Induction of new proteins by gamma interferon in cultured human keratinocytes

Microbeads and anchorage-dependent eukaryotic cells: the beginning of a new era in biotechnology

Modern methods for the mass cultivation of anchorage-dependent mammalian cells started with the advent of microcarrier technology. Largely for reasons pertaining to their mode of preparation and ease of cultivation, 150-230 microns microbeads have been overwhelmingly adopted and the technology around them developed. To meet high biomass, macroporous microbeads have been developed. Also, the chemistry of the microsupport has been adapted in order to afford better protection of fragile cells to mechanical wear while simultaneously reorienting their differentiation towards the sought aims (production of cytokines, enzymes etc. ...). Future progress depends upon solutions being brought to problems inherent to this new technology (maintenance of steady state conditions of growth etc. ...) as well as to requirements arising from animal cell culture in general (biosensors, bioreactor's design etc. ...). Besides such technical implementations, biology at large is also expected to benefit from the advent of microcarriers in fields as diverse as the preparation of metaphasic chromosomes in bulk, toxicity testing, organ reconstitution following cell transplantation etc.

Mapping and identification of interferon gamma-regulated HeLa cell proteins separated by immobilized pH gradient two-dimensional gel electrophoresis

Interferon gamma (IFN-gamma) is a potent immunomodulatory lymphokine, secreted by activated T-lymphocytes and NK-cells during the cellular immune response. Actions of IFN-gamma are mediated through binding to the IFN-gamma-receptor, present on most cells, and the subsequent activation of a great magnitude of IFN-gamma responsive genes has been reported previously. Our goal is to identify and map IFN-gamma-regulated HeLa cell proteins to the two-dimensional polyacrylamide gel electrophoresis with the immobilized pH gradient (IPG) two-dimensional polyacrylamide gel electrophoresis (2-D PAGE) system. A semiconfluent layer of HeLa cells was grown on tissue culture plates, and changes in protein expression due to 100 U/mL IFN-gamma were investigated at different periods after treatment, using pulse labeling with [35S]methionine/cysteine in combination with 2-D PAGE (IPG). The identity of eight protein spots was elucidated by matrix-assisted laser desorption/ionization-mass spectrometry (MALDI-MS), and several variants of the IFN-gamma-inducible tryptophanyl-tRNA synthetase (hWRS) were detected by immunoblotting.

Effects of cytokines on the gamma interferon-induced tryptophanyl-tRNA synthetase expression by human keratinocytes

Incubation of human keratinocytes with gamma interferon (gamma-IFN) has been shown to potently induce the synthesis of a 53 kDa protein which was recently identified as tryptophanyl-tRNA synthetase (TRS). However, in spite of the high sensitivity of cultured keratinocytes to TRS induction by gamma-IFN, the study of inflammatory skin lesions has allowed the detection of the protein only in a few cases, suggesting regulatory mechanisms from soluble endogenous mediators with antagonistic activity on the induction of TRS by gamma-IFN. Among these mediators, we wondered whether cytokines selected for possible anti-inflammatory activity and potentially derived from activated resident skin cells, such as IL-4, IL-10, TNF-alpha and TGF-beta, may be involved in the modulation of the keratinocyte TRS expression. To assess this possibility, we investigated the modulation of the synthesis of TRS by human cultured keratinocytes upon stimulation by various gamma-IFN/cytokine combinations. The effects were evaluated by immunoblotting assay revealed by enhanced chemiluminescence, with the aid of a specific antibody to the TRS protein. Results failed to demonstrate any effect of the tested cytokines, whether on the basal level of the TRS, or on the gamma-IFN-induced enzyme expression in keratinocytes. It is thus unlikely that such cytokines can account for the infrequency of the TRS detection in inflammatory skin processes. Further investigations of alternative working hypothesis should help elucidate the regulation of TRS in human keratinocytes.

