Effect of strain on human keratinocytes in vitro

Tissue expansion, a technique to enlarge the skin surface area with an expandable balloon, has been widely used in reconstructive surgery. Although the effect of tissue expansion on in vivo skin physiology and histology has been well documented, it remains unclear whether keratinocytes or other cell types are responsible for these changes. Therefore, we investigated the in vitro effect of cyclic (10 cycles/min, 150 mmHg) or constant (continuous, 150 mmHg) strain on human keratinocyte phenotype and relevant mechanosignaling pathways. Our results demonstrate that keratinocytes subjected to cyclic strain exhibit a significant (P < 0.05) increase in cell proliferation (49.2 ± 15.8%), DNA synthesis (37.7 ± 4.5%), elongation (20.3 ± 2.7%), and protein synthesis (17.9 ± 6.6% increase) as compared with stationary controls. In contrast, keratinocytes subjected to constant strain were unaffected aside from a modest transitory increase in the proliferative rate. Keratinocytes subjected to cyclic strain aligned perpendicular to the force vector (24.2 ± 1.6°) as compared with stationary controls (40.4 ± 2.2°; the smaller degree indicates better alignment). We also report strain-induced reduction in the levels of cyclic adenosine mono phosphate (cAMP), protein kinase A (PKA), and prostaglandin E₂ (PGE₂) as compared with stationary controls (cAMP, 30 ± 7.5%; PKA, 45 ± 17%; PGE₂, 58 ± 4.3%; percent decrease vs. that of control). We conclude that direct application of cyclic strain on human keratinocytes modulates cell phenotype and cAMP-mediated signaling pathways in an inverse manner. Moreover, keratinocytes may play an important role in previously observed alterations in skin properties associated with tissue expansion and other strain-induced responses. J. Cell. Physiol. 173:64–72, 1997. © 1997 Wiley-Liss, Inc.     

Chloramphenicol induces in vitro growth arrest and apoptosis of human keratinocytes

Chloramphenicol (CAP) is a broad-spectrum antibacterial drug that is widely used for topical application in ophthalmology and dermatology. In the present study we investigated the influence of CAP on human keratinocyte proliferation and apoptosis in vitro. CAP significantly inhibited proliferation and induced apoptosis of cultivated human keratinocytes, as revealed by incorporation of radioactive thymidine and flow cytometry analysis of intracellular esterase activity in fluorescein diacetate-stained cells, respectively. CAP-induced keratinocyte apoptosis was associated with activation of caspases and increased production of reactive oxygen species. The pro-apoptotic action of CAP was antagonized by the antioxidant agent N-acetylcysteine, the protein synthesis inhibitor cycloheximide, and PD98059, a selective inhibitor of extracellular signal-regulated kinase (ERK) activation. Taken together, these data indicate that CAP inhibits keratinocyte proliferation through induction of oxidative stress and ERK-mediated caspase-dependent apoptosis.     

Effect of keratinocyte growth factor on radiation survival and colony size of human epidermal keratinocytes in vitro.

Keratinocyte growth factor (FGF7, also known as KGF) ameliorates the radiation response of mouse oral mucosa and other epithelial tissues. However, the precise mechanisms remain unclear. The aim of the present study was to investigate the effect of FGF7 on the survival and colony size of normal human epidermal keratinocytes in vitro. Primary neonatal keratinocytes (HEKn) were irradiated with doses of 0 and 2 Gy of 200 kV X rays and incubated in the presence or absence of 100 ng/ml FGF7. The plating efficiency (PE) and surviving fraction (SF2) were determined using a clonogenic assay. In cell cultures without FGF7, the mean PE was 4.6 +/- 0.2%. Irradiation with 2 Gy resulted in an SF2 of 51 +/- 2%. In cell cultures with FGF7, the mean PE was identical, and a similar SF2 of 54 +/- 1% was observed (P = 0.4). However, the individual colony size was significantly increased in all cultures incubated with FGF7 compared to those incubated without FGF7. The number of extremely large colonies (> or =2 mm) was clearly higher (P < 0.0001) in cultures with FGF7. This was accompanied by a significant reduction in the diameter of individual cells from 29 microm in controls to 23 microm with FGF7. In conclusion, FGF7 does not affect the survival of keratinocytes after irradiation, but it does stimulate proliferation of surviving cells.     

Induction of human microvascular endothelial tubular morphogenesis by human keratinocytes: involvement of transforming growth factor-alpha.

