Altered low density lipoprotein receptor regulation is associated with cholesteryl ester accumulation in simian virus 40 transformed rodent fibroblast cell lines

Summary Several SV40 transformed REF52 cell lines were found to accumulate 5 to 10 times more cholesteryl esters compared to their parent line REF52 when cultured in 10% serum. Under this culture condition, the cholesteryl ester to phospholipid ratio was 0.4∶1 and 2.0∶1 to 3.8∶1 for normal and SV40 tranformed cells, respectively. The mechanism underlying cholesteryl ester accumulation in SV40 transformed lines was investigated. We found that 1) the rate of thede novo cholesterol and cholesteryl ester synthesis was roughly equal in normal and transformed derivatives; 2) the accumulation of cholesteryl esters in the transformants would not occur when cultured in lipoprotein-deficient medium and reappeared upon their return to low density lipoprotein-containing medium; 3) the transformants expressed twice as many low density lipoprotein receptors and were less sensitive to LDL-induced receptor down regulation compared to their nontransformed counterparts. The results indicate that SV40 transformed lines exhibited an accelerated lipid uptake from the culture medium due to an altered regulation of low density lipoprotein receptor activity. Supported by NCI grant CA 38016 Editor's Statement This article reports alteration of cholesterol metabolism in rat cells by viral transformation and provides an explanation for the phenomenon at a molecular level. The results may be widely applicable to other instances of viral transformation or virus infection.     

Liposome-mediated delivery of ribosome inactivating proteins to cells in vitro

This study describes the liposome-mediated delivery of toxins to a variety of cells in vitro. Gelonin, a potent inhibitor of protein synthesis from Gelonium multiflorum, was delivered to the cytoplasm of TLX5 lymphoma cells most effectively by phosphatidylserine vesicles. These liposomes were also capable of inhibiting protein synthesis in XC (transformed rat fibroblasts) and phytohaemagglutinin-stimulated CBA mouse lymphocytes. Phosphatidylcholine liposomes had no capacity to deliver their contents to the cytoplasm, but the addition of cholesterol to the vesicle membrane resulted in an increased capacity. Delivery events were enhanced further by the addition of mixed bovine brain gangliosides to the membrane in the ratio 5:5:1 phosphatidylcholine/cholesterol/gangliosides. The addition of cholesterol to phosphatidylserine vesicles failed to increase the inhibitory effects of the gelonin liposomes. The A chain of diphtheria toxin encapsulated in phosphatidylserine liposomes had no inhibitory effect on the level of protein synthesis in TLX5 or Daudi cells.     

Nef induces multiple genes involved in cholesterol synthesis and uptake in human immunodeficiency virus type 1-infected T cells

Several recent reports indicate that cholesterol might play an important role in human immunodeficiency virus type 1 (HIV-1) replication. We investigated the effects of HIV-1 infection on cholesterol biosynthesis and uptake using microarrays. HIV-1 increased gene expression of cholesterol genes in both transformed T-cell lines and primary CD4(+) T cells. Consistent with our microarray data, (14)C-labeled mevalonate and acetate incorporation was increased in HIV-1-infected cells. Our data also demonstrate that changes in cholesterol biosynthesis and uptake are only observed in the presence of functional Nef, suggesting that increased cholesterol synthesis may contribute to Nef-mediated enhancement of virion infectivity and viral replication.     

Synthesis and secretion of apoE in thioglycolate-elicited mouse peritoneal macrophages: effect of cholesterol efflux