Interferon-gamma up-regulates a unique set of proteins in human keratinocytes. Molecular cloning and expression of the cDNA encoding the RGD-sequence-containing protein IGUP I-5111

Treatment of proliferating and quiescent primary human keratinocytes with interferon-gamma (IFN-gamma) (100 U/ml, 23.5 h) followed by two-dimensional gel analysis revealed three proteins, IGUP I-3421 (M(r) = 48,200, pI = 6.06); IGUP I-3524 (M(r) = 56,900, pI = 5.92), a protein homologous to peptide-chain-release factor and tryptophanyl-tRNA synthetase; and IGUP I-5111 (M(r) = 30,400, pI = 5.76) recorded in the keratinocyte protein database (Celis et al., 1991, 1992) that are highly and specifically up-regulated by IFN-gamma among several agents tested including 14 other cytokines, second messengers [dibutyryl cAMP (Bt2cAMP), dibutyryl cGMP (Bt2cGMP)] and compounds known to affect keratinocytes [4 beta-phorbol 12-myristate 13-acetate (PMA), retinoic acid, Ca2+, dexamethasone, lipopolysaccharides, foetal calf serum]. Protein IGUP I-5111 was selected for further studies as its level is affected by simian-virus-40 transformation and because peptide sequences were available in the microsequence database. The cDNA was cloned from a fibroblast cDNA library using degenerate oligodeoxyribonucleotides and expressed in AMA cells using the vaccinia virus expression system. Database searches indicated that the predicted protein, which migrated with the AMA variant of keratinocyte protein IEF SSP 5111, is novel although it exhibits weak similarity to cytoskeletal proteins. IGUP I-5111 contains the RGD sequence found in many extracellular glycoprotein ligands of the integrin receptor family and it is found at least partially in the culture supernatant. Considering the presence of IFN-gamma in psoriatic plaques as well as its putative involvement in the pathophysiology of the disease it was of interest to determine whether the set of proteins was upregulated in these cells. Two-dimensional gel analysis of the protein phenotype of non-cultured, unfractionated psoriatic keratinocytes failed to reveal up-regulation of any of the three IFN-gamma-induced proteins suggesting that the effect of IFN-gamma in vivo may be modulated by the activity of other cytokine(s) or growth factor(s). Psoriatic keratinocytes were equally sensitive to IFN-gamma as their normal counterparts.

Gamma interferon potently induces tryptophanyl-tRNA synthetase expression in human keratinocytes

Incubation of human keratinocytes with gamma interferon (gamma-IFN) induces the synthesis of a 53-kDa protein of unknown nature and function. We report the identification of this protein through amino acid microsequencing. The NH2-terminal amino acid sequence of the 53-kDa antigen demonstrated that this protein was tryptophanyl-tRNA synthetase (Frolova et al, Gene 109:291-296, 1991, Genbank accession number 61715). This result was validated by the sequencing of tryptic peptides. Identification of the 53-kDa gamma-IFN-induced protein was confirmed by immunoblotting with an antiserum directed against beef pancreas tryptophanyl-tRNA synthetase. Northern blot analysis using a synthetic oligonucleotidic 32P-labeled probe evidenced a 3.1-kb transcript in gamma-IFN-treated cells indicating that the gene was regulated at the pre-translational level. These data show that gamma-IFN potently induces in keratinocytes the expression of an enzyme directly involved in protein biosynthesis. Elevated levels of tryptophanyl-tRNA synthetase in treated cultured keratinocytes might be involved in the cell-growth-inhibitory activity of gamma interferon.

The effects of hormonal and other stimuli on cell-surface Ro/SSA antigen expression by human keratinocytes in vitro: their possible role in the induction of cutaneous lupus lesions

Ultraviolet B light (UVB) has previously been shown to induce the expression of the extractable nuclear antigens (e.g. Ro/SSA) on the surfaces of human keratinocytes in vitro. This study assessed whether injurious, metabolic, inflammatory, immunological or hormonal stimuli would also induce this expression or modulate that produced by UVB. No stimulus initiated expression alone, but 17-beta oestradiol doubled that found in response to UVB. These findings confirm the potential role of UVB in the initiation and potentiation of cutaneous lupus lesions and may help to explain the female preponderance of the disease.

Interferon-gamma modulates terminal differentiation and the expression of desquamin in cultured keratinocytes

Interferon (IFN)-gamma has been shown to modulate cell differentiation and the expression of cell surface molecules of cultured human keratinocytes; it also induces cell shedding. We have previously described the properties of desquamin, a cell surface adhesion molecule from the stratum corneum. We report here on the impact of IFN-gamma on the expression of desquamin. We document the related morphological changes in terminal differentiation. We cultured human keratinocytes in three different culture systems: in serum-free medium at low Ca2+ (0.1 mM), at high Ca2+ (1.5 mM), and at high Ca2+ with 10% serum. IFN-gamma (100 U/ml) was added to each culture system after overnight incubation. In all cases, IFN-gamma induced an altered phenotype, as shown by phase contrast and electron microscopy. We exposed cultured cells to antibodies to the desquamins (glycoproteins from the stratum corneum). Immunoflurescent localization and Western blotting showed that the desquamins were expressed only under culture conditions where both serum and IFN-gamma were present. The induction of desquamin expression by IFN-gamma coupled with an increase in cell shedding, suggests that we have developed a suitable culture system for the study of desquamation in vitro.