Transforming growth factor-alpha(TGF-alpha), homologous to epidermal growth factor(EGF), is closely involved in hyperproliferation of human keratinocytes. Psoriasis is a common hyperproliferative skin disease characterized by hyperproliferation of keratinocytes and abnormal development of dermal capillary networks. In this study, we have examined whether keratinocytes could enhance angiogenesis. TGF-alpha or EGF efficiently stimulated formation of tubular-like structures of human omental microvascular endothelial(HOME) cells in type I collagen gels. Human keratinocytes produced TGF-alpha. To examine whether co-cultured keratinocytes could induce tubulogenesis of HOME cells in collagen gel, we have developed a co-culture system with human keratinocytes. Surprisingly, there appeared new development of many tubular-like structures of HOME cells in collagen gels when co-cultured with keratinocytes. This keratinocytes-dependent tubulogenesis was almost completely blocked when anti-TGF-alpha-antibody was present. The TGF-alpha molecules derived from keratinocytes appeared to enhance tubulogenesis of human microvascular endothelial cells. We propose the hypothesis that secretory TGF-alpha from human keratinocytes may promote an autocrine loop to proliferate the skin keratinocytes and also a paracrine loop to induce the skin angiogenesis.     

Effect of placental factors on growth and function of the human fetal adrenal in vitro

Conditioned medium from human placental monolayer cultures (PM) had a marked stimulatory effect on proliferation (3H-thymidine uptake) of human fetal zone adrenal cells in primary monolayer culture, even in the absence of serum. Epidermal growth factor (EGF) and fibroblast growth factor (FGF) also significantly stimulated fetal adrenal cell growth. However, the effects of PM differed from those of EGF and FGF in several respects: 1) maximal response to PM was 2-5 times greater; 2) mitogenic effects of EGF and FGF were suppressed by adrenocorticotropic hormone (ACTH), whereas that of 50% PM was not; 3) PM inhibited ACTH-stimulated steroidogenesis (dehydroepiandrosterone sulfate and cortisol), but EGF and FGF did not. Preliminary characterization studies have indicated that approximately half of the placental growth-promoting activity is heat resistant and sensitive to bacterial proteases, and that 50-60% of the activity is lost after dialysis with membranes having a molecular weight cutoff of 3500. These findings suggest a role for the placenta in the growth and differentiated function of the human fetal adrenal gland.     

Effect of vitamin A on epithelial morphogenesis in vitro

Quiescent confluent monolayers of WI-38 human diploid fibroblasts and of 3T6 mouse fibroblasts were stimulated to proliferate by nutritional changes. WI-38 cells had a stringent requirement for serum factor(s) but 3T6 did not require serum in order to proliferate again. In both cell lines there was an early increase in the synthesis of non-histone chromosomal proteins shortly after stimulation of cellular proliferation and this increase was linearly correlated to the number of cells entering the S phase several hours later. Only WI-38 diploid fibroblasts, however, showed an early increase in chromatin template activity 1 h after stimulation of cellular proliferation, while chromatin template activity in 3T6 cells remained unchanged. It is suggested that the activation of gene function represents a critical step for the passage of WI-38 cells in the G0 resting phase to the G1 phase of the cell cycle. It is also suggested that 3T6 cells are unable to enter or stay in a G0 phase but can be arrested predominantly in the G1 phase by nutritional deficit, probably amino acid starvation.     

Extracellular matrix and growth factors in branching morphogenesis

The unifying hypothesis of the NSCORT in gravitational biology postulates that the ECM and growth factors are key interrelated components of a macromolecular regulatory system. The ECM is known to be important in growth and branching morphogenesis of embryonic organs. Growth factors have been detected in the developing embryo, and often the pattern of localization is associated with areas undergoing epithelial-mesenchymal interactions. Causal relationships between these components may be of fundamental importance in control of branching morphogenesis.     

Dioxin induces transforming growth factor-alpha in human keratinocytes

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD), a widespread environmental toxicant, is a tumor promoter that induces hyperplasia in epithelial cells. Exposure of cultured human keratinocytes to TCDD, resulted in a time-dependent dioxin-specific Ah receptor-mediated release of transforming growth factor-alpha (TGF-alpha) into the culture medium. Cultures exposed to TCDD showed a rate of TGF-alpha secretion into the medium of about 30 fmol/ml/day, as well as a 3- to 6-fold increase in TGF-alpha mRNA expression. Increased production of TGF-alpha in human keratinocytes exposed to TCDD demonstrates a modulation of autocrine regulation in those cells. These results suggest that induction of TGF-alpha could be an important part of the mechanism of dioxin-mediated toxicity and tumor promotion.     

