Regulation of dolichol and of cholesterol biosynthesis in cholesterol-fed rabbits

The feeding of rabbits with a diet supplemented with 2% cholesterol caused a significant increase in the concentration of serum and hepatic microsomal cholesterol while not affecting serum high-density lipoprotein cholesterol concentration. The concentration of cytochrome b₅ was also increased in the cholesterol-fed rabbits but no change in the concentration of cytochrome P-450 was apparent. The increase in microsomal cholesterol was accompanied by an inhibition of hepatic 3-hydroxy-3-methylglutaryl-coenzyme A reductase and a marked stimulation of acyl-coenzyme A:cholesterol acyltransferase activity. The incorporation of [1-¹⁴C]acetate into cholesterol and dolichol was strongly inhibited in liver slices of cholesterol-fed animals. In contrast, while incorporation of [2-¹⁴C]mevalonate into cholesterol was also inhibited by approximately 90%, incorporation of this precursor into dolichol was stimulated fourfold. The increased incorporation of mevalonate into dolichol was consistent with a threefold increase in the activity of the dolichol phosphate-dependent mannosyl transferase. The possible significance of these differences is discussed.     

Depression of hepatic dolichol levels by cholesterol feeding

A study was conducted to determine whether repression of 3-hydroxy-3-methylglutaryl CoA reductase by a chronic high-cholesterol diet would deplete hepatic dolichol levels. Four-week-old male C57BL/6J mice were maintained on a control diet or a diet supplemented with 5% cholesterol. Animals from both groups were killed at various times and reductase activity and levels of free dolichol, dolichyl acyl ester, dolichyl phosphate, and ubiquinone were measured. The reductase activity was reduced by 90% within 1 week and remained depressed through 56 days. Initially, the levels of the free dolichol, acyl ester, phosphoryl ester, and ubiquinone were 7, 16, 5, and 80 micrograms/g liver, respectively. Early increases in the concentration of dolichyl phosphate and free dolichol were similar in both the cholesterol-fed and control groups. However, in the cholesterol-fed group the concentration of dolichyl acyl esters was only 50% of that in the control group by 7 days and it remained lower throughout the experiment. Total dolichol levels were lower by about 30%. Ubiquinone levels were transiently depressed at 7 days by 33% but returned to control levels by 4 weeks. After 56 days, the control values of dolichol and dolichyl phosphate remained constant whereas the dolichyl acyl ester levels continuously increased to a value of 133 micrograms/g of liver by 156 days. Subcellular fractionation of livers from 4-week-old mice indicated a lysosomal distribution of dolichol and dolichyl acyl ester and a lysosomal and microsomal distribution of dolichyl phosphate.     

Effects of peroxisome proliferators gemfibrozil and clofibrate on syntheses of dolichol and cholesterol in rat liver

The effects of two peroxisome proliferators, gemfibrozil and clofibrate, on syntheses of dolichol and cholesterol in rat liver were investigated. Gemfibrozil did not affect the overall content of dolichyl phosphate, but it changed the chain-length distribution of dolichyl phosphate, increasing the levels of species with shorter isoprene units. Gemfibrozil suppressed synthesis of dolichyl phosphate from [(3)H]mevalonate and [(3)H]farnesyl pyrophosphate in rat liver. In contrast, clofibrate increased the content of dolichol (free and acyl ester forms). It remarkably enhanced dolichol synthesis from mevalonate, but did not affect dolichol synthesis from farnesyl pyrophosphate. Gemfibrozil elevated cholesterol synthesis from [(14)C]acetate, but did not affect the synthesis from mevalonate. Clofibrate suppressed cholesterol synthesis from acetate, but did not affect cholesterol synthesis from mevalonate. These results suggest that gemfibrozil suppresses synthesis of dolichyl phosphate by inhibiting, at the least, the pathway from farnesyl pyrophosphate to dolichyl phosphate. As a result, the chain-length pattern of dolichyl phosphate may show an increase in shorter isoprene units. Clofibrate may increase the content of dolichol by enhancing dolichol synthesis from mevalonate. Gemfibrozil may increase cholesterol synthesis by activating the pathway from acetate to mevalonate. Unlike gemfibrozil, clofibrate may decrease cholesterol synthesis by inhibiting the pathway from acetate to mevalonate.     

Inhibition of farnesylation blocks growth but not differentiation in FRTL-5 thyroid cells.

The cholesterol lowering drug lovastatin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, blocks DNA synthesis and proliferation of thyrotropin (TSH) primed FRTL-5 rat thyroid cells. The blockade can be completely prevented and/or reversed by mevalonate and largely prevented and/or reversed by farnesol whereas cholesterol and/or other non-sterol mevalonate derivatives such as ubiquinone, dolichol or isopentenyladenosine are ineffective. TSH-dependent augmentation of cyclic-AMP and cAMP dependent differentiated functions, such as iodide uptake, are unaffected by lovastatin. 3H-Thymidine incorporation into DNA is also decreased by alpha-hydroxyfarnesyl-phosphonic acid, an inhibitor of protein farnesylation which mimicks the effect of lovastatin since it also leaves unaffected TSH stimulated iodide uptake. It is suggested that the HMG-CoA reductase inhibitor lovastatin affects cell proliferation mainly through inhibition of protein farnesylation which results in altered function proteins relevant for proliferation control, notably p21ras and/or other small GTPases.     

