The effect of ethanol on the lipoprotein metabolism of aortic smooth muscle cells

The effect of ethanol exposure on the binding and metabolism of bovine low density lipoprotein by bovine arterial smooth muscle cells was studied. In cells exposed to ethanol (80 mM) for 48 hr or 14 days and incubated with low density lipoprotein for 24 hr there was a reduction in the amount of low density lipoprotein internalised at all concentrations of lipoprotein. There was no effect on the rate of degradation of the low density lipoprotein and no demonstrable changes in the amount of low density lipoprotein bound to the cell surface at high concentrations of low density lipoprotein. Similar results for internalisation and degradation were obtained in a time dependent study. Binding was shown to be reduced in the ethanol treated cells (48 hr) when low concentrations (5 micrograms/ml) of low density lipoprotein were incubated for short periods (less than 3 hr). Scatchard plot analysis indicated that this reduced binding may be due to a reduction of receptor numbers in these cells.     

Effects of AY 9944 on low density lipoprotein metabolism in cultured human fibroblasts

Treatment of cultured human fibroblasts with the hypocholesterolemic drug AY 9944 resulted in a marked increase in low density lipoprotein internalization and degradation for concentrations up to 5 X 10(-6)M. Low density lipoprotein binding was less affected. Concentrations above 5 X 10(-6)M resulted in a relative decrease in low density lipoprotein degradation, whereas binding and internalization plateaued. The stimulation of low density lipoprotein internalization took place within the first hours of incubation of cells with the drug, which suggests a direct effect on the cell membrane. Such phenomenon could account at least partially for the hypocholesterolemic effect of the drug, besides its inhibitory effect on 7-dehydrocholesterol reductase.     

Uptake of very low density lipoprotein triglyceride by bovine aortic endothelial cells in culture.

Primary monolayers of calf aortic endothelial cells were presented with isolated human very low density lipoproteins that had been labeled with radioactive triglyceride. The cells were observed to take up triglyceride over a 24 hr period; incorporation increased with exogenous lipoprotein concentrations, and up to 60% of the triglyceride taken up was converted to other cell lipids within 24 hr. When [2-3H]glyceryl tri[1-14C]oleate-labeled very low density lipoprotein was used, the 3H/14C ratio in the cell triglyceride was always similar to that of the exogenous lipoprotein triglyceride. Moreover, no significant hydrolysis of the exogenous very low density lipoprotein triglyceride was observed during the time of exposure to the cells. Similar experiments using doubly-labeled triglyceride exposed to endothelial cells in triglyceride-phospholipid liposome preparations also resulted in incorporation of the exogenous triglyceride without evidence of extracellular hydrolysis. The results indicate that primary monolayers of endothelial cells in culture are able to incorporate and metabolize very low density lipoprotein triglyceride. However, triglyceride does not appear to be significantly hydrolyzed during uptake, suggesting an absence of lipoprotein lipase activity in these cells.     

Interaction of estradiol and high density lipoproteins on proliferation of the human breast cancer cell line MCF-7 adapted to grow in serum free conditions

The responsiveness of the human mammary carcinoma cell line MCF-7 to estradiol and tamoxifen treatment has been studied in different culture conditions. Cells from exponentially growing cultures were compared with cells in their initial cycles after replating from confluent cultures ("confluent-log" cells). It has been observed that estradiol stimulation of tritiated thymidine incorporation decreases with cell density and that "confluent-log" cells are estrogen unresponsive for a period of four cell cycles in serum-free medium conditions. On the other hand, growth of cells replated from exponentially growing, as well as from confluent cultures, can be inhibited by tamoxifen or a combined treatment with tamoxifen and the progestin levonorgestrel. This growth inhibitory effect can be rescued by estradiol when cells are replated from exponentially growing cultures. The growth inhibitory effect cannot be rescued by estradiol alone (10(-10) to 10(-8) M) when cells are replated from confluent cultures. In this condition, the addition of steroid depleted serum is necessary to reverse the state of estradiol unresponsiveness. Serum can be replaced by high density lipoproteins but not by low density lipoproteins or lipoprotein deficient serum. The present data show that estradiol and HDL interact in the control of MCF-7 cell proliferation.     

