CD88 antibodies specifically bind to C5aR on dermal CD117+ and CD14+ cells and react with a desmosomal antigen in human skin

The expression of the C5aR (CD88) on human epidermal and dermal cells was studied with five anti-C5aR mAb directed to the N-terminal domain of the receptor. All mAb bound to suspended dermal CD117+ mast cells and to dermal CD14+ cells. The binding to CD14+ and CD117+ cells could be blocked by rC5a and by peptide EX-1 representing amino acid residues 1-31 of the C5aR. In acetone-fixed frozen or in paraformaldehyde-fixed, paraffin-embedded tissue, we detected a binding of the Abs to dermal perivascular cells and, additionally, to keratinocytes and dermal epithelial cells that could be blocked by EX-1. Immunoelectromicroscopy revealed a binding of anti-C5aR mAb to desmosomal regions in human epidermis. However, the following results indicate that CD88 mAb cross-react with epithelium in a specific way: 1) the binding to suspended epidermal cells and to the epidermal cell line HaCat could be blocked by EX-1 but not by rC5a; 2) FITC-labeled C5a bound to CD117+ and to CD14+ cells but not to epidermal cells; 3) C5a led to transient calcium fluxes in CD14+ and CD117+ dermal but not in epidermal cells; 4) C5aR mRNA was detectable by reverse transcription PCR in granulocytes but not in keratinocytes or in HaCat. Our results show that CD88 mAb are good tools for the investigation of the C5aR on hemopoietic cells. Results with epithelial cells should be considered with caution, as the binding of CD88 mAb that were raised to a synthetic peptide sequence may be due to a cross-reactivity.

Heterogeneity of collagen synthesis in normal and systemic sclerosis skin fibroblasts. Increased proportion of high collagen-producing cells in systemic sclerosis fibroblasts

OBJECTIVE

The goal of this study was to quantitatively analyze the distribution of collagen synthesis in normal and systemic sclerosis (SSc) fibroblast populations in order to determine the extent of activation in SSc populations.

METHODS

We used quantitative in situ hybridization to assess the population distribution of type I collagen synthesis. Fibroblast cultures were derived from both clinically involved and uninvolved skin regions of patients with SSc, and from healthy adults, and assessed for levels of alpha 1(I) procollagen messenger RNA (mRNA).

RESULTS

Dermal fibroblasts from both patients with SSc and normal adults were heterogeneous for distribution of alpha 1(I) procollagen mRNA when assessed by in situ hybridization, with a wide range of grains per cell. In contrast, clones of neonatal fibroblasts showed a relatively homogeneous distribution of grain counts. Involved SSc skin fibroblasts had a larger proportion of cells in the high collagen-producing mRNA subpopulation (mean +/- SEM 28.4 +/- 6.85%), compared with normal fibroblasts (1.75 +/- 1.44%) and uninvolved fibroblasts (9.6 +/- 6.73%). Conversely, within the low collagen-producing mRNA subpopulation, involved fibroblasts had a smaller proportion of cells (mean +/- SEM 14.0 +/- 5.63%) than did uninvolved fibroblasts (37.8 +/- 13.69%), while normal fibroblasts had a majority of the cells in this subpopulation (53.5 +/- 8.68%).

CONCLUSION

These results suggest that only a specific subset of fibroblasts are activated in SSc, as evidence by an increased proportion of cells with high levels of alpha 1(I) procollagen mRNA. Differences between the SSc and normal fibroblast populations appeared to be quantitative rather than qualitative. This may be a result of either clonal selection or selective activation in the pathogenesis of SSc.

