Effect of cell density on metabolism in isolated rat hepatocytes

Freshly isolated rat hepatocytes show many changes in metabolic activities as a function of cell density in the incubation flask. Fatty acid synthesis, cholesterol synthesis, general protein synthesis, and rates of accumulation of pyruvate, lactate, citrate, acetyl-CoA, acetoacetate and beta-hydroxybutyrate decrease as the cell density increases between 1 mg/ml and 60 mg/ml. Glucose release only decreases between 1-5 mg/ml and the concentration of ATP does not vary at any density. There is a small increase in the lactate/pyruvate ratio and a dramatic decrease in the beta-hydroxybutyrate/acetoacetate ratio with increasing cell concentration. When cells at 8 or 28 mg/ml were incubated with added lactate and pyruvate, or alanine, a two fold increase in fatty acid synthesis and 50% decrease in cholesterol synthesis were observed as compared to rates with endogenous substrate. With added glucose the synthetic rates were similar to those obtained with endogenous substrate. However, regardless of the type of substrate used, the less dense cells gave rates up to three times greater than that of the more dense cells. When conditioned medium isolated after incubation of cells at high density was added to the less dense cells, a decrease in the rates of fatty acid synthesis and cholesterol synthesis was observed in the less dense cells; however, when medium from the less dense cells after incubation for the same period was added to the more dense cells, there was no significant change in fatty acid or cholesterol synthesis. These results suggest that a factor may be released into the medium of incubating hepatocytes that progressively inhibits certain metabolic processes as the cell density increases.     

Synthesis and secretion of lecithin-cholesterol acyltransferase by the human hepatoma cell line HepG2

The human liver cell line HepG2 was investigated for its synthesis and secretion of lecithin-cholesterol acyltransferase. The cells were grown to confluency in Eagle's minimal essential medium plus 10% fetal bovine serum. At the onset of the study, fetal bovine serum was removed and cells were grown in minimal essential medium only. At 6, 12, 24, and 48 h the cells were harvested, and the culture medium collected at each time point was assayed for lecithin-cholesterol acyltransferase mass and activity, cholesterol esterification rate, and apolipoprotein A-I mass. The rate of the enzyme secretion measured by both mass and activity was linear over 24 h of culture. The enzyme mass by radioimmunoassay was 1.7, 4.1, 7.9 and 13.7 ng/ml culture medium (or 8.3, 19.9, 38.5 and 66.7 ng/mg cell protein), respectively, and enzyme activity using an exogenous source of phosphatidylcholine/cholesterol liposomes containing apolipoprotein A-I as substrate was 85, 170, 315, and 402 pmol cholesterol esterified/h per ml culture medium (or 414, 828, 1534 and 1957 pmol cholesterol esterified/h per mg cell protein) for 6, 12, 24, and 48 h of culture, respectively. The endogenous cholesterol esterification rate of the culture medium was 47, 104, 224 and 330 pmol/h per ml and apolipoprotein A-I mass was 305, 720, 2400 and 3940 ng/ml culture medium over the same time frame. In contrast to culture medium, low levels of enzyme activity (approximately 10% of that in culture medium at 24 and 48 h) were observed in the extracts of HepG2 cells. The enzyme secreted by HepG2 was found to be similarly activated by apolipoprotein A-I, apolipoprotein E, or apolipoprotein A-IV, and was similarly inhibited by phenylmethylsulfonyl fluoride, dithiobisnitrobenzoate, p-hydroxymercuribenzoate, or iodoacetate as compared to human plasma enzyme. High-performance gel filtration of the culture medium revealed that the HepG2-secreted enzyme was associated with a fraction having a mean apparent molecular weight of approximately 200,000. We concluded that human hepatoma HepG2 cells synthesize and secrete lecithin-cholesterol acyltransferase, which is functionally homologous to the human plasma enzyme.     

Lipoprotein and cholesterol metabolism in rabbit arterial endothelial cells in culture.