Retention of differentiated characteristics in human fetal keratinocytes in vitro

Summary Many of the morphologic and biochemical changes that occur during human fetal skin development have been described, yet there has been little experimental analysis of the processes that regulate the development of human fetal skin. This is due in part to difficulties in culturing human fetal epidermal keratinocytes. We have successfully cultured fetal keratinocytes in two different in vitro systems; in a serum-free keratinocyte growth medium (KGM) on tissue culture plastic and cocultured with dermal fibroblasts as spheroidal aggregates. To characterize these fetal keratinocytes in vitro we have assessed their ability to express several markers of epidermal differentiation. Human fetal keratinocytes grown on plastic in KGM stratify and express some of the components of the differentiated epidermis, such as involucrin and the high molecular weight keratins. However, these keratinocytes co-express keratins and vimentin and do not form a structured basement membrane. More characteristics of fetal skin are preserved in mixed aggregates of epidermal keratinocytes and dermal fibroblasts including epidermal stratification, synthesis of basement membrane components, tissue-specific expression of intermediate filaments, involucrin, and expression of high molecular weight keratins. The maintenance of human fetal epidermal keratinocytes in these two in vitro systems and their ability to express many differentiated characteristics suggests that these cultures will be valuable for studies of the molecular mechanisms that regulate the regionally specific differentiation of the human fetal epidermis. This work was supported by the Dermatology Foundation Fellowships funded by Herbert Laboratories and The Upjohn Company and awarded to A. R. H., NIH Training Program in Dermatological Research #5T32AR07472, and NIH grant #5R01HD20996 to A. T. L. Publication no. 74 of the Dermatology Department, University of Rochester, Rochester, NY.     

Effect of growth factors on in vitro development of caprine preantral follicle oocytes

The objective of this work was to examine the effect of various growth factors including epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I), either individually or in association, in the presence of follicle stimulating hormone (FSH) on the in vitro growth and viability of caprine preantral follicle oocytes. Preantral follicles were disassociated enzymatically and mechanically from prepuberal caprine ovaries after the animals were anesthetically ovariectomized. In experiment, caprine preantral follicles in groups 1–4 were cultured in growth culture medium, growth culture medium + EGF, growth culture medium + IGF-I and growth culture medium + IGF-I + EGF, respectively, for 9 days. The results indicated that EGF (50 mg/l) increased the survival rate of oocytes, but decreased the growth rate of oocytes; IGF-I (100 mg/l) effectively maintained the survival of oocytes and stimulated their growth; IGF-I (100 mg/l) and EGF (50 mg/l) in combination produced a higher effect on both of the survival and the growth rate of oocytes than IGF-I or EGF alone. Conclusively, the growth factors can effectively maintain the survival of caprine preantral follicle oocytes and regulated their growth in culture. EGF and IGF-I in association could synergically meliorate the culture system of caprine preantral follicle oocytes.     

Effect of growth factors on the differentiation of chick precardiac mesoderm in vitro

We have found that precardiac mesoderm extirpated from chicken blastoderm at stage 5 fails to differentiate into beating tissue when cultured in Eagle's minimum essential medium (MEM), while it can pulsate provided either the endoderm is present or serum is added to the MEM. To identify the factor(s) which influence early myocardial differentiation, we examined the effect of insulin-like growth factor 1 (IGF-1), activin A and basic fibroblast growth factor (bFGF). All these growth factors showed a stimulating effect on myocardial differentiation and it is conceivable that these factors exhibit the same effect in vivo. Correspondence to: Y. Yamazaki     

Induction of epithelial tubular morphogenesis in vitro by fibroblast-derived soluble factors

We have designed an in vitro system in which Madin-Darby canine kidney (MDCK) epithelial cells are cocultured in collagen gels with fibroblasts under conditions precluding heterocellular contact. Using this experimental approach, we have obtained evidence that fibroblast-derived soluble factors play a crucial role in the control of epithelial morphogenesis. First, MDCK cells suspended alone in collagen gels form spherical cysts, whereas in the presence of fibroblasts they form branching tubules. Second, MDCK cells grown as a monolayer on fibroblast-containing collagen gels invade the underlying matrix, within which they form a network of tubules. Third, fibroblast-conditioned medium mimics the effects of coculture by eliciting tubulogenesis by MDCK cells. These results demonstrate the involvement of diffusible paracrine factors in morphogenetic epithelial-mesenchymal interactions and provide a strategy for their molecular characterization.     