Distinct cellular mechanisms of cholinergic and beta-adrenergic sweat secretion

The cholinergic and beta-adrenergic sweat secretions from human sweat glands differ with respect to secretory rates and their susceptibility to cystic fibrosis (CF). Using the cultured beta-adrenergic-sensitive sweat secretory cell, we sought to determine the intracellular electrophysiological mechanisms underlying these functional differences. We found that the cholinergic agonist methacholine (10(-6) M) induced a Ca(2+)-dependent biphasic membrane potential (Vm) response: an initial hyperpolarization and a secondary depolarization. The initial hyperpolarization was independent of bath Cl- and dependent on transmembrane K+ gradient. However, the secondary depolarization of Vm was dependent on bath Cl-. In contrast, the beta-adrenergic agonist isoproterenol (10(-5) M) induced a monophasic depolarization of Vm. This depolarization was 1) dependent on bath Cl-, 2) independent of K+ conductance (GK) blocker Ba2+ (5mM), 3) unaffected by the methacholine-induced secondary depolarization of Vm, and 4) absent in cells derived from CF subjects. These results indicated that the cholinergic agonist-induced secretion mainly involves the activation of Ca(2+)-dependent GK and Cl- conductance (GCl), whereas the beta-adrenergic secretion seems to mainly depend on the activation of cystic fibrosis transmembrane conductance regulator-GCl.

Polarity of cultured newborn rat skin basal cell layer

Basal cells were prepared from the newborn rat skin epidermis and cultured on a type I collagen-coated filter. This cultured basal cell layer showed an amiloride-sensitive polarity, and the apical surface of the cell layer was more acidic than the basal surface. When the basal cells were cultured with ascorbic acid, a polarity reverse of the cultured cell layer was observed. In this case, synthesized and accumulated type IV collagen was detected on the whole apical surface of the cultured cell layer. An inhibitor of collagen synthesis, cis-hydroxyproline (cis-OH-Pro), suppressed the ascorbic acid-induced polarity reversal. Furthermore, when basal cells were cultured on a type IV collagen-coated filter, the amiloride-sensitive polarity of the cultured cell layer resembled the cultivation on a type I collagen-coated filter. In this case, the polarity was reversed by the addition of ascorbic acid, and cis-OH-Pro suppressed this reversal. Based on these results, we concluded that cultured skin basal cell layer showed an amiloride-sensitive polarity. Moreover, newly synthesized and accumulated type IV collagen was deduced to affect the polarity reversal in the cultured basal cell layer.

Inflammatory responses in skin and airways after allergen challenge in brown Norway rats sensitized to trimellitic anhydride

Trimellitic anhydride (TMA) is a low-molecular-weight compound which causes occupational allergy. Brown Norway rats were sensitized to TMA injected intradermally (0.3% TMA suspended in oil). Three weeks later, we examined responses to either free TMA injected intradermally, or TMA conjugated to rat serum albumin (TMA-RSA) given by inhalation (0.5%, nebulized for 15 min). Twenty-one days after the sensitization, Evans blue dye was given i.v. (20 mg/kg), and extravasation of dye in skin was measured 30 min after oil or TMA injections (0.03-10% in oil). In a separate series of experiments, we evaluated the accumulation of eosinophils in the skin after single and repeated injections of TMA (0.03-0.3%). The injection sites were removed and fixed in formalin 18-24 h after the last injection. In a third series of experiments, we evaluated the effects of airway exposure to TMA-RSA (0.5% in 0.9% saline) on the accumulation of eosinophils in the bronchial wall counted with quantitative light microscopy. Intradermal injections of free TMA caused a dose-dependent increase of Evans blue dye extravasation which was significantly higher in sensitized animals than in controls. Skin histology revealed a significant and dose-dependent increase in eosinophils after repeated TMA injections in sensitized animals. Exposure to aerosolized TMA-RSA caused a significant increase of eosinophils in the bronchial wall of sensitized rats compared with nonsensitized rats. Sensitized animals showed significantly higher levels of specific IgG and IgE. We conclude that brown Norway rats can be used as a model of TMA-induced allergic inflammation, mimicking occupational asthma.

Effect of the non-peptide blocker (+/-) CP 96,345 on the cellular mechanism involved in the response to NK1 receptor stimulation in human skin fibroblasts