Effect of catecholamines on the hepatic rate-limiting enzymes of cholesterol metabolism in normally fed and cholesterol-fed rabbits

Adrenergic control of liver cholesterol metabolism was studied in the rabbit. The effects of noradrenaline (α₁, α₂, β₂ agonist) and isoprenaline (β₁, β₂ agonist) on 3-hydroxy-3-methylglutaryl coenzyme A reductase, acyl-coenzyme A: cholesterol-o-acyltransferase (cholesterol acyltransferase) and cholesterol 7α-hydroxylase, the rate-limiting enzymes of cholesterol biosynthesis and esterification and bile acid synthesis, respectively, were examined in the normally fed and cholesterol-fed male New Zealand White rabbit. Isoprenaline increased the activities of hydroxymethylglutaryl CoA reductase and cholesterol acyltransferase approx. 12-fold and 5-fold, respectively, in normally fed rabbits. Noradrenaline, by contrast, produced an effect only on hydroxymethylglutaryl CoA reductase, the activity of which was increased 3-fold in these animals. Neither catecholamine had an effect on hydroxymethylglutaryl CoA reductase in the cholesterol-fed rabbit. Isoprenaline decreased the activity of cholesterol acyltransferase by approx. 40% and increased the activity of cholesterol 7α-hydroxylase 2-fold in the cholesterol-fed rabbit compared to cholesterol-fed controls. Noradrenaline had no effect on either cholesterol acyltransferase or cholesterol 7α-hydroxylase in either the normally fed or the cholesterol-fed rabbit. We suggest that β₂-adrenergic stimulation by isoprenaline in the normally fed rabbit may enhance cholesterol synthesis and storage, but that in the cholesterol-fed rabbit, it facilitates the elimination of cholesterol from the body by increasing the rate of bile acid synthesis.     

Regulation of hepatic cholesterol and lipoprotein metabolism in ethinyl estradiol-treated rats

The regulation of hepatic cholesterol and lipoprotein metabolism was studied in the ethinyl estradiol-treated rat in which low density lipoprotein (LDL) receptors are increased many fold. Cholesterol synthesis was reduced at both its diurnal peak and trough by ethinyl estradiol. The diurnal variation in 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase was abolished, whereas that for acyl coenzyme A: cholesterol acyltransferase (ACAT) was retained. LDL receptor number did not vary diurnally. Feeding these animals a cholesterol-rich diet for 48 h suppressed cholesterol synthesis and reductase activities to levels similar to those found in cholesterol-fed control animals, but ACAT activity was unaffected. LDL receptors were reduced about 50%. Intravenously administered cholesterol-rich lipoproteins suppressed HMG-CoA reductase and LDL receptors in 2 h but had a variable effect on ACAT activity. Intragastric administration of mevalonolactone reduced reductase and increased acyltransferase activity but had little effect on LDL receptors when given 2 or 4 h before death. Although animals fed a cholesterol-rich diet before and during ethinyl estradiol treatment became hypocholesterolemic, free and esterified cholesterol concentrations in liver were high as was ACAT activity. HMG-CoA reductase was inhibited to levels found in control animals fed the cholesterol-rich diet. LDL receptors were increased to a level about 50% of that reached in animals receiving a control diet and ethinyl estradiol. These data demonstrate that key enzymes of hepatic cholesterol metabolism and hepatic LDL receptors respond rapidly to cholesterol in the ethinyl estradiol-treated rat. Furthermore, estradiol increases LDL receptor activity several fold in cholesterol-loaded livers.     

Effect of estrogens on β-hydroxy-β-methylglutaryl coenzyme a reductase activity and cholesterol levels

The effect of estrogens on hepatic β-hydroxy-β-methylglutaryl coenzyme A reductase activity and cholesterol in serum and liver of ovarietcomized rats on normal diet, 2% cholestyramine diet or 2% cholesterol diet was investigated. Estrogen administration to ovariectomized rats on normal diet resulted in increased reductase activity and was correlated with decreased serum cholesterol and increased liver cholesterol levels wlth mestranol (ME), ethinyl estradiol (EE) and estradiol benzoate (EB, 250 μg) but increased serum and liver cholesterol levels with 25 μg and 100 μg EB administration. The increased stimulation of reductase activity by estrogen administration was absolished when rats were fed a 2% cholesterol diet. Cholestyramine feeding markedly increased reductase activity in livers of ovariectomized rats. These studies show that estrogens are not absolutely required for the stimulation of reductase activity and therefore is consistent with the model in which cholesterol functions as a feedback repressor of reductase activity.     

