangement of desmosomes was seen in intact tissue, using epidermal sheets separated from newborn foreskin. The same pattern found in flattened cells was sometimes apparent in more rounded basal cells where the cytoplasm was beginning to extend. Since desmosomal plaques are associated with keratin filaments, the alignment of desmosomes must occur in association with cytoskeletal changes as cells become flattened toward the distal epithelial surface. The primary initiation of desmosomal alignment remains to be investigated. However, the present findings demonstrate an increasingly regular membrane-cytoskeletal spatial interaction as stratified epithelial cells of skin mature.     

Aldosterone-induced proteins in renal epithelia

Similar aldosterone-induced proteins have been demonstrated in two renal epithelia, the urinary bladder of the toad, Bufo marinus, and epithelia formed by cells of the A6 line derived from the kidney of the toad, Xenopus laevis. The proteins are induced along with the stimulation of Na⁺ transport but their synthesis is not dependent on Na⁺ transport per se. In view of the similar characteristics of the aldosterone-induced proteins in these two different epithelia, we suggest that they may have an important role in aldosterone-induced Na⁺ transport.     

Root growth regulation and gravitropism in maize roots does not require the epidermis

We have earlier published observations showing that endogenous alterations in growth rate during gravitropism in maize roots (Zea mays L.) are unaffected by the orientation of cuts which remove epidermal and cortical tissue in the growing zone (Björkman and Cleland, 1988, Planta 176, 513–518). We concluded that the epidermis and cortex are not essential for transporting a growth-regulating signal in gravitropism or straight growth, nor for regulating the rate of tissue expansion. This conclusion has been challenged by Yang et al. (1990, Planta 180, 530–536), who contend that a shallow girdle around the entire perimeter of the root blocks gravitropic curvature and that this inhibition is the result of a requirement for epidermal cells to transport the growth-regulating signal. In this paper we demonstrate that the entire epidermis can be removed without blocking gravitropic curvature and show that the position of narrow girdles does not affect the location of curvature. We therefore conclude that the epidermis is not required for transport of a growth-regulating substance from the root cap to the growing zone, nor does it regulate the growth rate of the elongating zone of roots.     

Vacuolar solutes in the upper epidermis of barley leaves

The concentrations of vacuolar solutes in different cells of the upper epidermis of the third leaf of barley (Hordeum vulgare L.) were studied in leaves of different ages grown under different irradiances (120 or 400 mol photons·m^–2·s^–1). Vacuolar saps were extracted from individual cells located at various positions between adjacent veins and were analysed for their osmolality and the concentrations of K⁺, Ca²⁺, Cl^–, NO ₃ ^– and malate. Each ion showed a cell-specific distribution within the epidermis that was both quantitatively and qualitatively dependent on the leaf developmental stage and on the light level. During leaf ageing, Ca²⁺ accumulated preferentially in interstomatal cells (i.e. those located between longitudinally adjacent stomata) at concentrations up to 180 mM. Under low light conditions, this was accompanied by a more or less equal decrease in K⁺ concentration. Epidermal malate was found only in plants grown continuously or transiently under the high irradiance and reached highest concentrations in trough and interstomatal cells (60 to 150mM). Chloride concentration was highest in cells overlying the veins (designated as ridge cells) and lowest in cells located between the veins (trough cells), while NO ₃ ^– exhibited the reverse distribution, although the precise patterns were age-dependent. Epidermal osmolality increased with age, but the intercellular differences in the osmolalities were small compared to differences in vacuolar solute composition. A cell-to-cell analysis of the region surrounding the stomata showed that the steepest changes in the vacuolar solute composition of epidermal cells occurred at the boundary between ridge or trough cells and the adjacent near-stomatal cells.Abbreviations EDX analysis energy dispersive X-ray analysis We wish to thank Andrew Davies and Alison Bell (Bangor) for their technical advice. This work was financed as an Agricultural and Food Research Council Linked Research Group project between Bangor and Rothamsted (grants LR5/187 and 521).     

Suprabasal marker proteins distinguishing keratinizing squamous epithelia: Cytokeratin 2 polypeptides of oral masticatory epithelium and epidermis are different

Terminal differentiation of squamous epithelia is usually characterized by the synthesis of a subset of cytokeratins (CKs) in suprabasal cell layers which become major components of the intermediate filament (IF) bundle cytoskeleton of the maturing cells. We have examined the significance, molecular nature and pattern of synthesis of the elusive human CK 2 by analyzing mRNAs from certain stratified epithelia, using in vitro translation, cDNA cloning. Northern blotting and in situ hybridization. We show that genuine polypeptides with the typical gel electrophoretic mobility of CK 2 exist but that the CK 2 present in the masticatory epithelia of hard palate and gingiva (CK 2p) differs from that found in epidermis (CK 2e) by its amino acid sequence and is encoded by a different gene. The two CKs 2 show only limited sequence homology (71% identical amino acid positions in the rod domain), and the oral CK 2p is more closely related to the corneal CK 3 (86%), as is also indicated by the cross-reaction of monoclonal antibody AE5. By in situ hybridization and immunocytochemistry, we further show that both CK 2e and CK 2p are expressed only in suprabasal cell layers of the specific epithelia where they can accumulate to represent major cytoskeletal proteins. We discuss this tissue-type specificity of CK 2 synthesis in otherwise morphologically and biochemically similar epithelia in relation to differences of IF appearance and packing in upper strata between epidermal and masticatory epithelia as well as to tissue formation and differentiation during development.     