Regulation of 12(S)-hydroxyeicosatetraenoic acid (12(S)-HETE) binding sites on human epidermal cells by interferon-gamma

We recently detected specific high-affinity binding sites for 12(S)-HETE, the main arachidonic acid metabolite in skin, on epidermal cells. The putative receptor is involved in keratinocyte chemotaxis toward 12(S)-HETE, which points to its participation in wound healing. In an effort to further characterize the 12(S)-HETE receptor, we investigated its regulation by various cytokines. Of the tested cytokines, only interferon (IFN)-gamma led to a massive induction of the 12(S)-HETE receptors. The effect was dose and time dependent and blocked by cycloheximide. The up-regulation of 12(S)-HETE receptors by IFN-gamma may represent an amplification mechanism of the assumed role of 12(S)-HETE in skin wound repair.

Effect of gamma-interferon on lectin-binding glycoproteins in cultured human keratinocytes

We report the effect of exposure of human keratinocyte cultures to human recombinant gamma-interferon (g-IFN) on the expression of glycoproteins. Concanavalia ensiformis agglutinin (Con-A), and Arachis hypogaea agglutinin (PNA) were used to investigate expression of glycoproteins. NP-40 extracts from cultures grown with or without 100 U/ml g-IFN were analyzed by incubation of SDS-polyacrylamide gels with 125I-labeled lectins. Comparison of Con-A binding glycoprotein profiles showed both qualitative and quantitative changes related to the effect of g-IFN. Differences were also apparent after labeling of the gels with PNA. A limited number of components were labeled, with most of the reactivity falling within a couple of diffuse bands with high molecular weight (300 to 360 kDa). These components were strongly labeled in extracts from cells grown in the presence of g-IFN, but weakly reactive in control cultures. Neuraminidase treatment unmasked a 205 kDa PNA binding molecule only when cells were cultured in the absence of g-IFN. These changes are interpreted in terms of increased keratinocyte differentiation induced by g-IFN and demonstrate that glycoproteins bearing carbohydrate residues available to lectins Con-A and PNA have to be taken into account to better understand the complex action of this lymphokine. In inflammatory lesions, such changes in the glycoproteins of keratinocytes expressing HLA-DR antigens remain to be explored.

Modulation of bullous pemphigoid antigens by gamma interferon in cultured human keratinocytes

We report the effects of human recombinant gamma interferon (gamma-IFN) on the expression of bullous pemphigoid (BP) antigens by human cultured keratinocytes. Secondary epidermal cell cultures were grown on 3T3 mouse fibroblasts; when confluent, some cultures were maintained in control medium while others were exposed to various concentrations of gamma-IFN (100, 200, 400 U/ml) for 14 days. The expression of BP antigens was analyzed by indirect immunofluorescence on epithelial sheets and immunoblotting of Tris, SDS, beta-mercaptoethanol culture extracts using different BP sera. Our results show that gamma-IFN alters the expression of BP antigens in a way varying according to the skin donor: we observed results ranging from complete loss and decreased expression to unchanged reactivity patterns. Thus, gamma-IFN modifies BP antigen expression; this behavior has been previously shown for other adhesion molecules such as fibronectin and thrombospondin. However, the observed variability of the expression of BP antigens according to the skin donor suggests an unexpected variability in keratinocyte sensitivity to gamma interferon, which remains to be explored both in vitro and in vivo.

Effects of recombinant interleukin 1 and interleukin 2 on human keratinocytes

The effects of recombinant interleukin 1 alpha and beta, as well as recombinant interleukin 2, on human keratinocyte proliferation were studied in serum-containing as well as defined media. Both interleukin 1 preparations did not stimulate keratinocyte growth; interleukin 2 also did not stimulate keratinocyte growth. To determine whether interleukin 1 beta binds to keratinocytes, a cell membrane assay was developed for these cells. Iodinated interleukin 1 beta binds to keratinocytes with a kD of 6.2 nm and 2500 receptors per cell. To determine the effects of interleukin 1 beta on protein synthesis, the molecular patterns of radiolabeled cell extracts of interleukin 1 beta-treated and nontreated keratinocytes were compared using two-dimensional polyacrylamide gel electrophoresis. No significant changes in the molecular pattern of newly synthesized proteins were detected. Finally, none of these lymphokines induced HLA-DR expression by keratinocytes.