The effect of the selective non-peptide antagonist for NK1 receptors (+/-)CP 96,345 on cellular transduction mechanisms elicited by the NK1 selective agonist [Sar9]-substance P-sulfone ([Sar9]-SP) was investigated in a stabilized culture of human skin fibroblasts (HF) and compared to the effects of two peptide antagonists, FK 888 and GR 82, 334. The exposure of the cells to [Sar9]-SP (100 nM) produced an early increase in inositol 1,4,5-trisphosphate (IP3) level, which peaked after 6 s, and a later rise in cellular inositol 1-phosphate (IP1) content which reached the maximum level in 15 min. The cAMP level was not significantly modified. The increase in IP1 was greatly reduced, at approximately the same extent by the 10 min pretreatment with a concentration of (+/-)CP 96,345 (100 nM) 10 times smaller than that of FK 888 and GR 82,334 (1 microM). The cytosolic Ca2+ mobilization in response to the NK1 agonist was monitored both by spectrofluorimetric and single-cell image analysis determinations on adherent cells loaded with the Ca(2+)-sensitive fluorescent indicators Fura-2/AM and Indo-1, respectively. [Sar9]-SP (100 nM) produced a rapid increase in the intracellular Ca2+ level in Fura-2/AM loaded cells. Cytosolic Ca2+ mobilization, measured by single-cell image analysis, indicated a concentration-dependent increase in both the ratio and in the number of cells responding to [Sar9]-SP. Either the non-peptide or the peptide selective NK1 receptor antagonists inhibited the increase in Ca2+ level in both the assays. In the spectrofluorimetric experiments the antagonizing effects of (+/-)CP 96,345 (1-100 nM), FK 888 (10 nM-1 microM) and GR 82,334 (10 nM-1 microM) were concentration-dependent. Moreover, the non-peptide antagonist was more potent than the two peptide antagonists, producing an 82.5% inhibition of Ca2+ mobilization at a concentration (10 nM) at which FK 888 and GR 82,334 decreased the response by only 62.3 and 60%, respectively. Stimulation of phosphatidylinositol turnover and calcium mobilization were also induced by 10 nM bradykinin; these effects were influenced neither by the previous administration of the NK1 receptor agonist nor by the three antagonists tested. These results demonstrate that the cellular transduction mechanisms induced in human skin fibroblasts by NK1 receptor stimulation are specifically and effectively antagonized by (+/-)CP 96,345, and that this non-peptide antagonist is more potent than the two peptide antagonists tested.

In vivo cytokine and receptor gene expression during the rat hair growth cycle. Analysis by semi-quantitative RT-PCR

A number of cytokines have previously been localised within the developing and adult hair follicle, however, the role they play in producing a mature hair follicle remains unknown. In an attempt to identify dermal papilla specific cytokines and thus those that may have an important controlling role, cytokine gene expression profiles, obtained by reverse transcriptase-polymerase chain reaction (RT-PCR), were compared between whole anagen rat hair follicles, passage 2 dermal papillae (a cell type with hair inductive capacity), and footpad fibroblasts (a non-hair inducing cell type). Based on this qualitative data, we were unable to identify a dermal papilla specific gene. The analysis of the pattern and timing of cytokine gene expression during the hair cycle is likely to be more informative. A semi-quantitative RT-PCR technique was therefore developed for studying trends in the level of in vivo expression of the following cytokines and their receptors from early anagen to early catagen in the rat hair growth cycle: insulin-like growth factor I, transforming growth factor beta 1, tumour necrosis factor, and basic fibroblast growth factor. These genes were found to be differentially expressed and this was correlated with their possible functions in controlling the hair growth cycle, providing valuable insights into the role of cytokines in regulating the hair growth process.

Differentiation potential of rat amnion

The differentiation potential of rat amnion was investigated by explantation to different extrauterine sites and by culturing in vitro. Amnion differentiated into full skin by a process that is morphologically indistinguishable from normal skin development (interactions of the surface embryonic ectoderm and underlying mesenchyme). This process is not dependent on the age of the amnion but is dependent on the culture conditions used. Possible implications of these findings are discussed.

Juxtacrine stimulation of cytokine production in cocultures of human dermal fibroblasts and T cells

Adhesion of T cells to fibroblasts activates cells to produce cytokines, either by direct cell contact and/or soluble factors. A cell-associated form of IL-1 beta on fibroblasts might act through a cell contact mediated fashion. To test this hypothesis we analysed the activation of T cells and human dermal fibroblasts (HDF) in coculture experiments. Elevated levels of IL-1 beta, secreted by T cells as well as IL-6 and IL-8, mainly produced by HDF, were found in supernatant fluids of cocultured cells. IL-1 beta mRNA expression was induced in T cells as well as in HDF. While in HDF IL-1 beta remained cell-associated, T cells were activated to produce and secrete soluble IL-1 beta and IL-6. IL-1 beta and possibly other soluble factors increased IL-6 production by fibroblasts. These effects could be mainly attributed to CD8+ T cells. Our results suggest, that IL-1 beta, produced as a cell-associated cytokine by human dermal fibroblasts, acts as a juxtacrine molecule to stimulate T cells. Such a cellular cooperation, could be a powerful mediator in inflammatory response and possibly in wound healing.