Testosterone regulation of pigmentation in scrotal epidermis of the rat

Summary The effects of testosterone on melanocyte number, morphology, melanin content and tyrosinase activity were studied in epidermis from several body regions of the black-pelted Long-Evans rat. Determinations were made in epidermal sheets processed for histochemical analysis by incubation in the presence of the melanin precursor, 3,4-dihydroxyphenylalanine (DOPA). Melanin content, cell volume, dendritic branching and tyrosinase activity of scrotal epidermal melanocytes all decreased progressively with time following castration. Daily testosterone injection, begun 14 days after castration, increased tyrosinase activity in 4 days, and dendritic branching in 6 days, of treatment; melanin content, cell volume and enzyme activity were restored to normal intact levels within 14 days of treatment, at which time newly synthesized melanin was evident in keratinocytes. The total number of scrotal epidermal melanocytes was not changed by castration or testosterone administration. Neither castration nor testosterone replacement affected any parameter of epidermal melanocytes in preputial, perianal or eyelid skin which, together with the scrotum, are the animals' only pigmented areas. Androgen control of epidermal pigmentation in the male rat is therefore specific for the scrotum and is manifested through regulation of melanin synthesis in stable populations of melanocytes rather than through increases in numbers of melanocytes.This work was supported in part by research grant no. HD 00446, and training grant no. HD 00152, from the Institute of Child Health and Human Development, Public Health Service.     

The outer epidermis of Avena and maize coleoptiles is not a unique target for auxin in elongation growth

A controversy exists as to whether or not the outer epidermis in coleoptiles is a unique target for auxin in elongation growth. The following evidence indicates that the outer epidermis is not the only auxin-responsive cell layer in either Avena sativa L. or Zea mays L. coleoptiles. Coleoptile sections from which the epidermis has been removed by peeling elongate in response to auxin. The magnitude of the response is similar to that of intact sections provided the incubation solution contains both auxin and sucrose. The amount of elongation is independent of the amount of epidermis removed. Sections of oat coleoptiles from which the epidermis has been removed from one side are nearly straight after 22 h in auxin and sucrose, despite extensive growth of the sections. These data indicate that the outer epidermis is not a unique target for auxin in elongation growth, at least in Avena and maize coleoptiles.Abbreviations IAA indole-3-acetic acid - PCIB p-chlorophenoxyiso-butyric This research was supported by grants from the National Aeronautics and Space Administration and from the U.S. Department of Energy. The help of S. Ann Dreyer is gratefully acknowledged.     

Differential effects of trypsin on the epidermis of Rana catesbeiana

Summary The filamentous cytoskeletons of epidermal cells of the bullfrog (Rana catesbeiana) were investigated by electron microscopy. Following treatment with trypsin, sheets of epithelium were removed from swatches of abdominal skin. Trypsinization produces differential effects on the ultrastructure of the various cell layers. The desmosomes of all layers, except those of the stratum corneum, are split by trypsinization and the resulting desmosomal plaques fastened to tonofilaments are retracted into cells to form deep inpouchings of the plasma membranes, while tonofilament bundles become diffuse. Epidermal sheets were gently homogenized to form a suspension of cell remnants with damaged plasma membranes as indicated by vital dye exclusion tests and electron microscopy. Cytoskeletons retain their shapes, yet the lateral distances between individual tonofilaments within bundles appear to increase, thus forming diffuse lacelike structures. These observations support the suggestion that tonofilament bundles, when fastened to desmosomes, have elastic properties. The possible role of the cytoskeletons in the maintenance of cell size and shape in an ion-transporting epithelium is discussed.This investigation was supported, in part, by United States Public Health Service Training Grant AH 01037-01     

Ceramide composition of the psoriatic scale

This paper investigates the ceramide composition of the psoriatic scale compared with that of normal human SC. A method was optimalized, based on TLC separation followed by densitometry, allowing the provision of good resolution and quantification of ceramide fractions from both normal and pathological specimens. Seven ceramide fractions were isolated and submitted to compositional analysis. The obtained results suggested a revisitation of previous ceramide designation. Therefore a simple classification is suggested, based on grouping ceramides carrying structural similarities under common codes. According to these rules, ceramides were grouped into five classes designated as: (1) Cer[EOS], which contains ester-linked fatty acids, ω-OH fatty acids and sphingosines; (2) Cer[NS], which contains non-OH fatty acids and sphingosines; (3) Cer[NP], which contains non-OH fatty acids and phytosphingosines; (4) Cer[AS], which contains α-OH fatty acids and sphingosines; (5) Cer[AP], which contains α-OH fatty acids and phytosphingosines. Analysis of ceramides from the psoriatic scale, compared to those from normal human SC, resulted in an impairment of the Cer[EOS] content as well as of the ceramides containing phytosphingosine, with concurrent increase in ceramides containing sphingosine, being the total amount maintained identical. Since one of the suggested pathways for phytosphingosine biosynthesis involves the water addition to the corresponding sphingosine double bond, we can speculate that the observed alterarion is due to a deranged water bioavailability, associated with psoriaris.