Zinc protects against ultraviolet A1-induced DNA damage and apoptosis in cultured human fibroblasts

Ultraviolet Al (UVA1) radiation generates reactive oxygen species and the oxidative stress is known as a mediator of DNA damage and of apoptosis. We exposed cultured human cutaneous fibroblasts to UVA1 radiation (wavelengths in the 340–450-nm range with emission peak at 365 nm) and, using the alkaline unwinding method, we showed an immediate significant increase of DNA strand breaks in exposed cells. Apoptosis was determined by detecting cytoplasmic nucleosomes (enzyme-linked immunosorbent assay method) at different time points in fibroblasts exposed to different irradiation doses. In our conditions, UVA1 radiation induced an early (8 h) and a delayed (18 h) apoptosis. Delayed apoptosis increased in a UVA dosedependent manner. Zinc is an important metal for DNA protection and has been shown to have inhibitory effects on apoptosis. The addition of zinc (6.5 mg/L) as zinc chloride to the culture medium significantly decreased immediate DNA strand breaks in human skin fibroblasts. Moreover, zinc chloride significantly decreased UVA1-induced early and delayed apoptosis. Thus, these data show for the first time in normal cutaneous cultured cells that UVA1 radiation induces apoptosis. This apoptosis is biphasic and appears higher 18 h after the stress. Zinc supplementation can prevent both immediate DNA strand breakage and early and delayed apoptosis, suggesting that this metal could be of interest for skin cell protection against UVA1 irradiation.     

Linoleic acid and antioxidants protect against DNA damage and apoptosis induced by palmitic acid

Polyunsaturated fats are the main target for lipid peroxidation and subsequent formation of mutagenic metabolites, but diets high in saturated fats are more strongly associated with adverse health effects. We show that the common saturated fatty acid, palmitic acid, is a potent inducer of DNA damage in an insulin-secreting cell line, and in primary human fibroblasts. Damage is not associated with upregulation of inducible nitric oxide synthase, but is prevented by two different antioxidants, alpha-lipoic acid and 3,3'-methoxysalenMn(III) (EUK134), which also partly prevent palmitic acid-induced apoptosis and growth inhibition. Since mutagenic metabolites can be formed from peroxidation of polyunsaturated fatty acids, co-administration of palmitic and a polyunsaturated fatty acid might be particularly harmful. Palmitic acid-induced DNA damage is instead prevented by linoleic acid, which is acting here as a protective agent against oxidative stress, rather than as a source of mutagenic metabolites. These results illustrate the complexity of the relationship of dietary fat intake to genotoxicity.     

Effects of some antibiotics on the growth of human diploid skin fibroblasts in cell culture

Summary During serial subcultures 50 μg per ml gentamicin and penicillin (100 U per ml)-streptomycin (100 μg per ml) depressed cell growth significantly 2 weeks after the addition of the antibiotics; gentamicin, but not penicillin-streptomycin, stimulated cell growth before it became inhibitory. Removal of the antibiotics resulted in the cell yield returning to normal. The results show that these antibiotics can be harmful to cells even at concentrations thought to be safe.     

The formation of DNA single-strand breaks and alkali-labile sites in human blood lymphocytes exposed to 365-nm UVA radiation

The potency of UVA radiation, representing 90% of solar UV light reaching the earth׳s surface, to induce human skin cancer is the subject of continuing controversy. This study was undertaken to investigate the role of reactive oxygen species in DNA damage produced by the exposure of human cells to UVA radiation. This knowledge is important for better understanding of UV-induced carcinogenesis. We measured DNA single-strand breaks and alkali-labile sites in human lymphocytes exposed ex vivo to various doses of 365-nm UV photons compared to X-rays and hydrogen peroxide using the comet assay. We demonstrated that the UVA-induced DNA damage increased in a linear dose-dependent manner. The rate of DNA single-strand breaks and alkali-labile sites after exposure to 1 J/cm² was similar to the rate induced by exposure to 1 Gy of X-rays or 25 μM hydrogen peroxide. The presence of either the hydroxyl radical scavenger dimethyl sulfoxide or the singlet oxygen quencher sodium azide resulted in a significant reduction in the UVA-induced DNA damage, suggesting a role for these reactive oxygen species in mediating UVA-induced DNA single-strand breaks and alkali-labile sites. We also showed that chromatin relaxation due to hypertonic conditions resulted in increased damage in both untreated and UVA-treated cells. The effect was the most significant in the presence of 0.5 M Na⁺, implying a role for histone H1. Our data suggest that the majority of DNA single-strand breaks and alkali-labile sites after exposure of human lymphocytes to UVA are produced by reactive oxygen species (the hydroxyl radical and singlet oxygen) and that the state of chromatin may substantially contribute to the outcome of such exposures.     

