Failure of hydrocortisone or growth factors to influence the senescence of fibroblasts in a new culture system for assessing replicative lifespan

It has been reported that the replicative lifespan of human fibroblasts can be substantially extended by supplementing the growth medium with hydrocortisone or increased levels of serum proteins. These observations have been made only on cell populations transferred many times at high cell density, and cumulative population doublings have been recorded, rather than a more direct measure of cell division potential. We have measured the replicative potential of human fibroblasts cultured so as to avoid conditions of high cell density, medium depletion, and departure from exponential growth. Two fetal lung and two newborn foreskin fibroblast strains were serially passaged in the presence or absence of hydrocortisone (HC), epidermal growth factor (EGF), and fibroblast growth factor (FGF) until they senesced. At each passage cells were plated at densities sufficiently low that colony-forming efficiency could be calculated. We determined cumulative population doublings and also estimated the number of cell generations attained under each condition. FGF caused small but possibly significant changes, while HC and EGF failed to substantially alter replicative lifespan. The reported effect of HC on the doubling potential of fetal lung fibroblasts is therefore not an inevitable action of this hormone on the senescence mechanism, but may instead depend for its apparent activity on the passage regimen used. The fibroblast's insensitivity to EGF as a modulator of replicative potential, as compared with the keratinocyte, whose lifespan can be tripled by EGF, implies that the mechanisms limiting the replicative potential of these two cell types are not identical.     

Effects of serum from human subjects of various ages on proliferation of human lung and skin fibroblasts

We carried out a study to determine whether serum from old human subjects inhibited cell proliferation. The results showed that serum from old subjects of either sex did not greatly inhibit the proliferation of human fetal lung fibroblast TIG-1 cells, even when serum from subjects in their 80s was used. The same results were obtained when the effects of serum on cell proliferation were examined up to a serum concentration of 50%. It was also found that serum from old subjects did not inhibit proliferation of human skin fibroblasts from a young adult to any greater degree than serum from young adult subjects, and that serum from young adult subjects did not stimulate proliferation of skin fibroblasts from an elderly donor to any greater degree than serum from old subjects.     

Differences in growth response to hydrocortisone and ascorbic acid by human diploid fibroblasts

Summary The effects of hydrocortisone and ascorbic acid on growth parameters were measured in human diploid skin fibroblasts from fetal and adult donors. In the presence of culture medium containing 10% fetal bovine serum, 0.3 μM hydrocortisone produced a 20% increase in the population growth rate and a 50 to 70% increase in the confluent density of fibroblasts from adult donors. Daily addition of 28 μM ascorbic acid also stimulated the population growth rate and cell density at confluency. The effects of hydrocortisone and ascorbic acid on the final cell density were additive. The action of hydrocortisone was restricted to cells in log-phase growth, whereas ascorbic acid affected cells in both the log and the postconfluent phases of the growth cycle. In fibroblasts from fetal donors, ascorbic acid was stimulative but hydrocortisone was not. The data suggest that whereas both compounds stimulate cell growth in an additive manner, they do so by different cellular mechanisms. This investigation was supported in part by USPHS Grants AM 02456, AM 05020 and AM 15312, and by the Kroc Foundation, No. UW 63-2986. Dr. Rowe is a fellow of the Helen Hay Whitney Foundation. Dr. Fujimoto is a recipient of a Research Career Development Award, AM 47142, from NIAMDD.     

Effects of static magnetic fields on the growth of various types of human cells

The effects of a static magnetic field (SMF) on the proliferation of various types of human cells were determined. All cultures were maintained at 37 °C throughout the experiment. SMF was generated by placing two magnets oppositely oriented on either side of a T25 flask. The flux density in the flask ranged from 35 to 120 mT. Growth curves were constructed by plotting cell number at 18 h and 4, 7, 11, and 14 days after seeding, with the 18‐h point being a measure of attachment efficiency. Exposure to SMF significantly decreased initial attachment of fibroblasts and decreased subsequent growth compared to sham‐exposed control. Significant effects were observed in both fetal lung (WI‐38) and adult skin fibroblasts, but they were generally larger in the fetal lung fibroblast line. SMF did not affect attachment of human melanoma cells, but inhibited their growth by 20% on day 7. SMF produced no effects in a human adult stem cell line. Oxidant production increased 37% in WI‐38 cells exposed to SMF (230–250 mT) during the first 18 h after seeding, when cell attachment occurs. Conversely, no elevation in oxidant levels was observed after a prolonged 5‐day exposure. These results indicate that exposure to SMF has significant biological effects in some, but not all types of human cells. Bioelectromagnetics 32:140–147, 2011. © 2010 Wiley‐Liss, Inc.     