Like all other peripheral cells types thus far studied in culture, endothelial cells derived from the rabbit aorta bind, internalize and degrade low density lipoprotein (LDL) at a significant rate. At any given LDL concentration, the metabolism by rabbit endothelial cells was slower than that by fibroblasts or smooth muscle cells. Thus, longer incubations were required to achieve a net increment in cell cholesterol content or to suppress endogenous sterol synthesis; after 18-24 h incubation in the presence of LDL at 100 microgram LDL protein/ml inhibition was greater than 80% relative to the rate in cells incubated in the absence of lipoproteins. High density lipoproteins (HDL) were also taken up and degraded but did not inhibit sterol synthesis. Studies of LDL binding to the cell surface suggested the presence of at least two classes of binding sites; the high-affinity binding sites were fully saturated at very low LDL concentrations (about 5 microgram LDL protein/ml). However, the degree of inhibition of endogenous sterol synthesis increased progressively with increasing LDL concentrations from 5 to 100 microgram LDL/ml, suggesting that uptake from the low affinity sites in this cell line contributes to the suppression of endogenous sterol synthesis. The internalization and degradation of LDL also increased with concentrations as high as 700 microgram/ml. Thus, in vivo, where the cells are exposed to LDL concentrations far above that needed to saturate the high affinity sites, most of the LDL degradation would be attributable to LDL taken up from low affinity sites. As noted previously in swine arterial smooth muscle cells and in human skin fibroblasts, unlabeled HDL reduced the binding, internalization and degradation of labeled LDL. Cells incubated for 24 h in the presence of high concentrations of LDL alone showed a net increment in cell cholesterol content; the simultaneous presence of HDL in the medium significantly reduced this LDL-induced increment in cell cholesterol content. The possible relationship between LDL uptake and degradation by these cells in vitro is discussed in relationship to their transport function in vivo.     

Beta-VLDL increases endothelial cell plasma membrane cholesterol

In this study, the distribution of free cholesterol in cholesterol-loaded endothelial cells was examined. For these studies, cell fractionation methods were used to assess marker enzyme activity and cholesterol distribution. Treatment of rabbit aortic endothelial cells for 3 days with 50 micrograms/ml of beta-very low density lipoprotein (beta-VLDL) or malondialdehyde-low density lipoprotein (MDA-LDL) but not LDL caused a 50-100% increase in total cell unesterified cholesterol. The accumulation of free rather than esterified cholesterol in endothelial cells may be due to the ratio of hydrolysis to esterification, which we have shown in this study to be 10-fold higher in endothelial cells than in smooth muscle cells. This free cholesterol is found in the fractions enriched in plasma membrane markers and, to a lesser extent, in the Golgi-enriched fractions. The amount of cholesterol per mg of protein was increased approximately 50% in these fractions from cells treated for 3 days with 50 micrograms/ml of beta-VLDL. These increases in cholesterol content were reversible upon incubation of cells for 3 days in medium containing 15% fetal bovine serum. Alterations in several membrane functions were also observed in cholesterol-loaded cells. The activity of alkaline phosphatase, an enzyme marker for plasma membranes, was decreased by 25% and an alteration in membrane-associated microfilaments was seen with phalloidin staining. This morphological change in microfilaments was reflected in a decrease in filament ends as shown by cytochalasin binding and occurred without a change in total actin or vinculin. These microfilament changes were reversible.(ABSTRACT TRUNCATED AT 250 WORDS)     

The influence of cellular and lipoprotein cholesterol contents on the flux of cholesterol between fibroblasts and high density lipoprotein