The culture of human skin fibroblasts on microcarriers in the presence of serum substitute: Ultroser G

The effects of the substitution of serum by Ultroser G on human skin fibroblasts cultured on microcarriers were analysed. Cultures could not be established on microcarriers in the presence of Ultroser G. However, microcarrier cultures started in the presence of 10% foetal calf serum, and transferred to 2% Ultroser G after 7 days resulted in high cell densities.     

Epidermolysis bullosa simplex: Expression of gelatinase activity in cultured human skin fibroblasts

We have measured the baseline level of gelatinase in fibroblast-conditioned medium from 41 Scandinavian individuals. They comprised 12 healthy persons, 11 individuals with the skin disorder dominant epidermolysis bullosa simplex (DEBS), 16 patients with other types of epidermolysis bullosa (EB) and 2 siblings with prolidase deficiency. These results divide the cell strains into those with low and those with high activity levels. Although this dual biochemical trait occurred in all the groups of individuals, the high-activity trait was more frequent among the DEBS patients. The localized DEBS forms showed an elevated activity level, in contrast to the previously reported generalized DEBS Köbner forms. Although a high level was found in some individuals with other EB forms, the high incidence in four families with localized DEBS Weber-Cockayne (eight of eight) and a single family with generalized DEBS—mottled pigmentation (two of two) may result from a close linkage between an EB gene and a gene responsible for the biochemical trait. In addition, in the single complete family tested, the level of gelatinase activity in cultured fibroblasts seemed to be regulated by codominant alleles or genes. A raised baseline level of gelatinase activity in cultured skin fibroblasts may be the result of either an altered expression of gelatinase or an allelic variant of this enzyme with increased specific activity. Further studies of gelatinase in cultured fibroblasts may provide insight into the regulatory mechanism and genetics behind this activity and allow formal linkage studies versus DEBS.This work was supported in part by the Norwegian Research Council for Science and the Humanities (NAVF) and the Concerted Action on Hereditary Connective Tissue Diseases of the European Community (1990–1992, project leader, M. Matton).Part of this work was performed at the Department of Genetics, Institute for Cancer Research, The Norwegian Radium Hospital, Oslo.     

DNA strand breaking capacity of acrylamide and glycidamide in mammalian cells

We compared the DNA damaging potency of acrylamide (AA) and its metabolite glycidamide (GA) in the comet assay in cell systems differing with respect to species origin and cytochrome P450-depended monooxygenase (CYP2E1) expression (V79, Caco-2, primary rat hepatocytes). Only after 24 h incubation in the highest concentration of AA (6 mM) a slight but significant increase in DNA damage was observed in V79 and Caco-2 cells. In primary rat hepatocytes, however, expressing substantial amounts of CYP2E1, no induction of DNA strand breaks was found. At the end of the incubation time period (24 h), still 67 ± 19% of the CYP2E1 protein was detected by Western blotting. Direct treatment with GA resulted in a significant increase in DNA damage in V79 cells and primary rat hepatocytes at concentrations ≥100 μM (24 h). Caco-2 cells were found to be less sensitive, exhibiting an increase in DNA strand breaks at concentrations ≥300 μM GA. These data confirm the higher genotoxic potential of GA compared to AA but also indicate that high expression of CYP2E1 per se is not necessarily associated with increased genotoxicity of AA. We, therefore, investigated whether the intracellular glutathione (GSH) level might be a critical determinant for the genotoxicity of AA in cells with different CYP2E1 status. Depletion of intracellular GSH by DL-buthionine-[S,R]-sulfoxime (BSO) in rat hepatocytes and V79 cells resulted in a significant induction of DNA strand breaks after incubation with 1 mM AA. However, at higher concentrations (≥1.25 mM) a strong increase in cytotoxicity, resulting in a severe loss of viability, was observed. In summary, the DNA strand breaking effect of AA appeared not to be directly correlated with the CYP2E1 status of the cells. Depletion of GSH is associated with an increase in AA genotoxicity but seems also to lead to a substantial enhancement of cytotoxicity.     