ApoE synthesis and secretion, as a function of cellular cholesterol content and cholesterol efflux, was studied in thioglycolate-elicited mouse peritoneal macrophages. As expected, loading elicited macrophages with cholesterol induced a 5-fold increase in apoE secretion and a 2.5-fold increase in cellular apoE content over a 5-h period. Treatment of cholesterol-loaded cells with HDL3 further increased apoE secretion 1.7-fold and decreased cellular cholesterol by 20%. Treatment of cholesterol-loaded cells with HDL3 and SAH 58.035 (an ACAT inhibitor) increased apoE secretion 2.4-fold and decreased cellular cholesterol content by 35%. Treatment of the cells with the ACAT inhibitor alone suppressed apoE secretion by 40% but did not change cellular cholesterol content. Northern blot analysis of RNA indicated that cholesterol loading increased apoE mRNA 2-fold. ApoE mRNA levels were not further affected by treatment with HDL3 and/or the ACAT inhibitor. Cholesterol-loaded cells, in the absence of HDL3, secreted apoE into the media in two fractions as determined by column chromatography: a large molecular weight complex, (larger than HDL), and an essentially lipid-free protein. In the presence of HDL3, the cells secreted apoE in three fractions: a large molecular weight complex, an essentially lipid-free protein, and over 50% of apoE associated with HDL. In the process, HDL3 became larger and eluted in a position identical to that of HDL2. A small amount of HDL3-derived material was also transformed to an LDL-size particle. Incubation of HDL3 in the absence of cholesterol-loaded cells did not produce these changes. It is concluded that cholesterol-loading increases apoE mRNA content and apoE synthesis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sterol synthesis is up-regulated in cholesterol-loaded pigeon macrophages during induction of cholesterol efflux.

The extent to which cholesterol synthesis is modulated in macrophage foam cells by changes in cholesterol influx and efflux was determined using thioglycollate-elicited peritoneal macrophages from normal and cholesterol-fed White Carneau (WC) and Show Racer (SR) pigeons. In peritoneal macrophages from normocholesterolemic pigeons, sterol synthesis from [(14)C]-acetate was down-regulated by more than 90% following incubation in vitro with beta-VLDL. Sterol synthesis was increased when the cellular free cholesterol concentration was decreased in response to stimulation of cholesterol efflux with apoHDL/phosphatidylcholine vesicles and cyclodextrin. Peritoneal macrophages isolated from hypercholesterolemic pigeons were loaded with cholesterol to levels similar to foam cells from atherosclerotic plaques (375-614 microg/mg cell protein), and had an extremely low rate of sterol synthesis. When cholesterol efflux was stimulated in these cells, sterol synthesis increased 8 to 10-fold, even though the cells remained grossly loaded with cholesterol. Cholesterol efflux also stimulated HMG-CoA reductase activity and LDL receptor expression. This suggests that only a small portion of the total cholesterol pool in macrophage foam cells was responsible for regulation of sterol synthesis, and that cholesterol generated by hydrolysis of cholesteryl esters was directed away from the regulatory pool by efflux from the cells. When the increase in sterol synthesis was blocked with the HMG-CoA reductase inhibitor mevinolin, there was no difference in the cholesterol content of the cells, or in the mass efflux of cholesterol into the culture medium.Thus, under these conditions, the increase in cholesterol synthesis during stimulation of cholesterol efflux does not appear to contribute significantly to the mass of cholesterol in these macrophage foam cells. Whether a similar situation exists in vivo is unknown.     

Depletion of substrates for protein prenylation increases apoptosis in human periovulatory granulosa cells

Progesterone receptor (PR) stimulation promotes survival in human and rat periovulatory granulosa cells. PR antagonists, Org 31710 and RU 486, both increase apoptosis and decrease cholesterol synthesis in these cells. The decrease in cholesterol synthesis also causes decreased synthesis of other products branching from the cholesterol synthesis pathway, including substrates for protein prenylation. In this study we focus on the link between apoptosis and prenylation in human periovulatory granulosa cells. A decreased cholesterol synthesis and increased apoptosis was verified in experiments with human periovulatory granulosa cells treated with the PR antagonists Org 31710 or RU 486 by measuring caspase-3/7 activity and incorporation of 14C-acetate into cholesterol and progesterone. Correspondingly, specific inhibition of cholesterol synthesis in periovulatory human granulosa cells using HMG-CoA reductase inhibitors (lovastatin or simvastatin) increased apoptosis, measured as caspase-3/7 activity. The increase in apoptosis caused by simvastatin or Org 31710 was partially reversed by addition of the protein prenylation precursors farnesol or geranylgeraniol. In addition, the prenylation inhibitors FTI R115777 and GGTI 2147 increased apoptosis in these cells. In conclusion our data suggest that PR antagonists increase apoptosis and reduce cholesterol synthesis in periovulatory granulosa cells and that the resulting depletion of substrates for protein prenylation may contribute to the increased apoptosis sensitivity.     