In vivo confocal microscopy of human skin: a new design for cosmetology and dermatology

In-depth exploration of cellular structures in living human skin in situ is possible with the tandem scanning microscope (TSM). However, the rigid design of the microscope limited observations to the arms, hands, and fingers. A mobile version allowing the investigation of any parts of the body has been designed. The head containing the Nipkow disk and the optical path were the only part saved from the original TSM. This prototype can be used to observe, in real time, the different skin structures down to a depth of 200 microns and to measure the thickness of the different layers with micron precision level. The hydration of the stratum corneum (SC) could be assessed. For example, lengthy immersion of the hand in water led to an increase in SC thickness without affecting that of the living epidermis. Occlusive patch tests also showed that water and, even more so. propylene glycol, led to transient swelling of the SC. In dermatology, the example of psoriasis illustrated the value of the TSM for describing, measuring, and assessing pathologic skin changes. The availability of this noninvasive method for observing changes with time in a given skin site should prove useful for monitoring treatment efficacy. This tool opens up new insight for the investigation of cutaneous pathophysiology.

Transcriptional activation of the alpha 1(I) procollagen gene in systemic sclerosis dermal fibroblasts. Role of intronic sequences

OBJECTIVE

To investigate the transcriptional regulation of the alpha 1(I) procollagen gene (COL1A1) in cultured dermal fibroblasts from patients with diffuse systemic sclerosis (SSc) of recent onset and to evaluate the role that intronic sequences may play in the upregulated expression of COL1A1 in SSc dermal fibroblasts.

METHODS

Dermal fibroblasts from 6 patients with diffuse SSc of recent onset and from 3 healthy individuals were studied. The steady-state levels of alpha 1(I) procollagen messenger RNA were evaluated by Northern hybridization analysis, and the transcriptional regulation of COL1A1 was examined by transient transfection experiments with deletion constructs containing portions of COL1A1 promoter (with 5' end points at -5.3 kb, -2.3 kb, and -804 bp and 3' end point at +42 bp) ligated to the chloramphenicol acetyltransferase (CAT) reporter gene. To examine the role of intronic sequences, constructs containing, in addition to the COL1A1 promoter, a portion of the first intron (+380 bp to +1,440 bp) cloned in front of the CAT gene were transfected. The efficiency of transfections was normalized relative to the net amount of CAT plasmid actually transfected into recipient cells, determined by a modified Southern hybridization procedure.

RESULTS

Maximal CAT activity was observed with constructs extending from -804 bp to +42 bp in both normal and SSc fibroblasts. However, the activity driven by this construct was 80-110% higher in SSc fibroblasts. The CAT activity driven by a construct with a 5' end point at -5.3 kb was only 15-20% higher in SSc cells, and the CAT activity driven by a construct with a 5' end point -2.3 kb was 35-45% higher in SSc fibroblasts. The CAT activity driven by the -804-bp promoter construct was increased up to 4-fold in SSc fibroblasts in comparison with normal cells when the intronic segment spanning +380 bp to +1,440 bp was included in the transfected construct.

CONCLUSION

The results directly demonstrate the transcriptional activation of COL1A1 in dermal fibroblasts from SSc patients. The data also indicate that first-intron sequences of COL1A1 are required for maximal transcriptional activity of the collagen gene and may play an important role in the up-regulation of its expression in SSc fibroblasts.