UVA influenced the SIRT1‐miR‐27a‐5p‐SMAD2‐MMP1/COL1/BCL2 axis in human skin primary fibroblasts

Both SIRT1 and UVA radiation are involved in cellular damage processes such as apoptosis, senescence and ageing. MicroRNAs (miRNAs) have been reported to be closely related to UV radiation, as well as to SIRT1. In this study, we investigated the connections among SIRT1, UVA and miRNA in human skin primary fibroblasts. Our results showed that UVA altered the protein level of SIRT1 in a time point–dependent manner. Using miRNA microarray, bioinformatics analysis, we found that knocking down SIRT1 could cause up‐regulation of miR‐27a‐5p and the latter could down‐regulate SMAD2, and these results were verified by qRT‐PCR or Western blot. Furthermore, UVA radiation (5 J/cm²), knocking down SIRT1 or overexpression of miR‐27a‐5p led to increased expression of MMP1, and decreased expressions of COL1 and BCL2. We also found additive impacts on MMP1, COL1 and BCL2 under the combination of UVA radiation + Sirtinol (SIRT1 inhibitor), or UVA radiation + miR‐27a‐5p mimic. SIRT1 activator resveratrol could reverse damage changes caused by UVA radiation. Besides, absent of SIRT1 or overexpression of miR‐27a‐5p increased cell apoptosis and induced cell arrest in G2/M phase. Taken together, these results demonstrated that UVA could influence a novel SIRT1‐miR‐27a‐5p‐SMAD2‐MMP1/COL1/BCL2 axis in skin primary fibroblasts, and may provide potential therapeutic targets for UVA‐induced skin damage.     

Cell density-dependent changes of glycosphingolipid biosynthesis in cultured human skin fibroblasts

In this study, the glycosphingolipid biosynthesis was investigated in the sparse and the confluent cell populations of cultured human skin fibroblasts.The human skin fibroblast cell populations were metabolically pulse labeled with ¹⁴C-galactose (48 h). The amounts of ¹⁴C-radioactivity (cpm) incorporated into extracted and purified total cellular glycosphingolipid fractions were counted by -scintillation and the individual glycosphingolipid species were separated by high performance thin layer chromatography and visualized by autoradiography. The relative labeling (%) of individual newly synthesized glycosphingolipid species was detected by densitometric scanning of autoradiographic glycosphingolipid patterns.The incorporation of ¹⁴C-label into total glycosphingolipids per cell increased significantly as the cell-density increased, referring to five fold higher rate of glycosphingolipid biosynthesis de novo in cells at confluency vs. sparse populations. The total newly synthesized glycosphingolipid pattern (100%) of sparse cell populations showed a significant predominance of the gangliosides (70%) over the neutral glycosphingolipids (30%), with ganglioside GM2 as the major species followed by monohexosyl-ceramide. Oppositely, the newly synthesized neutral glycosphingolipids (67%) predominated over the gangliosides (33%) in cells at confluency (contact inhibition). Cells reaching confluency were characterized by: (a) a dramatic increase of absolute amount of all newly synthesized neutral glycosphingolipid species, particularly the most abundant monohexosyl-ceramide and trihexosyl-ceramide, but also of the ganglioside GM3; (b) a drastic decrease of absolute amount of newly synthesized ganglioside GM2. The specific shift in newly synthesized glycosphingolipid pattern in cells reaching confluency suggests a down-regulation of biosynthetic pathway primarily at the level of N-acetylgalactosaminyl-transferase. A possible involvement of glycosphingolipids in cell density-dependent regulation of cell growth through establishment of the direct intermolecular intermembrane interactions is discussed.     