Effects of exogenous cyclic AMP on growth characteristics and radiation response of Reuber H35 hepatoma cells

Reuber H35 rat hepatoma cells, clone KRC, were used to study the effect of cyclic AMP on radiation-induced cell death. Treatment of logarithmically growing cultures with 0.5 mM cAMP for 17 hr prior to irradiation resulted in a decreased cell survival. Similar results were obtained with cultures irradiated after treatment with Bt2cAMP. Treatment of H35 cells with cAMP or Bt2cAMP caused inhibition of their proliferation and resulted in an accumulation of cells in early S phase and a depletion of G2-phase cells. In synchronized cultures cells were relatively radioresistant during their S phase. In addition to single-dose treatment with X rays, the effect of Bt2cAMP on radiation-induced cell death was studied during fractionated irradiation with 2.5 Gy per day. This fractionated irradiation resulted in a dose-reduction factor of 1.6 at the 10% survival level and a 10-fold decrease in the surviving cell population due to the cooperative effects of Bt2cAMP on growth rate and radiation survival. The effect of cAMP on radiation-induced mitotic delay was also studied. It appeared that whereas cAMP had no effect on the progression of G2 cells into mitosis, it prevented cells from recovery from the X-ray mitotic delay in G2.     

Morphological changes in Escherichia coli cells exposed to low or high concentrations of hydrogen peroxide

Escherichia coli cells challenged with low or high concentrations of hydrogen peroxide are killed via two different mechanisms and respond with morphological changes which are also dependent on the extracellular concentration of the oxidant. Treatment with low concentrations (less than 2.5 mM) of H2O2 is followed by an extensive cell filamentation which is dependent on the level of H2O2 or the time of exposure. In particular, addition of 1.75 mM H2O2 results in a growth lag of approximately 90 min followed by partial increase in optical density, which was mainly due to the onset of the filamentous response. In fact, microscopic analysis of the samples obtained from cultures incubated with the oxidant for various time intervals has revealed that this change in morphology becomes apparent after 90 min of exposure to H2O2 and that the length of the filaments gradually increases following longer time intervals. Analysis of the ability of these cells to form colonies has indicated a loss in viability in the first 90 min of exposure followed by a gradual recovery in the number of cells capable of forming colonies. Measurement of lactate dehydrogenase in culture medium (as a marker for membrane damage) has revealed that a small amount of this enzyme was released from the cells at early times (less than 150 min) but not after longer incubation periods (300 min). Cells exposed to high concentrations of H2O2 (greater than 10 mM) do not filament and their loss of viability is associated with a marked reduction in cell volume. In fact, treatment with 17.5 mM H2O2 resulted in a time-dependent decrease of the optical density, clonogenicity, and cellular volume. In addition, these effects were paralleled by a significant release in the culture medium of lactate dehydrogenase thus suggesting that the reduced cell volume may be dependent on membrane damage followed by loss of intracellular material. This hypothesis is supported by preliminary results obtained in electron microscopy studies. In conclusion, this study further demonstrates that the response of E. coli to hydrogen peroxide is highly dependent on the concentration of H2O2 and further stresses the point that low or high concentrations of the oxidant result in the production of different species leading to cell death via two different mechanisms and/or capable of specifically affecting the cell shape.     

A comparison between acute exposures to ethanol and acetaldehyde on neurotoxicity, nitric oxide production and NMDA-induced excitotoxicity in primary cultures of cortical neurons