Molecular cloning of actin filament-associated protein: a putative adaptor in stretch-induced Src activation

Mechanical stretch-induced activation of c-Src is an important step for signal transduction of stretch-induced fetal rat lung cell proliferation. This process appears to be mediated through actin filament-associated protein (AFAP), encoded by a gene originally cloned from the chicken. In the present study, we cloned the rat AFAP gene from fetal rat lungs. Its mRNA and protein are differentially expressed among various tissues. The protein is colocalized with actin filaments in fetal rat lung epithelial cells and fibroblasts. Mechanical stretch increased tyrosine phosphorylation of rat AFAP and its binding to c-Src within the initial several minutes. Src SH2 and SH3 binding motifs are highly conserved in the AFAP proteins (from chicken, rat to human). On the basis of the molecular structure of AFAP protein, we speculate that it is an adaptor in mechanical stretch-induced activation of c-Src. A novel model of mechanoreception is proposed.     

Fibroblast heterogeneity in glucocorticoid regulation of collagen metabolism: Genetic or epigenetic?

Summary Cultured fibroblasts derived from normal human dermis show a consistent 62% inhibition of collagen synthesis by hydrocortisone, whereas cultures derived from keloids average only 30% inhibition and show a much larger strain to strain variation ranging from 75% inhibition to 49% stimulation. Examination of fibroblast clones indicates that this high variation among keloid strains is not due to differences in the proportion of normal and keloid cells in the mass culture populations. Small but significant differences in the effect of hydrocortisone on collagen deposition are also seen among these clonal populations, but are not related to the type of tissue from which cultures were derived. Two to three-fold differences among clones derived from a single individual were observed, possibly suggesting functional heterogeneity of dermal fibroblasts with regard to collagen metabolism under control conditions and in response to hydrocortisone. However, this variation among clones may simply reflect differences in clonal growth, inasmuch as both collagen synthesis and deposition, and the effect of hydrocortisone on these processes, are strongly affected by population density. This work was supported in part by PHS grants, CA-17229 from the National Cancer Institute and AG-02046 from the National Institute on Aging, DHHS; and by Grant RIM 78-17313 from the National Science Foundation.     

Hydrocortisone stimulates fibronectin synthesis in cultured fibroblasts

The effect of hydrocortisone on fibronectin synthesis was investigated in cultured skin fibroblasis. Confluent cells were treated with hydrocortisone (10^?7 M to 10^?5 M) for 2 days and labeled with [³H]proline for 24 h. Fibronectin levels in both the culture medium and the cell layer were studied by gelatin-Sepharose affinity chromatography and SDS-polyacrylamide gel electrophoresis. In control cultures of human fetal skin fibroblasts, fibronectin constituted 8% of the total labeled proteins in the medium. The proportion of fibronectin increased to 13.1% at 10^?7 M hydrocortisone, 15.5% at 10^?6 M and to 19.4% at 10^?5 M. The proportion of fibronectin associated with the cell layer remained at 2-3% of total [³H]prolne-labeled proteins and did not increase with hydrocortisone exposure. The stimulating effect of hydrocortisone on medium fibronectin was also demonstrated in cultured human newborn foreskin fibroblasts and in rabbit skin fibroblasts.     

The effect of mechanical strain on fetal rat lung cell proliferation: Comparison of two-and three-dimensional culture systems

Summary Normal growth of the fetal lung is dependent on fetal breathing movements. We have previously reported that an intermittent strain, which simulates normal fetal breathing movements, stimulates DNA synthesis and cell division of mixed fetal rat lung cells maintained in organotypic cultures. To examine which cell type is responding to mechanical strain and to investigate whether the effects of strain on cell proliferation and mechanotransduction are affected by tissue architecture, we isolated fetal lung cells and subjected them to intermittent strain either as two-dimensional monolayer cultures or as three-dimensional organotypic cultures. Strain enhanced DNA synthesis of mixed cells, epithelial cells, and fibroblasts when cultured in a three-dimensional configuration. In contrast, no stimulatory effect on cell proliferation was observed depending on the culture conditions. These results suggest that mechanical strain stimulates the proliferation of both epithelial cells and fibroblasts and that the response of fetal lung cells to mechanical strainin vitro depends on cellular architecture.     