Modification of steroidogenesis in a mouse adrenal cell line (Y-1) transformed by simian adenovirus SA-7

Transformation of a steroidogenic mouse adrenal cell line (Y-1) by simian adenovirus SA7 produced a cell line with low apparent steroidogenic activity. The effect of ACTH and cholera toxin on cyclic AMP production was similar in both not transformed and virus-transformed cells and activity of cyclic AMP-dependent protein kinase was also similar in both cells. In transformed cells, cholesterol was metabolized to delta 5-3 beta-hydroxysteroids, mainly 20 alpha-dihydropregnenolone while in not transformed cells, the major metabolites were delta 4-3 ketosteroids (20 alpha-dihydro- and 11 beta-hydroxy-20 alpha-dihydroprogesterone). In both cell lines ACTH increased the metabolism of cholesterol. Further studies with labelled pregnenolone and progesterone revealed a loss of delta 5-3 beta-hydroxysteroid dehydrogenase/isomerase and 11 beta-hydroxylase activity in the transformed cells.     

Calcium-mediated regulation of the low density lipoprotein receptor and intracellular cholesterol synthesis in human epidermal keratinocytes

Unlike cells cultured under physiological Ca2+ concentrations (1-2 mM), keratinocytes cultured in media containing Ca2+ in low concentrations (less than 0.1 mM) do not stratify. The latter cells also differ with respect to several features of the regulation of cholesterol synthesis. In keratinocytes cultured in medium containing high Ca2+ concentrations (1.6 mM) and fetal calf serum, the rate of cholesterol synthesis was 20-30 times higher than in keratinocytes exposed to a low Ca2+ concentration. The rate of cholesterol synthesis did not change when high-calcium cells were deprived of extracellular sources of cholesterol but increased (8-10 fold) in deprived low-calcium cells. Furthermore, the addition of low density lipoprotein (LDL) reduced cholesterol synthesis markedly in low-calcium cells but had no effect on high-calcium cells. Finally, in keratinocytes cultured at low calcium concentrations the association and degradation of 125I-LDL was 20-30 times higher than in keratinocytes cultured under high-calcium conditions. Switching of the cells from the low-calcium to the high-calcium medium resulted in the induction of terminal differentiation within 15 hours and was accompanied by increased cholesterol and protein synthesis, increased competence of cells to form cornified envelopes, and reduced association of 125I-LDL. A gradual increase of the extracellular Ca2+ concentration was accompanied by a corresponding increase of cholesterol and protein synthesis and a decrease of the response of intracellular cholesterol synthesis to changes in the extracellular concentrations of lipoprotein. Various morphological techniques showed virtually no binding and internalization of LDL by keratinocytes cultured at the high-calcium level, whereas both were observed at the low-calcium level. Once internalized, the LDL was delivered to dense bodies representing lysosomes. It is concluded that in human epidermal keratinocytes, the expression of the LDL receptor and the endogenous synthesis of cholesterol are regulated by the conditions determined by the differentiation stage of the cells.     

Differential uptake and metabolism of free and esterified cholesterol from high-density lipoproteins in the ovary