Review of keratinocyte culture techniques: problems of growing skin

Keratinocyte cell culture has been studied by a large number of investigators, resulting in an extensive body of often contradictory literature. The advantages and disadvantages of the two major techniques, explant and disaggregated culture, will be examined, followed by a critical evaluation of the major technical variables. Suggested standardized methods for both explant and disaggregated culture, and the indications for the use of each, will be proposed. Finally, further directions for basic research will be suggested in order to improve this useful tool.

Inhibitory effect of gamma interferon on cultured human keratinocyte thrombospondin production, distribution, and biologic activities

Rapidly proliferating keratinocytes (KCs) maintained in low calcium, serum-free medium produce and utilize thrombospondin (TSP) as an attachment and spreading factor. To begin to understand the modulation of KC TSP metabolism, gamma interferon (IFN-gamma), a product of activated T lymphocytes, was added to KC cultures. IFN-gamma was chosen because activated T cells appear at sites of cutaneous injury. Two additional cytokines including tumor necrosis factor (TNF) and IFN-beta were also examined. IFN-gamma (600 U/ml), but not TNF (500 U/ml) or IFN-beta (10(3) U/ml), as single agents decreased KC TSP biosynthesis, secretion, and utilization as an attachment factor. IFN-gamma alone did not detectably decrease TSP mRNA levels suggesting a post-transcriptional effect in KCs. However, the combination of IFN-gamma (600 U/ml) and TNF (500 U/ml) inhibited TSP mRNA production. These results demonstrate the modulation of KC TSP metabolism and biologic activity.

A comparative study of protein synthesis by keratinocytes and fibroblasts in vitro using two-dimensional gel electrophoresis and dual isotope autoradiography

A procedure is described for the detection of keratinocyte specific proteins. Fibroblasts and keratinocytes were isolated from human skin and radiolabelled in vitro. Samples were separated by two-dimensional polyacrylamide gel electrophoresis to compare the proteins synthesised by the different types of cultured skin cells. Dual label autoradiography of samples radiolabelled with [35S]methionine and [75Se]selenomethionine was used to identify keratinocyte specific proteins. We report 45 keratinocyte-specific components and identify some of these proteins. The differential expression of these proteins and their relevance to epidermal differentiation are discussed.

Role of transforming growth factor beta in the maturation of human epidermal keratinocytes

Changes in protein synthesis and phosphorylation in cultured human keratinocytes in response to TGF-beta have been examined by one and two dimensional electrophoresis. Transforming growth factor beta has been shown to cause little change in the rate of methionine incorporation in the concentration range in which growth is reversibly arrested. It does, however, prevent the labeling of certain specific bands detected on gels of triton-soluble proteins after 3 days of treatment. Phosphorylation of triton-soluble proteins is inhibited at concentrations of TGF-beta rather higher than the Kd of its receptor and may represent a nonphysiological effect. Nonetheless, the phosphorylation of certain prominent species is reduced. In keratinocytes cultured in delipidated serum, which show some expression of keratin 1 (67 kd) characteristic of normal maturation, TGF-beta reduces the incorporation of methionine into this keratin 1 and increases labeling of keratins 6 and 16. Transforming growth factor beta thus promotes regenerative maturation, which is normally expressed during wound healing. The ability of TGF-beta to arrest keratinocyte growth in a reversible manner and to stimulate regenerative maturation, supports its physiological role in controlling the balance between cell division, migration and maturation during epidermal wound healing.

Binding of 125I-gamma interferon to cultured human keratinocytes

Gamma interferon (IFN-gamma), a product of activated lymphocytes, influences keratinocyte proliferation and differentiation. Recombinant gamma interferon (r-IFN-gamma) was radioiodinated using the Bolton-Hunter reagent and retained 90% of its biologic activity as determined by induction of HLA-DR expression. The biochemical ligand-binding properties of iodinated IFN-gamma to cultured human keratinocytes revealed a plateau of binding at 150 min at 4 degrees C, and a single class of specific high affinity receptors (kD = 1.3 X 10(-10) M; 2200 sites/cell). The binding of human IFN-gamma, to keratinocytes was inhibited by human r-IFN-gamma, but not by either murine recombinant gamma interferon or human recombinant beta interferon (r-IFN-beta). The presence of high affinity receptor sites on human keratinocytes assures the reception of appropriate immunologic signals in lymphocyte-keratinocyte interactions.