Growth of human skin fibroblasts in dialyzed fetal bovine serum

Summary Human diploid fibroblast cultures plated at or below a density of 2×10³ cells per cm² grew very slowly or not at all in MEM supplemented with 10% fetal bovine serum that had been dialyzed for 24 hr. Adding serine (0.2 mM) or pyruvate (1.0 mM) to MEM and 10% dialyzed serum restored growth to the level observed with 10% nondialyzed serum. Serine and pyruvate also were able to overcome partially the growth arrest induced by a reduced serum concentration (1 or 2%). Human fibroblast cultures grew very well in 100% fetal bovine serum that had been dialyzed against MEM. For cells grown in dialyzed serum, the final number increased with increasing serum concentration, in contrast to the well established toxic effects of high concentrations of nondialyzed serum. This research was supported by NIH Grants CA15207 and HD03110.     

Spectrophotometric measurement of pyruvate dehydrogenase complex activity in cultured human fibroblasts

A spectrophotometric assay for the pyruvate dehydrogenase complex (PDHC) has been adapted for use with cultured human firbroblasts. It is a coupled enzyme assay utilizing pigeon liver arylamine acetyltransferase to measure the acetyl-CoA produced by PDHC. Activity is proportional to fibroblasts protein and to tine and depends completely on added pyruvate, CoA and NAD. In extracts in which PDHC had been activated (dephosphorylated) by the method of Sheu et al. (Sheu, R.K.-F., Hu, C.C. and Utter, M.F. (1981) J. Clin. Invest. 67, 1463–1471), activities in control cell lines are 5–50 fold higher than in earlier reports. Low activity has been demonstrated in a line previously eported to be PDHC-deficient.     

Stress-induced responses of human skin fibroblasts in vitro reflect human longevity

Unlike various model organisms, cellular responses to stress have not been related to human longevity. We investigated cellular responses to stress in skin fibroblasts that were isolated from young and very old subjects, and from offspring of nonagenarian siblings and their partners, representatives of the general population. Fibroblasts were exposed to rotenone and hyperglycemia and assessed for senescence‐associated β‐galactosidase (SA‐β‐gal) activity by flow cytometry. Apoptosis/cell death was measured with the Annexin‐V/PI assay and cell‐cycle analysis (Sub‐G1 content) and growth potential was determined by the colony formation assay. Compared with fibroblasts from young subjects, baseline SA‐β‐gal activity was higher in fibroblasts from old subjects (P = 0.004) as were stress‐induced increases (rotenone: P < 0.001, hyperglycemia: P = 0.027). For measures of apoptosis/cell death, fibroblasts from old subjects showed higher baseline levels (Annexin V+/PI+ cells: P = 0.040, Sub‐G1: P = 0.014) and lower stress‐induced increases (Sub‐G1: P = 0.018) than fibroblasts from young subjects. Numbers and total size of colonies under nonstressed conditions were higher for fibroblasts from young subjects (P = 0.017 and 0.006, respectively). Baseline levels of SA‐β‐gal activity and apoptosis/cell death were not different between fibroblasts from offspring and partner. Stress‐induced increases were lower for SA‐β‐gal activity (rotenone: P = 0.064, hyperglycemia: P < 0.001) and higher for apoptosis/cell death (Annexin V+/PI? cells: P = 0.041, Annexin V+/PI+ cells: P = 0.008). Numbers and total size of colonies under nonstressed conditions were higher for fibroblasts from offspring (P = 0.001 and 0.024, respectively) whereas rotenone‐induced decreases were lower (P = 0.008 and 0.004, respectively). These data provide strong support for the hypothesis that in vitro cellular responses to stress reflect the propensity for human longevity.     

Modifications of proteoglycans produced by human skin fibroblast cultures during replicative senescence

The properties of proteoglycans (PGs) produced by normal human skin fibroblast were investigated with increasing passage. The increase of subculture number was associated with a constant increase in PG molecular size, which was particularly evident in cell layer extracts. In the cell layer, the ratio of DS-PGs/HS-PGs was markedly higher in early passage cultures. Moreover, the cell layer from young cells contained lower amounts of radioactivity incorporated into the most hydrophobic PG populations, suggesting that the PG core protein might also undergo significant modification with increasing subcultures. There was no significant difference in energy charge value between early and late passage cultures, whereas the NAD/NADH ratio was found to decrease markedly in senescent cells.     