Rat luteal cells utilize high-density lipoproteins (HDL) as a source of cholesterol for steroid synthesis. Both the free and esterified cholesterol of HDL are utilized by these cells. In this report, we have examined the relative uptake of free and esterified cholesterol of HDL by cultured rat luteal cells. Incubation of the cells with HDL labeled with [3H]cholesterol or [3H]cholesteryl linoleate resulted in 4-6-fold greater uptake of the free cholesterol compared to esterified cholesterol. The increased uptake of free cholesterol correlated with its utilization for progestin synthesis: utilization of HDL-derived free cholesterol was 3-6-fold higher than would be expected from its concentration in HDL. The differential uptake and utilization of free and esterified cholesterol was further examined using egg phosphatidylcholine liposomes containing cholesterol or cholesteryl linoleate as a probe. Liposomes containing free cholesterol were able to deliver cholesterol to luteal cells and support steroid synthesis in the absence of apolipoproteins, and the addition of apolipoprotein A-I (apo A-I) moderately increased the uptake and steroidogenesis. Similar experiments using cholesteryl linoleate/egg phosphatidylcholine liposomes showed that inclusion of apo A-I resulted in a pronounced increase in the uptake of cholesteryl linoleate and progestin synthesis. These experiments suggest that free cholesterol from HDL may be taken up by receptor-dependent and receptor-independent processes, whereas esterified cholesterol uptake requires a receptor-dependent process mediated by apolipoproteins.     

A correlation between membrane cholesterol level, cell adhesion and tumourigenicity of polyoma virus transformed cells

We have investigated the implications of the rise in membrane cholesterol levels on several in vitro and in vivo properties of polyoma virus transformed rat fibroblasts (PyF), with a special emphasis on alpha5beta1 integrin functions. We show that increased membrane cholesterol causes the PyF cells to change their shape and become more bipolar in appearance. These cells also show significantly higher adhesion to the cell-binding domain of fibronectin, increased localization of alpha5beta1 integrin and talin molecules in focal adhesions and a more robust actin cytoskeleton organization. PyF cells with increased membrane cholesterol show reduced growth in vitro and tumours caused by these cells in nude mice are slow growing. These changes in the growth properties of PyF cells are reversible when the cholesterol levels of PyF cells become normal. Our results suggest that changes in membrane cholesterol levels influence the growth and morphological properties of transformed cells, which can be exploited in controlling the growth of tumours in vivo.     

Macrophage free cholesterol content regulates apolipoprotein E synthesis

The relationship between macrophage cholesterol content and apolipoprotein E (apoE) synthesis was studied in mouse peritoneal macrophages. Incubations in acetylated low density lipoprotein led to a concentration-dependent increase in macrophage free and esterified cholesterol content and apoE synthesis. Enhanced apoE production reflected increased apoE mRNA abundance in cholesterol-enriched cells. Including an inhibitor of acyl-CoA:cholesterol acyltransferase in incubations with acetylated low density lipoprotein did not diminish the apoE response, suggesting that increased macrophage free cholesterol content was responsible for enhancing apoE production. Incubations in 25-OH cholesterol also produced a dose-dependent stimulation of macrophage apoE synthesis. Removing free cholesterol from cells using high density lipoprotein returned apoE synthetic rates toward base line. Macrophage lysate apoE and medium apoE levels changed in parallel during cholesterol loading and efflux indicating that regulation of apoE by free cholesterol was not primarily at the level of secretion. It is concluded that (a) cholesterol enrichment of macrophages increases apoE mRNA abundance and stimulates apoE synthesis and secretion; (b) neither cholesterol esterification nor cholesteryl ester accumulation are required for increased apoE production.     

In vivo study of cholesterol turnover in tissues of adult sows

The in vivo study of free and esterified cholesterol turnover was carried out in 15 tissues of adult Large White sows maintained at a constant weight for 10–12 weeks. They received a single intravenous injection either of [1-¹⁴C] acetate, or of an autologous red cell suspension or of plasma, previously labelled in vitro (for red cells) or in vivo (for plasma) with tritiated cholesterol.The tissues can be separated into four groups according to their relative rate of free cholesterol exchange between plasma and tissues. The liver and the lungs have a very fast exchange rate whereas the brain and the spinal cord have a very slow one. The whole lipoprotein particle transfer — an exclusive model for the esterified cholesterol transport from plasma to tissues — has been found in all sow tissues. When [1-¹⁴C] acetate is used as a substrate for cholesterol synthesis, lungs, adrenal glands and heart do not seem — or at an extremely low rate — to convert acetate into cholesterol whereas an intense cholesterol synthesis takes place in the small intestine. Its contribution to cholesterol synthesis in sows — taking into account the cholesterol transfer processes — reaches 70 per cent.     