Previous studies indicate that free cholesterol moves passively between high density lipoprotein (HDL) and cell plasma membranes by uncatalyzed diffusion of cholesterol molecules in the extracellular aqueous phase. By this mechanism, the rate constants for free cholesterol influx (Cli) and efflux (ke) should not be very sensitive to the free cholesterol content of cells or HDL. Thus, at a given HDL concentration, the unidirectional influx and efflux of cholesterol mass (Fi, Fe) should be proportional to the cholesterol content of HDL and cells, respectively, and net efflux of cholesterol mass (Fe-Fi greater than 0) should occur when either cells are enriched with cholesterol or HDL is depleted of cholesterol. We have examined the influence of cell and HDL free cholesterol contents on the bidirectional flux of free cholesterol between HDL and human fibroblasts and also attempted to detect some dependence of flux on the binding of HDL to the cells. In the range of HDL concentrations from 1 to 1000 micrograms of protein/ml, ke for cell free cholesterol approximately doubled for every 10-fold increase in HDL concentration, reaching 0.04 h-1 at 1000 micrograms of HDL/ml. ke and Cli were not influenced by the doubling of fibroblast free cholesterol content (from 31 +/- 5 to 62 +/- 13 micrograms of cholesterol/mg of protein). There was an approximate exchange of cholesterol between HDL and the unenriched fibroblasts (e.g. at [HDL] = 100 micrograms/ml, Fe and Fi = 3.2 and 3.0 micrograms of cholesterol/[4 h.mg of cell protein], respectively). In contrast, there was substantial net efflux from the enriched cells (at [HDL] = 100 micrograms/ml, Fe and Fi = 5.5 and 3.1 micrograms of cholesterol/[4 h.mg of cell protein], respectively). The rate constants for cholesterol flux were not influenced by changing the free cholesterol content of HDL, so that there was net efflux of cell cholesterol in the presence of cholesterol-depleted HDL and net influx from cholesterol-rich HDL. The Kd of HDL binding to fibroblasts was reduced from 1.7 to 0.9 micrograms/ml by the enrichment of the cells with free cholesterol; this increase in affinity for HDL was not reflected in enhanced rate constants for cholesterol flux. The inhibition of specific HDL binding by treatment of the lipoprotein with dimethyl suberimidate did not affect cholesterol flux using either control or cholesterol-rich cells at any HDL concentration in the range 1-1000 micrograms/ml. The above results are consistent with the concept that net movement of free cholesterol between cells and HDL occurs by passive, mass-action effects.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effects of endogenous and exogenous cholesterol on the ultrastructure and steroid secretion of undifferentiated rat adrenocortical cells in primary culture

Summary The present study was undertaken to define the effects of lipoprotein-derived cholesterol and endogenous, de novo synthesized cholesterol on the ultrastructure and function of undifferentiated rat adrenocortical cells [lipoprotein (HDL₃ and LDL) receptor-negative, zona glomerulosa-like adrenocortical cells] in primary culture. For this purpose human plasma high density lipoprotein (HDL₃) or low density lipoprotein (LDL) was added to culture medium devoid of cholesterol. Steroid secretion remained at the low basal level even after addition of lipoproteins, and the amount of intracellular lipid droplets did not increase. When mevinolin (0.96 µg/ml), an inhibitor of cholesterol synthesis, was added to the culture medium, a low secretion of corticosterone was measured both in serum-free and serum-containing media. Ultrastructurally, lipid droplets disappeared after treatment with mevinolin in both media used. At this concentration of mevinolin cell proliferation was similar to that in the controls, but at higher concentrations (4.8 or 9.6 µg/ml) proliferation was inhibited to 42% and 26% in serum-free medium, and 20% and 12% in serum-supplemented medium, respectively. This study demonstrates that cell proliferation and synthesis of corticosterone by undifferentiated rat adrenocortical cells is identical in the absence or presence of exogenous lipoprotein cholesterol. Inhibition of de novo cholesterol synthesis by mevinolin over a period of 7 days does not inhibit corticosterone secretion or proliferation of cells but decreases the amount of intracellular lipid droplets, thus suggesting utilization of intracellular cholesterol esters. However, higher concentrations of mevinolin inhibit proliferation of cells both in serum-free and serum-containing media.     