Effects of establishing cell cultures and cell culture conditions on the proliferative life span of human fibroblasts isolated from different tissues and donors of different ages

It is well known that normal human cells placed in a culture environment exhibit a limited proliferative capacity. The extent to which the culture environment influences proliferative life span is not understood. This study evaluated the effects of the standard procedures used to establish and maintain cultures on the proliferative life spans of different types of human fibroblast cells established from fetal and adult skin and lung. The results of this study demonstrate that procedures to establish cell cultures use only one of several subpopulations of cells present in biopsy pieces and that the culture conditions routinely employed by most laboratories can exert significant effects on proliferative life-span determinations. The maximum proliferative life span differed significantly when obtained by growing the cells in two commonly used commercial media. Proliferative life span was inversely related to ambient oxygen tension and directly related to seeding density in all of the lines examined although lines established from adult skin were much more resistant to toxicity. Enzymatic antioxidant defense levels of fetal skin fibroblasts were much lower than those observed in adult skin fibroblasts, but the effects of oxygen on their life spans were similar. Hyperoxia induced larger increases in glutathione concentration in cell lines with low antioxidant enzyme levels.     

Some metabolic differences between human skin and aponeurosis fibroblasts in culutre

Two types of human fibroblast strains were studied in culture. One was derived from abdomen skin and the other from abdominal muscle aponeurosis. Tissue-specific differences were found between thése two cell strains. Skin fibroblasts had faster doubling time, smaller cell volume, and lower glucose consumption when compared to aponeurosis fibroblasts. Furthermore, extracellular amino acid variations showed some specific differences, in particular a lack of serine consumption in skin fibroblasts.     

Preparation of fibroblast-free cytotrophoblast cultures utilizing differential expression of the CD9 antigen

Summary The leukemia-associated antigen CD9 is present on a variety of normal cells, with apparent variable expression on normal human fibroblasts. In this study, we demonstrate by immunoperoxidase staining and direct binding studies that the CD9 antigen is uniformly expressed on normal human fibroblasts grown from first trimester and term placenta, embryonic fetal fibroblasts, and from human adult and fetal skin fibroblasts. Higher CD9 expression was present on fetal cells. CD9 antigen was not present on trophoblast. Over 99% of fibroblasts could be absorbed onto antibody to the CD9 antigen conjugated to magnetic beads. By applying this selective immunoadsorption of fibroblasts to term placental cytotrophoblast preparations, we demonstrated that fibroblast contamination could be nearly completely eliminated. This is a novel technique for purifying primary trophoblast cultures and may have wider applicability in cell culture of other cell types.     

Glucocorticoid receptors in human fibroblasts derived from normal dermis and keloid tissue

Hydrocortisone stimulates proliferation and System A amino acid transport in cultured human fibroblasts, while decreasing production of collagen. Fibroblasts isolated from keloid tissue have an unusual glucocorticoid response; they are hyporesponsive with regard to proliferation and collagen production but hyperresponsive with regard to the induction of System A amino acid transport (Russell, J. D., Russell, S. B., and Trupin, K. M. (1978) J. Cell. Physiol. 97, 221-229; Russell, S. B., Russell, J. D., and Trupin, J. S. (1982) J. Biol. Chem. 256, 9525-9531). We show here that despite these differences, the glucocorticoid receptors of keloid cells do not differ from those of normal dermal fibroblasts in steroid specificity, dissociation constant (Kd), total number of binding sites (Bmax), or nuclear binding of glucocorticoid-receptor complexes. A single glucocorticoid binding species of molecular weight 93,000 was found in both cell types. A monolayer assay for glucocorticoid receptor binding is described which facilitates analysis of multiple strains of cultured cells. This assay gives the same specificity and dissociation constants as the conventional cytosol assay, but it is more sensitive. The magnitude of induction of System A amino acid transport was found to be directly proportional to glucocorticoid receptor occupancy in both keloid-derived and normal fibroblasts. This induction requires serum, which can be replaced with 1 nM insulin.     