Intracellular levels of calmodulin are increased in transformed cells

By using Hoechst 33342,rabbit anti calmodulin antibody,FITC-labeled goat anti rabbit IgG and SR101(sulfo rhodamine 101)simultaneously to stain individual normal and transformed cells,the microspectrophotometric analysis demonstrated that 3 markers which represented the nucleus,calmodulin and total protein respectively,could be recognized in individualj cells without interference,The phase of the cell cycle was determined by DNA content(Hoechst 33342),We found that in transformed cells(NIH3T3) tsRSV-LA90,cultured at 33℃ and transformed C3H10T1/2 Cells),the ration of calmodulin to total protein (based on the phases of cell cycle)was higher than that in normal cells (NIH3T3 tsRSV-LA90 cells,cultured at 39℃ and C3H10T1/2 cells)in every cell cycle phase,This ration increased obviously only from G1 to S phase in either normal or transformed cells.The results showed that calmodulinreally increased during the transformation,and its increase was specific.In the meantime when cells proceeded from G1 to S.the intraceollular calmodulin content also increased specifically.     

Secreted proteins of normal andmyc-ras oncogene transformed rat embryo fibroblasts

Quiescent cultures of rat embryo fibroblasts synthesize and secrete several proteins in response to mitogenic stimulation. Two of these proteins have been characterized in this study and the effect of oncogenic transformation on these proteins was monitored. A serum induced 48,000 protein was shown to be related to plasminogen activator inhibitor while another serum-induced protein ofM _r 45,000 was found to be an inhibitor of DNA synthesis. Transformation of rat embryo fibroblasts with oncogenesmyc andras resulted in drastic reduction in the level of these proteins. The reduced levels of protease inhibitor may be responsible for the loss of anchorage dependence of the transformed cells. The DNA synthesis inhibitor protein may act as a negative growth regulator and reduced levels of this protein inmyc-ras transformed cells may accelerate the proliferation of these cells.     

Production of plasminogen activator by established cell lines of mouse origin

The correlation between malignant transformation and increased plasminogen activator synthesis has been studied in a variety of established cell lines. In contrast to the behavior of secondary mouse embryo cultures, which always show increased fibrinolytic activity when transformed, no such correlation was found within the BALB/c 3T3 line and its transformed derivatives. Cell lines were established from tumors initiated in BALB/c mice by several transformed cell lines. These lines were generally found to contain no more plasminogen activator than the cells used for inoculation. A correlation was found between transformation and plasminogen activator synthesis within Swiss 3T3 cell lines. However, the correlation was not maintained by serum revertants of transformed Swiss 3T3 cells.     

Progesterone-receptor antagonists and statins decrease de novo cholesterol synthesis and increase apoptosis in rat and human periovulatory granulosa cells in vitro

Progesterone-receptor (PR) stimulation promotes survival in rat and human periovulatory granulosa cells. To investigate the mechanisms involved, periovulatory rat granulosa cells were incubated in vitro with or without the PR-antagonist Org 31710. Org 31710 caused the expected increase in apoptosis, and expression profiling using cDNA microarray analysis revealed regulation of several groups of genes with functional and/or metabolic connections. This regulation included decreased expression of genes involved in follicular rupture, increased stress responses, decreased angiogenesis, and decreased cholesterol synthesis. A decreased cholesterol synthesis was verified in experiments with both rat and human periovulatory granulosa cells treated with the PR-antagonists Org 31710 or RU 486 by measuring incorporation of [14C]acetate into cholesterol, cholesterol ester, and progesterone. Correspondingly, specific inhibition of cholesterol synthesis in periovulatory rat granulosa cells using 3-hydroxy-3-methylglutaryl-coenzyme A reductase inhibitors (lovastatin, mevastatin, or simvastatin) increased apoptosis, measured as DNA fragmentation and caspase-3/7 activity. The increase in apoptosis caused by simvastatin was reversed by addition of the cholesterol synthesis-intermediary mevalonic acid. These results show that PR antagonists reduce cholesterol synthesis in periovulatory granulosa cells and that cholesterol synthesis is important for granulosa cell survival.