Population-dependent requirements of vitamin B12 and metabolically related substances of several mouse cell types in serum-free, albumin-fortified medium

Mouse FM3A cells propagated well in serum-free medium containing 0.5% serum albumin and 1 microgram of insulin/ml. The vitamin B12 (B12) requirement of the cells depended on the population density. This requirement disappeared when a sufficiently large cell population was present. A combination of 1-100 ng of B12/ml and 4 micrograms of hypoxanthine/ml resulted in a synergistic increase in cell growth at low cell densities. A similar growth response was obtained when the B12 plus hypoxanthine was replaced by 4 micrograms of hypoxanthine/ml in combination with 100 ng of thymidine/ml, 1 microgram of folic acid/ml or 1 microgram of folinic acid/ml, even though 1 microgram of folic acid/ml already was present in the medium. Experiments on single cell inoculation showed that colony size and the yield of cells grown in B12-supplemented medium were much larger than those for cells grown in B12-free medium. A more critical population-dependent B12 requirement was demonstrated in mouse Ehrlich and L cells and their hybrids. At less than 100 cells there was no propagation in serum-free medium lacking B12, folinic acid and thymidine; whereas, a satisfactory growth response was obtained in medium supplemented with these substances.     

Effects of epidermal growth factor and transforming growth factor-beta 1 on rat heart endothelial cell anchorage-dependent and -independent growth

This report describes the effects of epidermal growth factor (EGF) and transforming growth factor-beta 1 (TGF-beta 1) on the anchorage-dependent and -independent growth of rat heart endothelial cells (RHE-1A). When RHE-1A cells were grown in monolayer culture with medium containing 10% fetal bovine serum (FBS) supplemented with epidermal growth factor (0.1-100 ng/ml), growth was stimulated fivefold when compared to that of cells grown in medium containing 10% FBS alone. The stimulatory effect of EGF on RHE-1A cell monolayer growth was dose-dependent and half-maximal at 5 ng/ml. The addition of TGF-beta 1 in the range 0.1-10 ng/ml had no effect on RHE-1A cell monolayer growth when added to medium containing 10% FBS alone or 10% FBS supplemented with EGF (50 ng/ml). RHE-1A cells failed to grow under anchorage-independent conditions in 0.3% agar medium containing 10% FBS. In the presence of EGF, however, colony formation increased dramatically. The stimulatory effect of EGF was dose-dependent in the range 0.1-100 ng/ml and was half-maximal at 5 ng/ml. In contrast to its effects under anchorage-dependent conditions, TGF-beta 1 (0.1-10 ng/ml) antagonized the stimulatory effects of EGF on RHE-1A cell anchorage-independent growth. The inhibitory effect of TGF-beta 1 was dose-dependent and half-maximal at 0.1 ng/ml. EGF-induced RHE-1A soft agar colonies were isolated and reinitiated in monolayer culture. They retained the cobblestone morphology and contact-inhibition characteristic of normal vascular endothelial cells. Each of the clones continued to express Factor VIII antigen. These findings suggest that TGF-beta may influence not only endothelial cell proliferation but also anchorage dependence. These effects may in turn be of relevance to endothelial cell growth and angiogenesis in vivo.     

Heparin and endothelial cell growth factor modulate collagen and proteoglycan production in human smooth muscle cells

The effects of heparin and endothelial cell growth factor (ECGF) on extracellular matrix production were examined in human iliac smooth muscle cells. The cells were grown in (a) medium supplemented with heparin (100 micrograms/ml) and ECGF (75 micrograms/ml), (b) medium supplemented with ECGF (75 micrograms/ml) alone, or (c) unsupplemented medium. In the presence of heparin and ECGF, collagen production was inhibited 91-95% as compared to cultures incubated with ECGF alone or without both supplemental factors. In contrast, the production of proteoglycans was elevated 2.5 fold in the presence of heparin and ECGF. Enzymatic digestion of the proteoglycans indicated that both large and small molecular weight chondroitin sulfate proteoglycans were markedly elevated, while dermatan sulfate and heparan sulfate proteoglycans were increased to a lesser extent. The results suggest that the combination of heparin and ECGF elicits potent modulation of extracellular matrix production, with divergent effects on collagen and proteoglycan synthesis.     