Characterization of melanogenesis in normal human epidermal melanocytes by chemical and ultrastructural analysis

Chemical and ultrastructural studies were conducted to define the relationship between type of melanogenesis and fine structures of melanosomes in normal human epidermal melanocytes. Chemical analysis of epidermal melanin demonstrated that the ratio of eumelanin/pheomelanin varied individually, ranging from 1.31 to exclusively eumelanic. Ultrastructural analysis of fine structures of melanosomes revealed that spheroid melanosomes were frequently observed in melanocytes of the epidermis whose eumelanin/ pheomelanin ratio was less than 5. Conversely, ellipsoid melanosomes predominated in melanocytes of the epidermis whose ratio was more than 10. On the basis of these findings, it seems reasonable to conclude that 1) normal human epidermal melanocytes synthesize both eumelanin and pheomelanin and 2) pheomelanin synthesis may be characterized by the presence of spheroid melanosomes whereas eumelanin synthesis is ascribed to ellipsoid melanosomes.

Characterization of melanogenesis in normal human epidermal melanocytes by chemical and ultrastructural analysis

Chemical and ultrastructural studies were conducted to define the relationship between type of melanogenesis and fine structures of melanosomes in normal human epidermal melanocytes. Chemical analysis of epidermal melanin demonstrated that the ratio of eumelanin/pheomelanin varied individually, ranging from 1.31 to exclusively eumelanic. Ultrastructural analysis of fine structures of melanosomes revealed that spheroid melanosomes were frequently observed in melanocytes of the epidermis whose eumelanin/ pheomelanin ratio was less than 5. Conversely, ellipsoid melanosomes predominated in melanocytes of the epidermis whose ratio was more than 10. On the basis of these findings, it seems reasonable to conclude that 1) normal human epidermal melanocytes synthesize both eumelanin and pheomelanin and 2) pheomelanin synthesis may be characterized by the presence of spheroid melanosomes whereas eumelanin synthesis is ascribed to ellipsoid melanosomes.

Cell proliferation rates in common cancer target tissues of B6C3F1 mice and F344 rats: effects of age, gender, and choice of marker

Increasing emphasis is being placed on mode of action for chemical carcinogens as an important consideration for risk assessment. Many rodent carcinogens appear to act through nongenotoxic mechanisms, such as induced cell proliferation. Information on cell proliferation rates based on species, age, gender, tissue, and choice of marker will provide a foundation for incorporating such measurements into rodent toxicity studies. Cell proliferation was evaluated in liver, kidney, skin, and forestomach of control male and female B6C3F1 mice and F344 rats at 7, 10, 13, and 20 weeks of age. Proliferating cell nuclear antigen (PCNA), an endogenous cell proliferation marker, and bromodeoxyuridine (BrdU) administered by ip injection 2 hr before euthanization were compared as markers of cell proliferation. Only in liver were BrdU and PCNA labeling indices (LIs; S phase only) statistically similar. As expected, the PCNA proliferating index (PI; G1 + S + G2 + M phases) was consistently greater than the S phase LI in all tissues examined. Age-related differences in LI were evident in liver and kidney, whereas LIs in the forestomach and skin were not age- dependent. In all tissues examined, gender- and species-related differences in cell proliferation were detected. Although BrdU and PCNA LIs were often statistically different, they both provided a useful indication of cell proliferation rates in the tissues examined. These results provide potentially useful information for designing rodent toxicity studies and biological models of carcinogenesis.

Superantigen-induced Langerhans cell depletion is mediated by epidermal cell-derived IL-1 alpha and TNF alpha

The purpose of this study was to examine the role of cytokines in staphylococcal enterotoxin-A (SEA)-induced epidermal Langerhans cell (LS) depletion. This was accomplished by analyzing the effect of SEA on cytokine secretion by cultured epidermal cell populations by means of ELISA and by assessing the capacity of cytokines and cytokine-specific antibodies to affect epidermal LC density (as measured by immunoperoxidase staining of epidermal cells bearing surface Ia). The results of this study indicate that SEA induces the secretion of IL-1 alpha and TNF alpha by epidermal cells, that these cytokines induce LC depletion from epidermis, and that antibodies specific for these agents inhibit the depletion of LC by SEA. Taken together, these findings suggest that IL-1 alpha and TNF alpha may play essential roles in SEA-mediated depletion of LC from murine epidermis.