Resveratrol and ascorbic acid prevent DNA damage induced by cryopreservation in human semen

Cryopreservation of human semen can cause DNA damages, which compromise the fertilization and normal embryo development. The present study showed that the antioxidant resveratrol prevents these damages both in fertile and infertile men. The addition of ascorbic acid before cryopreservation can reduce DNA damages only in infertile men. Although further studies are needed, the present work showed that resveratrol could be considered in human cryopreservation procedures to avoid/minimize DNA damages and preserve sperm integrity.     

Autonomous migration of human fetal skin fibroblasts into a denuded area in a cell monolayer is mediated by basic fibroblast growth factor and collagen

Summary Human fetal skin fibroblasts (TIG-3S) were found to migrate into a denuded area in a cell monolayer when cultured in both serum-depleted and serum-supplemented media, unlike adult-donor skin fibroblasts which migrated well only when cultured in serum-supplemented medium. Therefore, a series of experiments was carried out to determine whether autocrine factors are involved in their migration. The migration of TIG-3S cells in serum-depleted medium was suppressed by the addition of suramin, a factor with growth factor antagonist properties, which suggests that growth factors are important for cell migration. The suramin-induced inhibition was reversed completely by adding excess basic fibroblast growth factor (bFGF) to the culture medium and partially by platelet-derived growth factor (PDGF). Treatment with neutralizing anti-PDGF antibody did not suppress TIG-3S cell migration, whereas neutralizing anti-bFGF antibody did, which indicates that bFGF is an autocrine and PDGF a paracrine factor involved in cell migration. Next, an experiment was performed to ascertain whether the extracellular matrix is involved in TIG-3S cell migration. Monensin, an inhibitor of extracellular matrix secretion, inhibited cell migration, which was reversed by adding excess type I collagen, but not excess plasma fibronectin. In addition, further evidence for the involvement of collagen was provided by the observation that ethyl-3,4-dihydroxybenzoate, a specific inhibitor of collagen synthesis, suppressed cell migration. These results suggest that the autonomous migration of TIG-3S human fetal skin fibroblasts is mediated by bFGF and type I collagen, which they produce and secrete.     

尖顶羊肚菌胞外多糖提取物对皮肤成纤维细胞增殖和衰老的影响

不同浓度尖顶羊肚菌胞外多糖提取物作用人皮肤成纤维细胞（human skin fibroblasts,HSF）,检测对HSF细胞形态、细胞增殖、衰老相关β-半乳糖苷酶活性、羟脯氨酸含量的影响,探究尖顶羊肚菌胞外多糖提取物对HSF增殖和衰老的影响。结果显示,125μg/mL尖顶羊肚菌胞外多糖提取物使HSF细胞活力增加了25.2%,羟脯氨酸含量增加了12.1%,β-半乳糖苷酶活性降低了48.1%。说明适宜浓度尖顶羊肚菌胞外多糖提取物具有促进HSF细胞增殖、胶原蛋白合成,延缓细胞衰老的作用。     

Selective inhibition of fibroblasts by spermine in primary cultures of normal human skin epithelial cells

Summary Overgrowth with fibroblasts has been a major problem in the cultivation of normal human skin epithelium. In the present study it is shown that the addition of spermine to the culture medium in micromolar concentrations has a differential cytotoxic effect on fibroblasts allowing the cultivation of human skin epithelial cells in primary culture without fibroblastic overgrowth. Putrescine, another polyamine, is shown to be equally cytotoxic to fibroblasts and epithelial cells when added in millimolar concentrations; below this concentration range no cytotoxic effect could be demonstrated. This difference in cytotoxicity between spermine and putrescine is suggested to depend on the conversion of spermine, but not putrescine, and to highly cytotoxic products by an amine oxidase present in fetal bovine serum. This project was supported by the Novo foundation.     