Environment-dependent growth inhibition of human epidermal keratinocytes by recombinant human transforming growth factor-beta

Transforming growth factor-beta (TGF-beta) purified from platelets is a potent growth inhibitor of several normal epithelial cell types in culture. In contrast, some carcinoma cell lines derived from tumors of these same tissues are resistant to this factor. Using recombinant human TGF-beta, the authors have confirmed these results with six normal human epidermal keratinocyte strains and four human epidermal squamous carcinoma cell lines. However, the sensitivity of normal cells to TGF-beta was found to depend on the culture conditions. When grown in a specialized nutrient medium supplemented with pituitary extract, keratinocytes were completely inhibited by the addition of 0.3 ng/ml TGF-beta. In contrast, when their growth was supported by cocultivation with 3T3 fibroblast feeder cells, 30- to 100-fold higher concentrations of TGF-beta were required to achieve comparable growth inhibition. This differential sensitivity occurred despite the fact that in both culture systems TGF-beta in the culture medium had a half-life of about 50 minutes, becoming tightly bound to the surface of the culture dish. Bound TGF-beta proved to be biologically active and stable for about a week in the absence of 3T3 feeder cells. Incubating 3T3 cells on TGF-beta-coated dishes, however, resulted in nearly quantitative removal and degradation of the TGF-beta within 2 days, permitting normal rates of keratinocyte growth. The binding of TGF-beta to surfaces and the ability of fibroblasts to attenuate its inhibitory activity for epithelial cells must be considered when evaluating in vitro models and in planning strategies for the use of this factor in vivo.     

Effect of growth factors on hyaluronan synthesis in cultured human fibroblasts.

The effect of various growth factors on the synthesis of hyaluronan in human fibroblasts was investigated. When tested in medium containing 0.5% fetal calf serum, platelet-derived growth factor (PDGF)-BB was found to stimulate hyaluronan synthesis; the maximal response was equal to or higher than that obtained with 10% fetal calf serum. PDGF-AA gave only a limited effect, indicating that the stimulatory effect of PDGF on hyaluronan synthesis was mainly transduced via the B-type PDGF receptor. Epidermal growth factor (EGF), basic fibroblast growth factor (bFGF) and transforming growth factor (TGF)-beta 1 also stimulated hyaluronan synthesis; their effects were less than that of PDGF-BB, but combinations of factors produced potent stimulatory effects on hyaluronan synthesis. All factors stimulated hyaluronan synthesis in sparse as well as dense cultures. The effects of the factors on hyaluronan synthesis did not correlate with their mitogenic activities; PDGF-BB, EGF and bFGF are equipotent mitogens, but PDGF-BB had a much more potent effect on hyaluronan synthesis, and TGF-beta actually inhibits the growth of fibroblasts under the conditions of the assay.     

Effect of hormones and growth factors on in vitro development of sheep preantral follicles

The present investigation attempts to improve the frequency of in vitro maturation of oocytes by culturing small (150–250 μm) and large (>250–400 μm) preantral follicles (PFs) of sheep for 6 days in various combinations/sequences of thyroxin (T₄), FSH, LH, transforming growth factor alpha (TGF-), epidermal growth factor (EGF) and heat-treated foetal calf serum (FCS). Bicarbonate-buffered tissue culture medium 199, supplemented with 50 μg ml⁻¹ gentamicin sulphate, served as the control medium. In vitro development was initially assessed by the proportion of PFs exhibiting an increase in size, mean increase in diameter and antrum formation. Nuclear maturation to the metaphase II stage of the oocytes isolated from cultured PFs, after an additional 24-h in vitro maturation, indicated success. A total of 15% of oocytes from small PFs and 55% from large PFs, cultured in T₄ + FSH, matured to metaphase II. Culture of PFs in other combinations/sequences of hormones and growth factors, including the control medium, supported a significantly lower proportion of oocytes maturing to metaphase II stage. It is concluded that 6-day in vitro culture of sheep PFs in thyroxin and FSH greatly improves the frequency of oocyte maturation to metaphase II stage.     

Investigation of the influence of keloid-derived keratinocytes on fibroblast growth and proliferation in vitro