Cholesterol modulates PAF-stimulated Ca2(+)-mobilization in monocytic U937 cells

We investigated the effect of cellular cholesterol content on platelet activating factor (PAF)-stimulated Ca2+ mobilization in the human monocytic cell line U937. When cholesterol auxotroph U937 cells were depleted of cellular cholesterol by a 48-h incubation in delipidated medium, a 40% reduction in the PAF (100 nM)-stimulated increase in cytosolic Ca2+ concentration was seen. Ca2+ mobilization following stimulation with LTD4 (10 nM) or ATP (10 microM) was not affected. Addition of LDL (100 micrograms/ml, 24 h) to the delipidated medium completely recovered cellular cholesterol content and PAF-induced Ca2+ mobilization. These two LDL effects had very similar time- and dose-dependences. Partial recoveries of PAF-induced Ca2+ mobilization, seen after addition of pure cholesterol dissolved in ethanol (30 micrograms/ml, 24 h) or acetyl-LDL (100 micrograms/ml, 24 h), were associated with partial recoveries of cellular cholesterol content. Our results indicate that cellular cholesterol influences PAF-stimulated events in monocytic cells.     

Effects of cholesterol and lipoproteins on endocytosis by a monocyte-like cell line

The human monocyte/macrophage-like cell line U937 is a cholesterol auxotroph. Incubation of these cells in the growth medium in which delipidated fetal calf serum has been substituted for fetal calf serum depletes cellular cholesterol and inhibits growth. The cholesterol requirement of these cells for growth can be satisfied by human low-density lipoprotein (LDL), and very-low-density lipoprotein (VLDL), but not by high-density lipoprotein (HDL). U937 cells can bind and degrade LDL via a high-affinity site and this recognition is altered by acetylation of LDL. This indicates that these cells express relatively high LDL receptor activity and low levels of the acetyl-LDL receptor. The cells were used to study the role of cholesterol in lectin-mediated and fluid-phase endocytosis. Growth of the cells in the medium containing delipidated fetal calf serum results in impairment of both concanavalin A-mediated endocytosis of horseradish peroxidase and concanavalin A-independent endocytosis of Lucifer Yellow. Supplementation of the medium with cholesterol prevents cellular cholesterol depletion, supports growth and stimulates Lucifer Yellow endocytosis but fails to restore horseradish peroxidase endocytosis. However, if the cells are incubated in the presence of no less than 40 μg LDL protein/ml to maintain normal cell cholesterol levels, concanavalin A-mediated endocytosis of horseradish peroxidase is activated. The effect of LDL is specific since neither VLDL nor HDL₃ at the same protein concentration activates horseradish peroxidase uptake by the cells. Furthermore, the activation of endocytosis by LDL is not inhibited by the inclusion of heparin or acetylation of the LDL indicating that binding of LDL to the LDL receptor is not required for these effects. The mediation of activation of horseradish peroxidase endocytosis by the lectin is presumed to involve binding of LDL to concanavalin A associated with the cell surface which in turn stimulates horseradish peroxidase binding and uptake by adsorptive endocytosis. The rate of fluid endocytosis and endosome formation seems to depend on cellular cholesterol content presumably because cholesterol is involved in maintaining the appropriate plasma membrane structure and fluidity.     

Evidence for protein kinase C regulation of ovarian theca-interstitial cell androgen biosynthesis