Susceptibility of human melanoma cells to oxidative stress including UVA radiation

Ultraviolet radiation, and in particular UVA (320-400 nm), induces significant oxidative stress to human skin. Ferritin and glutathione have been shown to be among the more important molecules within human skin cells providing protection against this damage, the presence of lower levels of these anti-oxidants giving rise to increased cellular sensitivity to stress. We compared endogenous levels of ferritin and glutathione in human melanoma cells with normal human skin fibroblasts and keratinocytes, also the response of melanoma cells to oxidative stress with fibroblasts and keratinocytes. Ferritin levels were heterogenous in the untreated melanoma cell lines tested and remained the same following oxidative stress (UVA radiation) or hemin treatment. Epidermal keratinocytes were unaffected, as were the melanoma cell lines, but skin fibroblasts showed dose-dependent ferritin depletion. Similar results were seen for glutathione alterations resulting from UVA radiation: melanoma cell lines and epidermal skin keratinocytes remained unchanged following UVA radiation, while skin fibroblasts showed dose-dependent depletion. Our results show that human melanoma cells have low ferritin and glutathione levels, yet are resistant to oxidative stress.

Telomerase activity in normal human epithelial cells

Telomerase activity is found in most cancer tissues and many immortalized cell lines as well as in germ line cells but it is generally undetected in normal human somatic tissues. There is weak telomerase activity in some cell types of hematopoietic lineage in which a stem cell-like subpopulation may exist. Likewise, physiologically regenerating somatic tissues and organs such as skin, small intestine, and most other epithelia of the human body are supposed to contain similar cell lineages to maintain their renewal throughout the life span of individuals. It is therefore of interest whether telomerase activity is present in physiologically regenerating epithelial cells. Telomerase activity was detected, though very weakly, in cultured normal epidermal keratinocytes and at higher levels in a subpopulation that adhere rapidly on collagen IV-coated culture dishes. No telomerase activity was detected in a subpopulation that was less adherent on the coated dishes. The rapidly adherent subpopulation of keratinocytes was enriched in small proliferating cells with macrocolony forming potential. It was also passaged through more generations in culture, and expressed integrin beta 1 at higher levels than the less adherent subpopulation. Telomerase activity was similarly found in ectocervical keratinocytes as well as in simple endocervical epithelial cells. These findings provide the evidence of a telomerase-positive population among physiologically regenerating normal human epithelial cells. The identity of the telomerase-positive cells remains to be defined.

Differential regulation of the MAP, SAP and RK/p38 kinases by Pyst1, a novel cytosolic dual-specificity phosphatase

The Pyst1 and Pyst2 mRNAs encode closely related proteins, which are novel members of a family of dual-specificity MAP kinase phosphatases typified by CL100/MKP-1. Pyst1 is expressed constitutively in human skin fibroblasts and, in contrast to other members of this family of enzymes, its mRNA is not inducible by either stress or mitogens. Furthermore, unlike the nuclear CL100 protein, Pyst1 is localized in the cytoplasm of transfected Cos-1 cells. Like CL100/ MKP-1, Pyst1 dephosphorylates and inactivates MAP kinase in vitro and in vivo. In addition, Pyst1 is able to form a physical complex with endogenous MAP kinase in Cos-1 cells. However, unlike CL100, Pyst1 displays very low activity towards the stress-activated protein kinases (SAPKs) or RK/p38 in vitro, indicating that these kinases are not physiological substrates for Pyst1. This specificity is underlined by the inability of Pyst1 to block either the stress-mediated activation of the JNK-1 SAP kinase or RK/p38 in vivo, or to inhibit nuclear signalling events mediated by the SAP kinases in response to UV radiation. Our results provide the first evidence that the members of the MAP kinase family of enzymes are differentially regulated by dual-specificity phosphatases and also indicate that the MAP kinases may be regulated by different members of this family of enzymes depending on their subcellular location.

Human Thy-1 is cytokine-inducible on vascular endothelial cells and is a signaling molecule regulated by protein kinase C