Optimal parameters for the polybrene-induced DNA transfection of diploid human fibroblasts

Summary Recently it has been shown that Polybrene, in conjuction with dimethyl sulfoxide (DMSO) shock, can markedly increase frequency of DNA transfection of chicken embryo fibroblasts as compared with the frequency obtained with the standard calcium phosphate protocol. We have adapted this procedure for use with diploid human fibroblasts. Using plasmid DNA containing a dominant selectable marker gene (resistance to Geneticin), we have determined that treatment of the cells for 6 h in culture medium containing Polybrene at a concentration of 2 to 5 μg/ml, followed by a 4-min shock with 30% DMSO, resulted in the highest yield of transfectants, ca. 400/10⁶ cells treated with as little as 100 ng of plasmid DNA. The selective agent could be added immediately after the DMSO shock. This allows transfection and selection to be carried out in the same dishes and ensures that each clone represents a unique event. The pSV2neo plasmid was generously supplied by Dr. Paul Berg. This work was supported by U. S. Department of Energy contract EV 04659, National Institute of Environmental Health Sciences Postdoctoral Training Grant ES 07076, and a grant from the Michigan Osteopathic College Foundation.     

Redox-dependent induction of antioxidant defenses by phenolic diterpenes confers stress tolerance in normal human skin fibroblasts: Insights on replicative senescence

Mild stress-induced hormesis represents a promising strategy for targeting the age-related accumulation of molecular damage and, therefore, for preventing diseases and achieving healthy aging. Fruits, vegetables, and spices contain a wide variety of hormetic phytochemicals, which may explain the beneficial health effects associated with the consumption of these dietary components. In the present study, the induction of cellular antioxidant defenses by the phenolic diterpenes carnosic acid (CA) and carnosol (CS) were studied in normal human skin fibroblasts, and insights into the aging process at the cellular level investigated. We observed that CA and CS induced several cytoprotective enzymes and antioxidant defenses in human fibroblasts, whose induction was dependent on the cellular redox state for CS and associated with Nrf2 signaling for both compounds. The stress response elicited by preincubation with CS conferred a cytoprotective action against a following oxidant challenge with tert-butyl hydroperoxide, confirming its hormetic effect. Preincubation of normal fibroblasts with CS also protected against hydrogen peroxide-induced premature senescence. Furthermore, cultivation of middle passage normal human skin fibroblasts in the presence of CS ameliorated the physiological state of cells during replicative senescence. Our results support the view that mild stress-induced antioxidant defenses by CS can confer stress tolerance in normal cells and may have important implications in the promotion of healthy aging.     

Chemosensitivity of primary human fibroblasts with defective unhooking of DNA interstrand cross-links

Xeroderma pigmentosum (XP) is characterised by defects in nucleotide excision repair, ultraviolet (UV) radiation sensitivity and increased skin carcinoma. Compared to other complementation groups, XP-F patients show relatively mild cutaneous symptoms. DNA interstrand cross-linking agents are a highly cytotoxic class of DNA damage induced by common cancer chemotherapeutics such as cisplatin and nitrogen mustards. Although the XPF-ERCC1 structure-specific endonuclease is required for the repair of ICLs cellular sensitivity of primary human XP-F cells has not been established. In clonogenic survival assays, primary fibroblasts from XP-F patients were moderately sensitive to both UVC and HN2 compared to normal cells (2- to 3-fold and 3- to 5-fold, respectively). XP-A fibroblasts were considerably more sensitive to UVC (10- to 12-fold) but not sensitive to HN2. The sensitivity of XP-F fibroblasts to HN2 correlated with the defective incision or 'unhooking' step of ICL repair. Using the comet assay, XP-F cells exhibited only 20% residual unhooking activity over 24 h. Over the same time, normal and XP-A cells unhooked greater than 95% and 62% of ICLs, respectively. After HN2 treatment, ICL-associated DNA double-strand breaks (DSBs) are detected by pulse field gel electrophoresis in dividing cells. Induction and repair of DNA DSBs was normal in XP-F fibroblasts. These findings demonstrate that in primary human fibroblasts, XPF is required for the unhooking of ICLs and not for the induction or repair of ICL-associated DNA DSBs induced by HN2. In terms of cancer chemotherapy, people with mild DNA repair defects affecting ICL repair may be more prevalent in the general population than expected. Since cellular sensitivity of primary human fibroblasts usually reflects clinical sensitivity such patients with cancer would be at risk of increased toxicity.