The hypothesis that protein kinase C may be an important regulator of ovarian theca-interstitial cell steroidogenesis was tested by using phorbol-12-myristate-13-acetate (PMA) and phorbol-12, 13-dibutyrate (PDB) to directly stimulate protein kinase C activity. Collagenase-dispersed cells (4 x 10(5) viable cells/dish) form ovaries of hypophysectomized immature rats were cultured in serum-free medium in the presence and absence of 0-100 ng/ml of luteinizing hormone (LH), PMA (0-100 nM), and/or PDB (0-100 nM). Treatment with 100 ng/ml LH stimulated androsterone production 100-fold at Day 4 of culture. The presence of 100 nM PMA or PDB had no effect on basal androsterone production; however, treatment with increasing concentrations of PMA or PDB (0-100 nM) caused a dose-related inhibition (maximum 70%) of LH-stimulated androsterone synthesis (ID50 = 1.8 nM and 2.4 nM, respectively). PMA and PDB did not significantly alter DNA, protein, or cell viability, indicating that their inhibitory effects were not due to changes in cell number or viability. Cells treated with LH and 100 nM 4 alpha-phorbol didecanoate (4 alpha-PDD; a phorbol ester that does not activate protein kinase C) failed to show significant decreases in androsterone production. Time-course studies revealed that when PMA treatment was delayed until Day 2 or 4 of culture, dramatic inhibitory effects on LH-stimulated androsterone production were still observed. These results suggest that the biological activity of protein kinase C is retained after the cells have expressed their differentiated state.(ABSTRACT TRUNCATED AT 250 WORDS)     

Serum AFP, hCG and CEA in the management of patients with testicular, ovarian and extragonadal germ cell tumors.

Serum levels of AFP, hCG and CEA were initially and serially measured in 59 patients with testicular germ cell tumors, and serially in 37 with ovarian and 3 with extragonadal germ cell tumors. Patients with seminoma/dysgerminoma or mature teratoma had normal serum AFP and sporadically slightly elevated hCG. Some patients with embryonal carcinoma, pure or with admixture of seminoma, had serum AFP elevated to maximum 100 U/ml, yet its use for monitoring therapy was limited. Patients with yolk sac tumors had elevated AFP and sometimes CEA levels, those with choriocarcinoma had elevated hCG, and those with compound tumors had one or more of the markers highly elevated. High AFP and/or hCG levels indicated the presence of the relevant tumor cells both in the primary and in residual tumor and/or metastases, also those missed in histological material, and thus were useful in restaging. Unfortunately, their absence in serum did not exclude the presence of marker-negative subpopulations of tumor cells. Changes in marker values paralleled the effects of treatment: the level increasing from any nadir heralded recurrence in patients in remission; elevated or increasing levels during therapy implied resistance to the therapy; decreasing levels indicated regression even though a return to the normal range did not mean eradication of all tumor cells.     

Influence of increased temperature on the inhibition of rat osteosarcoma cell multiplication "in vitro" by interferon

Purified rat interferon preparations proved effective in inhibiting cell multiplication in a rat osteosarcoma cell line. A pronounced increase in the inhibitory activity was found with increasing temperature. At 39 degrees C 20 Interferon units/ml appeared to be cytotoxic whereas incubation of cells with 2,000 Interferon units/ml at 35 degrees C resulted in a cytostatic effect.     

Factors controlling the proliferative rate, final cell density, and life span of bovine vascular smooth muscle cells in culture

Low density vascular smooth muscle (VSM) cell cultures maintained on extracellular-matrix(ECM)-coated dishes and plated in the presence of either plasma or serum will proliferate actively when serum-containing medium is replaced by a synthetic medium supplemented with three factors: high density lipoprotein (HDL, 250 micrograms protein/ml); insulin (2.5 micrograms/ml) or somatomedin C (10 ng/ml); and fibroblast growth factor (FGF, 100 ng/ml) or epidermal growth factor (EGF, 50 ng/ml). The omission of any of these three factors from the synthetic medium results in a lower growth rate of the cultures, as well as in a lower final cell density once cultures reach confluence. When cells are plated in the total absence of serum, transferrin (10 micrograms/ml) is also required to induce optimal cell growth. The effects of the substrate and medium supplements on the life span of VSM cultures have also been analyzed. Cultures maintained on plastic and exposed to medium supplemented with 5% bovine serum underwent 15 generations. However, when maintained on ECM-coated dishes the serum-fed cultures had a life span of at least 88 generations. Likewise, when cultures were maintained in a synthetic medium supplemented with HDL and either FGF or EGF, an effect on the tissue culture life span by the substrate was observed. Cultures maintained on plastic underwent 24 generations, whereas those maintained on ECM-coated dishes could be passaged repeatedly for 58 generations. These experiments demonstrate the influence of the ECM-substrate only in promoting cell growth but also in increasing the longevity of the cultures.     