Keloids are disfiguring, proliferative scars that represent a pathological response to cutaneous injury. The overabundant extracellular matrix formation, largely from collagen deposition, is characteristic of these lesions and has led to investigations into the role of the fibroblast in its pathogenesis. Curiously, the role of the epidermis in extracellular matrix collagen deposition of normal skin has been established, but a similar hypothesis in keloids has not been investigated. The aim of this study was to investigate the influence of keloid epithelial keratinocytes on the growth and proliferation of normal fibroblasts in an in vitro serum-free co-culture system. A permeable membrane separated two chambers; the upper chamber contained a fully differentiated stratified epithelium derived from the skin of excised earlobe keloid specimens, whereas the lower chamber contained a monolayer of normal or keloid fibroblasts. Both cell types were nourished by serum-free medium from the lower chamber.Epithelial keratinocytes from five separate earlobe keloid specimens were investigated. Four sets of quadruplicates were performed for each specimen co-cultured with normal fibroblasts or keloid-derived fibroblasts. Controls consisted of (1) normal keratinocytes co-cultured with normal fibroblasts, and (2) fibroblasts grown in serum-free media in the absence of keratinocytes in the upper chamber. Fibroblasts were indirectly quantified by 3- (4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide colorimetric assay, with results confirmed by DNA content measurement, at days 1 and 5 after the co- culture initiation.Significantly, increased proliferation was seen in fibroblasts co-cultured with keloid keratinocytes, as compared with the normal keratinocyte controls at day 5 (analysis of variance, p < 0.001). These results strongly suggest that the overlying epidermal keratinocytes of the keloid may have an important, previously unappreciated role in keloid pathogenesis using paracrine or epithelial-mesenchymal signaling.     

Effect of alpha-fetoprotein on the growth of human hepatoma cells in vitro]

The stimulatory activity of human alpha-fetoprotein (AFP) on the growth of mouse hepatoma-22 cells had been reported in our previous paper. The present work aimed at further investigation of the effect of AFP on human hepatoma cell growth by MTT colorimetric assay. The results showed that AFP could stimulate the growth of SMMC-7721 human hepatoma cells in vitro. The present results also showed that the stimulatory effect of AFP on the growth of SMMC-7721 cells was decreased by the anti-serum of AFP. The anti-AFP antibody alone could suppress the growth of SMMC-7721 cells. On the other hand, AFP and anti-AFP antibody had no effect on the growth of HL-60 human leukemia cells, indicating that the tumor cell growth stimulating effect of AFP was not simply due to non-specific addition of exogenous protein and this effect of AFP showed strict tumor cell specificity. In addition, MCF-7 human breast cancer cell growth was also promoted by AFP and inhibited by anti-AFP antibody. Because AFP cell-surface receptors have been detected in MCF-7 breast cancer cells, and AFP could also be produced and secreted by MCF-7 cells, the possibility may be considered: AFP may bind with its receptors on tumor cell membrane for the purposes of growth stimulation.     

Kinetics of the calcium induced stratification of human keratinocytes in vitro

In a low concentration of calcium (0.1 mM), keratinocytes form a monolayer with about 30% of cells synthesizing involucrin. After addition of calcium to the culture medium to a concentration of 1.2 mM, the monolayer stratifies within 24 h, with a preferential migration of involucrin positive keratinocytes. In the present study, we tried to determine if keratinocytes control the decision to migrate at a distinct cell cycle point. A percentage labelled mitosis (PLM) curve was constructed for keratinocytes grown in low calcium medium and values for the length of the cell cycle (47 h), S phase duration (11 h) and G2+M period (6 h), were obtained. Monolayer cultures at 80% confluence were switched to high calcium concentration at various times (from 0 to 48 h), after pulse labelling with [3H]-thymidine. Based on the PLM data, the behaviour of cells known to be in S, G1 and G2 at the time of the migration stimulus were followed. No significant difference in the percentage of labelled suprabasal cells was found for any point of the cell cycle. For cells submitting to stratification, in S phase involucrin staining showed that about 60% of the [3H]-thymidine labelled cells were also involucrin negative. These results indicate that upward migration of keratinocytes in cultured epithelium can be triggered at all points in the cell cycle with equal probability and is not restricted to those cells that already contained involucrin.     

Head and neck squamous cancer stromal fibroblasts produce growth factors influencing phenotype of normal human keratinocytes

Epithelial–mesenchymal interaction between stromal fibroblasts and cancer cells influences the functional properties of tumor epithelium, including the tumor progression and spread. We compared fibroblasts prepared from stroma of squamous cell carcinoma and normal dermal fibroblasts concerning their biological activity toward normal keratinocytes assessed by immunocytochemistry and profiling of gene activation for growth factors/cytokines by microarray chip technology. IGF-2 and BMP-4 were determined as candidate factors responsible for tumor-associated fibroblast activity that influences normal epithelia. This effect was confirmed by addition of recombinant IGF-2 and BMP4, respectively, to the culture medium. This hypothesis was also verified by inhibition experiments where blocking antibodies were employed in the medium conditioned by cancer-associated fibroblast. Presence of these growth factors was also detected in tumor samples.