Chronic exposure of primary neuronal cultures to ethanol has been shown to potentiate N-methyl-D-aspartate (NMDA) receptor-mediated processes, such as nitric oxide (NO) formation and excitotoxicity. In the present study, we compared the effects of acute ethanol and acetaldehyde on NMDA receptor-mediated excitotoxicity and NO production in primary cultures of rat cortical neurons. The delayed cell death induced by NMDA (300 mM, 25 min) was evaluated by morphological examination and by measuring the release of the cytotoxic indicator, lactate dehydrogenase, in the culture media 24 hours after the NMDA exposure. The accumulation of nitrite, as an index of NO production, was also measured 24 hours after NMDA treatment. NMDA caused a dose-dependent cell death and nitrite accumulation, both effects were blocked by pretreatment of MK-801 (100 microM). Acute exposure to ethanol (1-1000 mM) or acetaldehyde (0.1-1 mM) for 35 minutes did not affect neuronal viability in the following 24-hr period. However, acute exposure to acetaldehyde (> or =10 mM) was neurotoxic. Neither ethanol nor acetaldehyde changed basal nitrite levels in the culture media. Acute ethanol (50-400 mM, 10 min) given before the NMDA treatment (25 min) resulted in a concentration-dependent suppression of the delayed cell death. The NMDA-induced NO production was, however, not affected by ethanol. Neither the NMDA excitotoxicity nor NO production was affected by acute ethanol given after NMDA treatment. Acute acetaldehyde (0.01-0.5 mM, 10 min) given before or after NMDA treatment had no effect on delayed NMDA neurotoxicity and NO production. Our data suggest that acute exposure to ethanol is not neurotoxic and is even protective against delayed NMDA-excitotoxicity when given before but not after NMDA treatment. Neither NO nor metabolism of ethanol to acetaldehyde is required for ethanol-mediated suppression of NMDA excititoxicity. Acetaldehyde, on the other hand, is toxic by itself at low concentrations (> or =10 mM). Furthermore, acute exposure to non-toxic concentrations of acetaldehyde could not protect cortical neurons against NMDA-induced excitotoxicity.     

Copper induces apoptosis in Aedes C6/36 cells

The Aedes albopictus C6/36 cell clone is used as a model system to study the effects of heavy metals on insect cells. Here we report on the effects of Cu(2+) on these cells. Similar to Cd(2+) and Hg(2+), Cu(2+) induces hyperpolymerization of the microtubules; moreover, with Cu(2+) this is followed by cell aggregation and massive apoptosis. This process, which is cell density dependent, is maximal between 0.75 and 1 mM; this is just under the LC(50) as determined by a membrane integrity test. At higher Cu(2+) concentrations, cell death occurs by necrosis. Apoptosis was ascertained by fluorescence and electron microscopy and by agarose gel electrophoresis. At 0.75 mM, apoptosis started at 18-hr exposure time and the amount of apoptotic cells increased almost linearly until 42 hr; then a plateau was reached with 70-80% apoptotic cells. This is the first report on Cu(2+)-induced apoptosis in insect cells. Possible induction mechanisms are discussed in the light of existing literature on vertebrate cells.     

Effect of tri-o-cresyl phosphate on cytoskeleton in human neuroblastoma SK-N-SH cell

Cytoskeletal components play an important role in maintaining cellular architecture and internal organization, with clear involvement of defining cell shape, in cell division and other cellular processes, such as neurite extension and maintenance. Alterations of cytoskeleton in human neuroblastoma SK-N-SH cells after exposure to different concentrations of tri-ocresyl phosphate (TOCP) for 12 hr were investigated. TOCP decreased the cell viability in a dose-dependent manner; the viability of SK-N-SH was reduced to approximately 50% of baseline after a 12-hour exposure to TOCP at high concentration (5 mM). Biochemical characterization by western blotting revealed that 1 and 5 mM concentrations of TOCP significantly inhibited the expression of neurofilament high molecular weight protein (NF-H), and that 5 mM TOCP inhibited expression of microtubule-associated protein 2c and tau protein, but not β-actin. Indirect immunofluorescence analysis revealed that higher concentrations of TOCP decreased the length of neuritis and changed the structure of microfilaments, which are associated with NF-H. In addition, activities of neuropathy target esterase and acetylcholinesterase were significantly reduced after exposure to 5 mM TOCP for 12 hr. Together, these results suggested that the loss of cytoskeletal components is the early event during the process of TOCP toxicity towards human neuroblastoma SK-N-SH cells.     

Calcium stimulation of plasminogen activator secretion/production by swiss 3T3 cells.