Developmental differences in the immortalization of lung fibroblasts by telomerase

The role of ambient (21%) and physiological oxygen (2-5%) in the immortalization of fetal vs. adult human lung fibroblasts was examined. Growth in low oxygen and antioxidants extended the lifespan of both fetal and adult strains. As the ectopic expression of telomerase could immortalize adult lung fibroblasts cultured in ambient oxygen, the lifespan-shortening effects of 21% oxygen must have been largely limited to telomeres. By contrast, fetal lung fibroblasts could not be immortalized in ambient oxygen in spite of telomere elongation by telomerase, suggesting more widespread oxidative damage. The long-term culture requirements for the immortalization of WI-38 fetal lung fibroblasts included supplementation with N-(tert) butyl hydroxylamine, dexamethasone, zinc and vitamin B12, in addition to growth in physiological oxygen. The mechanisms regulating telomere shortening remain controversial. The present results suggest that both end-replication and oxidative damage events contribute to telomere shortening in lung fibroblasts in vitro. These observations emphasize the need for better analytical techniques to distinguish whether the correlation of short telomeres with disease and mortality in humans reflects the consequences of increased proliferation, telomere shortening as a result of oxidative damage or some combination of these processes.     

Differential effects of pure human alpha and gamma interferons on fibroblast cell growth and the cell cycle

Pure human alpha and recombinant gamma interferons had differential effects on two strains of fetal lung fibroblasts in vitro. Alpha interferon had little effect on long-term cell growth, whereas gamma interferons, both glycosylated and non-glycosylated, were cytotoxic. However, when synchronized cells were studied, alpha interferon prolonged both G1 and S + G2 phases of the cell cycle, whereas gamma interferon only affected the G1 phase.     

Retinoids and cultured human fibroblasts : Effects on cell growth and presence of cellular retinoic acid-binding protein

We have examined the effects of retinoids on growth of cultured human skin fibroblasts from four individuals. Retinoic acid and retinol both produce a dose-dependent inhibition of growth in the four strains examined; retinoic acid was more potent than retinol in this respect. The growth inhibitory effect of retinoic acid is characterized by a decrease in the exponential growth rate, which is reversible upon removal of retinoic acid from the growth medium; the final saturation density, however, is not modified by retinoic acid treatment. No alterations of cell morphology, viability, or adhesiveness to substratum are induced by the retinoid concentrations utilized. The inhibitory effect of 10⁻⁶ M retinoic acid on cell growth is not affected by the concentration of fetal calf serum (FCS) in the medium. In all four human fibroblast strains examined, specific binding of [³H]retinoic acid to cytosol is present as determined by sucrose-density gradient centrifugation. Despite the effects of retinol on fibroblast growth, no cytoplasmic binding of [³H]retinol could be demonstrated in these cells.     

Expression of androgen-responsive properties in human skin fibroblast strains of genital and nongenital origin

Specific 5alpha-dihydrotestosterone (DHT) binding capacity (Bmax) has been determined for human skin fibroblast strains from non-genital areas of males and females (N = 8), as well as prepuce and labium majus (N = 9). Genital strains had a mean three times that of non-genital ones (32 vs. 11 fmol/mg cell protein). There were no sex differences. Variation among strains was not simply correlated with donor age; that within strains was unrelated to in vitro age. The lowest values for genital strains overlapped the nongenital ones; those of the nongenital strains approached the limit of detectability. These results parallel those for delta4-3-ketosteroid 5alpha-reductase activity. Thus, serially cultured genital and nongenital skin fibroblasts express their relative differentiative ancestry as androgen target cells. This expression may affect the diagnosis of androgen insensitivity and certain inborn errors of metabolism; its variability is discussed in terms of clonal heterogeneity.     

Fate of HL-A antigens in aging cultured human diploid cell strains : II. Quantitative absorption studies

The expression of histocompatibility antigens on cultured human fibroblasts was studied utilizing a quantitative microabsorption assay. Trypsin treatment of cultured human embryonic and adult fibroblasts did not change their capacity to absorb selected HL-A alloantisera as compared with cells harvested by scraping. The density of HL-A antigens was found to remain unchanged throughout the finite in vitro lifetime of two human embryonic diploid cell strains (WI-38 and WI-26) and ten adult skin fibroblast cultures. Cultured fibroblasts derived from skin, lung, heart, and liver of one donor showed similar quantitative expression of HL-A1, 9, W5 and W16. These experiments support the contention that the HL-A marker system is at present the only system by which human fibroblasts derived from different normal human donors can be distinguished in vitro.     