Production of 25-hydroxycholesterol by testicular macrophages and its effects on Leydig cells

Testicular macrophages secrete 25-hydroxycholesterol, which can be converted to testosterone by neighboring Leydig cells. The purposes of the present studies were to determine the mode of production of this oxysterol and its long-term effects on Leydig cells. Because oxysterols are produced both enzymatically and by auto-oxidation, we first determined if testicular macrophages possess cholesterol 25-hydroxylase mRNA and/or if macrophage-secreted products oxidize cholesterol extracellularly. Rat testicular macrophages had 25-hydroxylase mRNA and converted 14C-cholesterol to 14C-25-hydroxycholesterol; however, radiolabeled cholesterol was not converted to 25-hydroxycholesterol when incubated with medium previously exposed to testicular macrophages. Exposure of Leydig cells to 10 microg/ml of 25-hydroxycholesterol, a dose within the range known to result in high basal production of testosterone when tested from 1 to 6 h, completely abolished LH responsiveness after 2 days of treatment. Because 25-hydroxycholesterol is toxic to many cell types at 1-5 microg/ml, we also studied its influence on Leydig cells during 4 days in culture using a wide range of doses. Leydig cells were highly resistant to the cytotoxic effects of 25-hydroxycholesterol, with no cells dying at 10 microg/ml and only 50% of cells affected at 100 microg/ml after 2 days of treatment. Similar conditions resulted in 100% death of a control lymphocyte cell line. These results demonstrate that 1) testicular macrophages have mRNA for cholesterol 25-hydroxylase and can convert cholesterol into 25-hydroxycholesterol, 2) macrophage-conditioned medium is not capable of auto-oxidation of cholesterol, 3) Leydig cells are highly resistant to the cytotoxic influences of 25-hydroxycholesterol, and 4) long-term treatment with high doses of 25-hydroxycholesterol results in loss of LH responsiveness. These results support the concept that testicular macrophages enzymatically produce 25-hydroxycholesterol that not only is metabolized to testosterone by Leydig cells when present at putative physiological levels but also may exert inhibitory influences on Leydig cells when present for extended periods at very high concentrations that may occur under pathological conditions.     

Influence of luteinizing hormone and adenosine 3':5'-cyclic monophosphate on the metabolism of free and esterified cholesterol in mouse Leydig-cell tumours

1. Male C57B1/6J mice bearing Leydig-cell tumours known to synthesize steroids in response to luteinizing hormone (LH) were given intravenous injections of [1,2-(3)H]cholesterol (50-100muCi per animal). Single-cell suspensions were prepared from the tumours 5-9 days after the injection of [(3)H]cholesterol and were incubated at 37 degrees C in foetal calf serum supplemented with 50mm-Tris-HCl, pH7.4. At various times after the start of incubation cells were collected by filtration of portions of the suspension and their sterols analysed. Within 10min after LH (5mug/ml) or 3':5'-cyclic AMP (20mm) was added to the cell suspensions an increased conversion of ester cholesterol into free cholesterol could be demonstrated. 2. To observe this rapid effect of LH it was necessary to incubate the cells for 60min before addition of hormone. 3. The specific radioactivity of testosterone produced was approximately equal to that of the intracellular cholesterol regardless of the presence or absence of LH. 4. The amount of free cholesterol produced in response to LH was far greater than that needed for steroid synthesis. 5. Free cholesterol, but not esterified cholesterol, was released into the incubation medium linearly with time and this release was unaffected by LH. LH may stimulate steroidogenesis in part by increasing the concentration of free cholesterol within the cell.     