Actively growing Swiss 3T3 cells secret high levels of plasminogen activator which decreases after the cells become confluent. In contrast, simian virus 40-transformed 3T3 cells secrete large amounts of plasminogen activator independent of cell density (Chou, I.-N., O'Donnel, S.P., Black, P.H., and Roblin, R.O. (1977) J. Cell. Physiol. 91, 31-38). These results suggest a correlation between active cell multiplication and plasminogen activator secretion in both 3T3 and simian virus-transformed 3T3 cells. The data reported herein indicate that treatment of both subconfluent and confluent Swiss 3T3 cells with high concentrations of Ca2+ (final 3.0 to 4.9 mM) increases the amounts of both secreted and cell-associated plasminogen activator in a dose-dependent manner. In addition, the ionophore A23187 (19 to 95 nM) in the presence of a normal level of Ca2+ (1.8 mM) stimulates both production and secretion of plasminogen activator from growing 3T3 cells. The Ca2+ stimulation of plasminogen activator production/secretion may be related to the mitogenic effect of Ca2+.     

Glutathione depletion, radiosensitization, and misonidazole potentiation in hypoxic Chinese hamster ovary cells by buthionine sulfoximine

Buthionine sulfoximine (BSO) inhibits the synthesis of glutathione (GSH), the major nonprotein sulfhydryl (NPSH) present in most mammalian cells. BSO concentrations from 1 microM to 0.1 mM reduced intracellular GSH at different rates, while BSO greater than or equal to 0.1 mM (i.e., 0.1 to 2.0 mM), resulting in inhibitor-enzyme saturation, depleted GSH to less than 10% of control within 10 hr at about equal rates. BSO exposures used in these experiments were not cytotoxic with the one exception that 2.0 mM BSO/24 hr reduced cell viability to approximately 50%. However, alterations in either the cell doubling time(s) or the cell age density distribution(s) were not observed with the BSO exposures used to determine its radiosensitizing effect. BSO significantly radiosensitized (ER = 1.41 with 0.1 mM BSO/24 hr) hypoxic, but not aerobic, CHO cells when the GSH and NPSH concentrations were reduced to less than 10 and 20% of control, respectively, and maximum radiosensitivity was even achieved with microM concentrations of BSO (ER = 1.38 with 10 microM BSO/24 hr). Furthermore, BSO exposure (0.1 mM BSO/24 hr) also enhanced the radiosensitizing effect of various concentrations of misonidazole on hypoxic CHO cells.     

Alteration of glutathione level in human melanoma cells: effect of N-acetyl-L-cysteine and its analogues

The effects of N-acetyl-L-cysteine (L-NAC), N,N-diacetyl-L-cystine (oxidized form of L-NAC) and N-acetyl-D-cysteine on the intracellular glutathione (GSH) level and their toxicity were investigated in the human melanoma cell culture IGR1. L-NAC applied in 3 mM concentration for 24 hr decreased; when applied for 48 hr it did not alter the intracellular GSH level. Treatment with 1 mM L-NAC for 24 hr had no effect on cellular glutathione, whereas the same concentration applied for 48 hr resulted in an increase in the level of GSH. Both concentrations also induced cell injury as determined by protein assay and trypan blue staining. N,N-diacetyl-L-cystine (0.5 and 1.5 mM, 24 hr) induced a decrease in cellular glutathione content without any apparent cell toxicity. D-NAC (1 and 3 mM, 24 hr) did not influence the GSH level of the melanoma cells; however, it had toxic effects resulting in cell loss.     

Fluctuations in the glutathione content of confluent cultured astrocytes and glioma cells

Cultured astrocytes and glioma cells in a confluent state do not have a constant cellular concentration of glutathione. After exposure of the cells to fresh culture medium, the glutathione content of both cell types rose sharply and after a few days, fell back. For the glioma cells, the glutathione rise was higher and earlier and the fall was sharper than that of the astrocytes. Glutathione added to the culture medium had little effect on the cellular content of glutathione of astrocytes except at the highest concentrations (1 mM). Exogenous glutathione did increase the glutathione content of glioma cells and appeared to have a toxic effect at the highest concentrations. Both cell types maintained a low, constant concentration of reduced glutathione in the medium and consumed the added excess.     