PDGF-stimulated fibroblast proliferation is enhanced synergistically by receptor-recognized alpha 2-macroglobulin.

alpha-Macroglobulins derived from plasma or secreted by macrophages are platelet-derived growth factor (PDGF) binding proteins that compete with cell-surface receptors on fibroblasts for PDGF binding. alpha 2-Macroglobulin (alpha 2M) derived from bovine plasma was tested for its ability to modulate the PDGF-induced proliferation of primary passage rat lung fibroblasts (RLFs) and a human skin fibroblast cell line (CRL 1508). Fibroblasts were grown in 10% fetal bovine serum (FBS) for 24 hr, then washed with serum-free medium before adding serum-free defined medium (SFDM) containing insulin and transferrin. To this medium were added varying concentrations of human plasma-derived AB-PDGF and alpha 2 M, alone or in combination. Receptor-recognized alpha 2M was prepared by treatment with methylamine. Both native alpha 2M and the alpha 2M-methylamine (alpha 2M-MA) were tested for growth promoting activity in the absence or presence of PDGF. After 3 days, a concentration-dependent growth curve of fibroblast proliferation was demonstrated for PDGF alone, with near maximal stimulation reached at 15-20 ng/ml PDGF. alpha 2M and alpha 2M-MA alone had no effect on cell proliferation. However, alpha 2M-MA concentrations above 32 micrograms/ml synergistically enhanced PDGF-stimulated proliferation greater than 100% in the presence of 15 ng/ml PDGF. Native alpha 2M enhanced PDGF-stimulated growth 80-100% above PDGF controls only at low concentrations (32-64 micrograms/ml alpha 2M). High concentrations of native alpha 2M (128-256 micrograms/ml) either had no effect on growth or were inhibitory to PDGF-stimulated growth, depending on the cell type tested. Rat lung fibroblasts were shown to secrete a factor(s) that inhibited the trypsin-binding capacity of native alpha 2M. We further demonstrated that early passage RLFs possess specific cell-surface receptors for [125I]-PDGF and [125I]-alpha 2M-MA, and preincubation of RLFs with alpha 2M-MA increased the specific binding of [125I]-PDGF to the cell surface of these fibroblasts. Considered together, these data support the view that receptor-recognized alpha 2M synergistically enhances the proliferative capacity of PDGF. We postulate that receptor-recognized alpha Ms enhance PDGF-stimulated growth by increasing the local concentration of PDGF at the cell surface, where the PDGF could be released in close proximity to its own receptors.     

Influence of serum on adult and fetal dermal fibroblast migration adhesion, and collagen expression

Summary The wound healing response to injury can be affected by many factors such as cell migration and extracellular matrix elaboration. The objective of this study was to examine the serum- and age-dependent effects on cell migration, adhesion, and collagen expression by skin fibroblasts. Dermal fibroblasts were isolated and plated with and without serum for up to 7 d. Cell migration was determined by quantitative image analysis, adhesion was quantified using a centrifugation assay, and collagen expression was assessed by PCR and immunohistochemical staining. Both adult and fetal fibroblasts migrated significantly faster in serum-containing medium compared to serum-free medium. There was no significant difference in migration between the two cell types in either serum-containing or serum-free medium. There was no significant difference in adhesion in the presence of serum, although there was a greater faction of adherent fetal skin fibroblasts than adult fibroblasts in serum-free medium. Moreover, the adherent fraction of fetal fibroblasts in serum-free medium was not significantly different from that in serum-containing medium, suggesting that fetal skin fibroblasts possess serum-independent adhesion properties. Collagen mRNA expression was significantly up-regulated in serum-free compared to serum-containing medium for both cell types. With respect to collagen immunohistochemistry, both dermal fibroblast populations exhibited greater type I collagen compared to type III collagen staining. Quantitative assessment of collagen staining indicated significantly enhanced type I collagen secretion in the presence of serum by fetal skin fibroblasts. These findings suggest that intrinsic cellular characteristics may govern the observed differences in adult and fetal wound healing.