Characterization of lipoproteins produced by the human liver cell line, Hep G2, under defined conditions

Confluent monolayers of the human hepatoblastoma-derived cell line, Hep G2, were incubated in serum-free medium. Conditioned medium was ultracentrifugally separated into d less than 1.063 g/ml and d 1.063-1.20 g/ml fractions since very little VLDL was observed. The d less than 1.063 g/ml fraction was examined by electron microscopy; it contained particles of 24.5 +/- 2.3 nm diameter, similar in size to plasma LDL; a similar size was demonstrated by nondenaturing gradient gel electrophoresis. These particles possessed apoB-100 only. The d less than 1.063 g/ml fraction had a lipid composition unlike that of plasma LDL; unesterified cholesterol was elevated, there was relatively little cholesteryl ester, and triglyceride was the major core lipid. The d 1.063-1.20 g/ml fraction was heterogeneous in size and morphology. Electron microscopy revealed discoidal particles (14.9 +/- 3.2 nm long axis and 4.5 +/- 0.2 nm short axis) as well as small spherical ones (7.6 +/- 1.4 nm diameter). Nondenaturing gradient gel electrophoresis consistently showed the presence of peaks at 13.4 11.9, 9.7, and 7.4 nm. The latter peak was conspicuous and probably corresponded to the small spherical structures seen by electron microscopy. Unlike plasma HDL, Hep G2 d 1.063-1.20 g/ml lipoproteins contained little or no stainable material in the (HDL3a)gge region by gradient gel electrophoresis. Hep G2 d 1.063-1.20 g/ml lipoproteins differed significantly in composition from their plasma counterparts; unesterified cholesterol and phospholipid were elevated and the mole ratio of unesterified cholesterol to phospholipid was 0.8. Cholesteryl ester content was extremely low. ApoA-I was the major apolipoprotein, while apoE was the next most abundant protein; small quantities of apoA-II and apoCs were also present. Immunoblot analysis of the d 1.063-1.20 g/ml fraction after gradient gel electrophoresis showed that apoE was localized in the larger pore region of the gel (apparent diameter greater than 12.2 nm); the apoA-I distribution in this fraction was very broad (7.1-12.2 nm), and included a distinct band at 7.4 nm. Immunoblotting after gradient gel electrophoresis of concentrated medium revealed that a significant fraction of apoA-I in the uncentrifuged medium was in a lipid-poor or lipid-free form. This cell line may be a useful model for investigating the metabolism of newly formed HDL.     

Stimulation of the LDL receptor activity in the human hepatoma cell line Hep G2 by high-density serum fractions

The regulation of the LDL receptor activity in the human hepatoma cell line Hep G2 was studied. In Hep G2 cells, in contrast with fibroblasts, the LDL receptor activity was increased 2.5-fold upon increasing the concentration of normal whole serum in the culture medium from 20 to 100% by volume. Incubation of the Hep G2 cells with physiological concentrations of LDL (up to 700 micrograms/ml) instead of incubation under serum-free conditions resulted in a maximum 2-fold decrease in LDL receptor activity (10-fold decrease in fibroblasts). Incubation with physiological concentrations of HDL with a density of between 1.16 and 1.20 g/ml (heavy HDL) resulted in an approximately 7-fold increase in LDL receptor activity (1.5-fold increase in fibroblasts). This increased LDL receptor activity is due to an increase in the number of LDL receptors. Furthermore, simultaneous incubation of Hep G2 cells with LDL and heavy HDL (both 200 micrograms/ml) resulted in a 3-fold stimulation of the LDL receptor activity as compared with incubation in serum-free medium. 3-Hydroxy-3-methylglutaryl-CoA reductase activity was also stimulated after incubation of Hep G2 with heavy HDL (up to 3-fold). The increased LDL receptor activity in Hep G2 cells after incubation with heavy HDL was independent of the action of lecithin:cholesterol acyltransferase during that incubation. However, previous modification of heavy HDL by lecithin:cholesterol acyltransferase resulted in an enhanced ability of heavy HDL to stimulate the LDL receptor activity. Our results indicate that in Hep G2 cells the heavy HDL-mediated stimulation of the LDL receptor activity overrules the LDL-mediated down-regulation and raises the suggestion that in man the presence of heavy HDL and the action of lecithin:cholesterol acyltransferase in plasma may be of importance in receptor-mediated catabolism of LDL by the liver.