Effect of human plasma lipoproteins on prostacyclin production by cultured endothelial cells

Prostacyclin (PGI2) production by bovine aortic or human umbilical vein endothelial cells increased when either human high density lipoproteins3 (HDL3) or low density lipoproteins (LDL) were added to a serum-free culture medium. At low concentrations and short incubation times, HDL3 produced more PGI2 than LDL, but LDL was just as effective as HDL3 in 18-hr incubations with high concentrations of lipoproteins. Neither lipoprotein was toxic to the cultures as assessed by [3H]leucine incorporation into cell protein. The stimulatory effect of HDL3 and LDL on PGI2 production decreased as growing cultures became confluent. Incubation with lipoproteins neither enhanced arachidonic acid release nor increased PGI2 formation when the cells were stimulated subsequently with ionophore A23187, indicating that the lipoproteins do not affect the intracellular processes involved in PGI2 production. The addition of albumin reduced the amount of PGI2 formation elicited by HDL3 or LDL. As compared with albumin-bound arachidonic acid, from 6- to 13-fold less PGI2 was produced during incubation with the lipoproteins. Furthermore, the amount of PGI2 formation elicited by the lipoproteins in 18 hr was 4-fold less than that produced during incubation with a fatty acid mixture containing only 5% arachidonic acid, and 3-fold less than when the cells were stimulated with the ionophore A23187 for 20 min. Taken together, our results indicate that human HDL and LDL contribute to endothelial PGI2 production only in a modest way and suggest that this process is not specific for either of these two plasma lipoproteins. In view of the greater participation of albumin-bound arachidonic acid in PGI2 production, plasma lipoproteins may not play as important a role in endothelial prostaglandin formation as has been suggested.     

The production and localization of laminin in cultured vascular and corneal endothelial cells

The production and localization of laminin, as a function of cell density (sparse versus confluent cultures) and growth stage (actively growing versus resting cultures), has been compared on the cell surfaces of cultured vascular and corneal endothelial cells. Comparison of the abilities of the two types of cells to secrete laminin and fibronectin into their incubation medium reveals that vascular endothelial cells can secrete 20-fold as much laminin as can corneal endothelial cells. In contrast, both cell types produce comparable amounts of fibronectin. Furthermore, if one compares the secretion of laminin and fibronectin as a function of cell growth, it appears that the laminin released into the medium by either vascular or corneal endothelial cells, is a function of cell density and cell growth, since this release is most pronounced when the cells are sparse and actively growing, and decreases by 10- and 30-fold, respectively, when either vascular or corneal endothelial cell cultures become confluent. With regard to fibronectin secretion, no such variation can be seen with vascular endothelial cell cultures, regardless of whether they are sparse and actively growing or confluent and resting. Corneal endothelial cell cultures, demonstrated a twofold increase in fibronectin production when they were confluent and resting as compared to when they were sparse and actively growing. When the distribution of laminin versus fibronectin within the apical and basal cell surfaces of cultured corneal and vascular endothelial cells is compared, one can observe that unlike fibronectin, which in sparse and subconfluent cultures can be seen to be associated with both the apical cell surface. In confluent cultures, laminin can be found associated primarily with the extracellular matrix beneath the cell monolayer, where it codistributes with type IV collagen.     

Effects of cell density and cell proliferation on acid cholesterol esterase and cathepsin activity of cultured human skin fibroblasts

We tested the effects of fibroblast cell density and proliferation on the activities of acid cholesterol esterase and cathepsins, the lysosomal enzymes which degrade low-density lipoprotein. Rates of cell proliferation were increased by: (1) fibroblast conditioned medium, (2) increasing the time since subculture from 3 to 7 days, and (3) decreasing the plating density of cells. Cathepsin activity was consistently decreased as cellular proliferation was increased by these various methods. Changes in acid cholesterol esterase activity were more variable. For example, acid cholesterol esterase activity was consistently a positive function of cell density only at densities under 3 micrograms protein/cm2, while cathepsin activity increased up to densities of 16 micrograms protein/cm2. However, the activities of both enzymes were lower at cell densities of under 3 micrograms cell protein/cm2 compared to confluent cultures. Sparse fibroblast cultures may provide a unique model system to study low-density lipoprotein metabolism since, at low cell density, LDL receptor activity is high while lysosomal activity is low, making it possible that lysosomal degradation could become the rate-limiting step in the process of LDL degradation rather than receptor-mediated internalization of the lipoprotein. This might then allow an accumulation of lipoprotein-derived cholesteryl esters in the cell. Such a model could be relevant to the propensity of arterial cells to become foam cells during atherogenesis.     