Thy-1 is a glycosylphosphatidylinositol-anchored member of the Ig superfamily whose function, particularly in the human, remains unknown. We have demonstrated that human Thy-1 is expressed on endothelial cells (EC) both in situ and on the surface of cultured human umbilical vein EC and dermal microvascular EC (DMEC). The expression of the molecule decreased with serial passage but was restored by treatment of EC with PMA and phorbol-12,13-dibutyrate (PBu), which increased Thy-1 by up to 100-fold in a dose-dependent manner. This increase was first detectable at 12 h post-stimulation, peaked at 48 h, and was maintained at 72 h. In PBu-stimulated DMEC, Western blotting revealed Thy-1 to be a 29-kDa molecule, while Northern analysis demonstrated an increase in steady-state Thy-1 mRNA. Thy-1 expression was also induced on DMEC by treatment with TNF. Inhibition studies showed that the induction of Thy-1 by PBu and TNF was protein synthesis dependent. The up-regulation of Thy-1 by PBu, but not TNF, was inhibited by the protein kinase C inhibitor RO31-8220, suggesting the presence of protein kinase C-dependent and -independent pathways for Thy-1 expression. To investigate the function of Thy-1 on human EC, we studied changes in intracellular calcium concentration ([Ca2+]i) following cross-linking of Thy-1 on human umbilical vein EC. This resulted in a rapid transient rise of [Ca2+]i in EC. Our results demonstrate for the first time the presence of Thy-1 on cultured human EC. The expression on EC, the inducibility by TNF, and the ability to transmit signals suggest that Thy-1 may have an important role in inflammatory responses.

Protein kinase C-independent activation of mitogen-activated protein kinase by epidermal growth factor in skin fibroblasts

In this study, we demonstrated that epidermal growth factor (EGF) stimulated the phosphorylation of myelin basic protein (MBP), a mitogen-activated protein kinase (MAPK) substrate, in crude extracts of human dermal fibroblasts. Moreover, using a selective protein kinase C inhibitor, GF 109203X (3-[1-[3-(dimethylamino)propyl]-1 H-indol-3-yl]-4 (1 H-indol-3-yl)-1 H-pyrrole-2,5-dione monohydrochloride), we observed that protein kinase C was partially involved in the total MBP phosphorylation. To determine the role of protein kinase C in the MBP phosphorylation, we separated, using fast protein liquid chromatography, the proteins present in the fibroblast crude extracts; we thus detected two distinct MBP kinase activities. The first one was stimulated by EGF and corresponded to p42mapk and p44mapk isoforms; this stimulation was not modified by GF 109203X. The second MBP kinase activity was not stimulated by EGF and was due to two protein kinase C isoforms reacting with an anti-protein kinase C zeta antibody. These results show that, in human dermal fibroblasts, EGF stimulates p42mapk and p44mapk isoforms in a protein kinase C-independent manner.

Effects of basophil-priming and stimulating cytokines on histamine release from isolated human skin mast cells

Cell priming and stimulation of different cytokines (which include chemokines and growth factors) are typical features of human basophils. Recently, it has been shown that the macrophage chemotactic protein-1 (MCP-1), RANTES and macrophage inflammatory protein-1 alpha (MIP-1 alpha) are potent direct secretagogues for human basophils and that interleukin-3 (IL-3), IL-5 and granulocyte/macrophage colony-stimulating factor (GM-CSF) are priming factors for subsequent potentiation of mediator release from basophils induced by different stimuli. This observation may be clinically important for the activation and recruitment of inflammatory cells in different immune responses of the skin (e.g. late-phase reactions). The aim of the present study was to investigate whether cytokines and chemokines are also capable of priming or stimulating isolated human skin mast cells (SMC). SMC were either stimulated directly with the cytokines alone or preincubated with these factors for 10 min before being activated with suboptimal concentrations of anti-IgE, A23187 or substance P. IL-3, IL-5, GM-CSF, platelet factor-4 (PF-4), IL-8, MCP-1 and MIP-1 alpha (each at concentrations of 1 ng/ml to 1 microgram/ml, log steps) did not significantly modulate histamine release from SMC induced by the three different secretagogues. RANTES exhibited a weak but significant potentiating effect on IgE-mediated activation. Stem cell factor (SCF) as a positive control was able to prime mast cell histamine release strongly. In addition, PF-4, MCP-1, RANTES and MIP-1 alpha were incapable of inducing direct histamine release from SMC. In experiments with isolated human peripheral basophils, however, we observed potent Fc epsilon RI-mediated priming effects evoked through IL-3, IL-5 and GM-CSF. We conclude that SMC derived from healthy donors are not targets of (immuno)modulatory factors that prime or stimulate basophils.

Chymotrypsin-like enzyme secretion is stimulated in cultured epithelial cells during proliferation and in response to Actinobacillus actinomycetemcomitans

A chymotrypsin-like enzyme was partially purified from culture medium of epithelial cells of human skin, human gingiva and porcine periodontal ligament by aprotinin-affinity chromatography. The enzyme levels from all three cell types were low in quiescent cultures but increased markedly when the cells were allowed to proliferate. The biphasic elution profile of the enzyme from the affinity column closely matched that of alpha-chymotrypsin and the protein comigrated with it on polyacrylamide gels at 27,000 ML. Synthetic substrate tests of purified fractions showed strong chymotrypsin-like but no trypsin-like or elastase-like activity. Inhibition of protease activity and pH optimum in the range of 7.5-8.0 were consistent with chymotrypsin-like enzymes. Secreted activity was found to be significantly increased by phorbol myristate acetate treatment in a time-course that differed from that of elastase-like activity. Keratinocyte growth factor and epidermal growth factor but not transforming growth factor-beta increased the chymotrypsin-like activity in a concentration-dependent manner. The enzyme secretion by epithelial cells was strongly elevated by exposure to 5 of 6 Actinobacillus actinomycetemcomitans strains isolated from plaque samples of juvenile periodontitis patients. These results indicate that chymotrypsin-like enzymes are secreted by proliferative phenotypes of normal epithelial cells. This enzyme may, therefore, play a role in epithelial physiology and in cell response to certain pathogenic bacteria.

Lyophilized keratinocyte cell lysates contain multiple mitogenic activities and stimulate closure of meshed skin autograft-covered burn wounds with efficiency similar to that of fresh allogeneic keratinocyte cultures

For several years, grafting with allogeneic keratinocyte cultures has been used successfully as a wound-healing therapy both by us and by many other groups. Since their postgrafting survival time is limited, the effect of these cultures is generally explained by the production of wound repair-stimulating factors that promote proliferation and migration of resident cells. In this study we show that lysates of cultured keratinocytes contain mitogenic activity for keratinocytes, endothelial cells, and fibroblasts. In addition, the lysates inhibit the contraction of collagen gels by human skin fibroblasts. On the basis of these observations and of in vivo data obtained by ourselves and others, we have evaluated the effect of total keratinocyte lysates on the healing of meshed skin autograft-covered burn wounds. Twenty burn wounds were tangentially excised and autografted with one to three meshed conventional skin transplants. An area treated with a gel containing lysated keratinocyte cultures was compared with an area treated with placebo-gel in terms of epithelialization on day 5. In six patients an additional fresh keratinocyte alloculture was applied as a positive control. Results indicate that the newly formed epithelium (difference between percentage of epithelialization on day 5 and on day 0) was 31.1 percent in the treated area compared with 16.5 percent in the placebo area. This result is comparable with the value obtained by treatment with fresh keratinocyte allocultures, namely, 33.8 percent. These figures show a twofold stimulation of epithelialization.

Human stratum corneum lipids have a distorted orthorhombic packing at the surface of cohesive failure

The cohesive strength of the stratum corneum is determined by its unique molecular composition and structural architecture. Whereas the structure responsible for corneocyte cohesion has been visualized at the microscopic level, the structure of the intercellular domain has not been characterized at the molecular level. In this report, new insight into the molecular architecture of the stratum corneum has been provided by atomic force microscopy and x-ray photoelectron spectroscopy. The surface layer of human stratum corneum was stripped, yielding the characteristic polygonal corneocytes shown by scanning electron microscopy as well as low resolution atomic force microscopy. With atomic force microscopy, the resolution was increased to allow imaging of the molecular architecture of the stratum corneum. With the high resolution image, a repetitive pattern characteristic of lipids in an ordered state was visualized. The lattice appeared to be orthorhombic where the lattice distances were about 5.5 and 9 angstroms, and the lattice angle was close to 90 degrees. The atomic composition of the superficial layers was 82% carbon, 16.5% oxygen, and 1.4% nitrogen as determined by x-ray photoelectron spectroscopy. The high nitrogen content compared to the calculated stratum corneum lipid composition and measured model lipid composition suggests that proteins were detected. In summary, although proteins are present, the fracture plane of the stratum corneum is largely composed of lipids that appear to have a distorted orthorhombic packing.