Initial Stage of Transformation of Permissive Cells by Simian Virus 40: Development of Resistance to Productive Infection

A quantitative assay has been used to determine the conditions leading to acquisition of resistance of permissive cells to lytic infection. The number of cell colonies surviving infection depends on the occurrence of several cell divisions after infection. High yields of resistant colonies were obtained when infected, confluent cultures were released from contact inhibition 10 to 14 hr after infection. Infection of actively growing cells produced similar results, but halting further division by seeding these growing cells on confluent monolayers prevented the development of colonies. Colony formation was a direct function of multiplicities lower than 5. An inverse killing response was observed with higher multiplicities, yet colonies were produced at a multiplicity of infection as high as 50. Brief exposure of input simian virus 40 to ultraviolet light stimulated colony formation. Irradiation of the virus for longer periods of time led to reduction of colony formation at a rate slower than the rate of inactivation of viral infectivity. It was concluded that resistance is induced by simian virus 40 and that this alteration represents one of the earliest detectable characteristics of the transformation of permissive cells.     

Exogenous lactate modifies the repair of potentially lethal damage in three human tumor cell lines irradiated in vitro

Lactate is one of several pathophysiological factors accumulating in the micromilieu of tumors under both hypoxic and well-oxygenized conditions, and thus may affect the recovery of irradiated tumor cells in vivo. In the present study, we investigated the effects of postirradiation incubation with exogenous lactate during confluent holding recovery on the repair of potentially lethal damage in three human tumor cell lines. Recovery was either unaffected or enhanced by low concentrations of exogenous lactate (2-5 mM), whereas it was suppressed by higher concentrations (10-50 mM). With high concentrations, survival in all three cell lines was lower at the end of the confluent holding period than at the beginning, yielding recovery ratios of less than 1.0. The effects differed quantitatively among the three tumor cell lines, and between the tumor cells and the normal diploid fibroblasts (AG 1522) studied previously.     

Effect of contact inhibition on the regulation of cholesterol metabolism in cultured vascular endothelial cells.

Cholesterol synthesis in actively growing bovine vascular endothelial cells is regulated by low density lipoprotein (LDL) at a step prior to mevalonate formation, in a manner comparable to that found in aortic smooth muscle cells. LDL uptake by these cells is associated with induction of cholesterol esterification, an increase in total cell cholesterol, and an inhibition of endogenous sterol synthesis. In contrast, cholesterol metabolism in confluent contact-inhibited endothelial cultures was not significantly affected by LDL even though the cells bind the lipoprotein at high affinity receptor sites. Lysosomal degradation and subsequent regulatory effects on cellular cholesterol metabolism, however, were observed in contact-inhibited endothelial cells incubated with cationized rather than native LDL. Cationized LDL enter the cells independently of the high affinity sites. Therefore, the primary regulation of cholesterol metabolism in these cells is neither through the appropriate intracellular enzymes nor through the high affinity surface receptors, but via an inhibition of LDL internalization. It is suggested that this inhibition is due to a strict contact-inhibited morphology which enables the endothelium of the larger arteries to function as a selective barrier to the high circulating levels of plasma LDL.     

Accumulation and mobilization of triglycerides and cholesteryl esters in Leydig tumor cells.

Incubating MA-10 Leydig tumor cells with sodium oleate led to the accumulation of triglyceride within the cells. Triglycerides were deposited in a time- and dose-dependent fashion. Cellular triglyceride promoted storage of cholesteryl ester. As much cholesteryl ester was stored in oleate-treated cells as in cells treated with saturating concentrations of low density lipoprotein. Addition of both oleate and low density lipoprotein resulted in additive accumulation of cholesteryl esters. Cholesteryl esters in cells loaded with triglyceride by oleate treatment were mobilized in response to dibutyryl-cAMP to an extent similar to that in cells containing low triglyceride concentrations. Dibutyryl-cAMP stimulated cholesteryl ester mobilization under all conditions, and stimulated triglyceride mobilization when adequate fatty acid acceptors were available. The results indicate that while triglyceride accumulation in MA-10 cells promoted cholesteryl ester deposition, it did not impair cAMP-dependent cholesteryl ester hydrolysis or steroid hormone production.