Synthesis of ubiquinone and cholesterol in human fibroblasts: regulation of a branched pathway.

The current studies demonstrate that cultured human flbroblasts utilize mevalonate for the synthesis of ubiquinone-10 as well as for the synthesis of cholesterol. Study of the regulation of this branched pathway was facilitated by incubating the cells with compactin (ML-236B), a competitive inhibitor of 3-hydroxy-3-methylglutaryI coenzyme A reductase, which blocked the formation of mevalonate within the cell. The addition of known amounts of [³H]mevalonate to the culture medium in the presence of compactin permitted the study of the relative rates of mevalonate incorporation into cholesterol and ubiquinone-10 under controlled conditions. When low concentrations of exogenous [³H]mevalonate (10 to 50 μm) were added to cells that were provided with exogenous cholesterol in the form of plasma low density lipoprotein (LDL), the cells incorporated the [³H]mevalonate into ubiquinone-10 at a rate that was two- to threefold faster than the incorporation into cholesterol. When the cells were deprived of exogenous LDL-cholesterol, the incorporation of [³H]mevalonate into ubiquinone-10 decreased and the incorporation of [³H]mevalonate into cholesterol increased. As a result, in the absence of exogenous cholesterol more than 60 times as much [³H]mevalonate was incorporated into cholesterol as into ubiquinone-10. Considered together with previous findings, the current data are compatible with a regulatory mechanism in which LDL inhibits cholesterol synthesis in fibroblasts at two points: (1) at the level of 3-hydroxy-3-methylglutaryl coenzyme A reductase, thereby inhibiting mevalonate synthesis, and (2) at one or more points distal to the last intermediate common to the cholesterol and ubiquinone-10 biosynthetic pathways. The latter inhibition allows ubiquinone-10 synthesis to continue in the presence of LDL despite a 98% reduction in mevalonate synthesis.     

Effects of turpentine-induced inflammation on the synthesis of dolichol-linked intermediates of N-glycosylation and the phosphorylation of dolichol by CTP-dependent dolichol kinase

Inflammation was induced in rats by the subcutaneous injection of turpentine. Microsomes were prepared from the livers between 2 and 72 h after injection. Mannose and glucose incorporation into mannosyl and glucosyl dolichyl monophosphate was increased 2-fold over saline-injected controls 24 h after induction of inflammation. Synthesis of glycosylated dolichyl pyrophosphoryl oligosaccharides was also increased compared to controls. Extraction and assay of dolichol monophosphate from inflamed and control rat liver microsomes indicated that the endogenous levels of the lipid were elevated in the inflamed state. CTP-dependent phosphorylation of endogenous dolichol was also found to increase in microsomes from inflamed rats 24 h after injection of turpentine. When exogenous dolichol was added to the microsomal system an increase in phosphorylation was observed as early as 6 h after turpentine injection. Furthermore, the increase appeared to be biphasic, there being two peaks of elevated activity at 12 and 36-48 h after induction of inflammation. The earlier peak was the greater of the two. The results suggest that the increase in glycosylation of dolichol derivatives was due to greater amounts of endogenous dolichol monophosphate. The increase in dolichol monophosphate was itself due to greater availability of dolichol and an increase in the levels of CTP-dependent dolichol kinase.     

Studies on the regulation of glycoprotein biosynthesis. An investigation of the rate-limiting steps of dolichyl phosphate biosynthesis.

The possible role of HMG-CoA (3-hydroxy-3-methylglutaryl coenzyme A) reductase (the rate-controlling enzyme of cholesterol biosynthesis) in regulating the rate of dolichyl phosphate biosynthesis in rat liver was investigated. Rats were either fasted 48 h or fed diets supplemented with the drug cholestyramine. The activity of HMG-CoA reductase was 5000-fold greater in liver from cholestyramine-fed rats as compared to fasted rats. The activity of dolichyl phosphate synthetase, the prenyl transferase responsible for the biosynthesis of dolichyl phosphate from farnesyl pyrophosphate and isopentenyl pyrophosphate, was similar in both nutritional conditions and was markedly less active than HMG-CoA reductase even in the fasted state. Acetate incorporation into cholesterol was 2200-fold greater in liver slices from cholestyramine-fed rats as compared to fasted rats. By contrast, acetate incorporation into dolichyl phosphate was only 6-fold higher. Further studies suggested that the levels of farnesyl pyrophosphate and isopentenyl pyrophosphate are several hundred-fold greater in liver from cholestyramine-treated rats. From these results, it is concluded that the rate of dolichyl phosphate biosynthesis in rat liver is not regulated by the activity of HMG-CoA reductase but is probably regulated at the level of dolichyl phosphate synthetase.     

Effect of auxin on the metabolism of mevalonic acid in suspension-cultured carrot cells

The rate of incorporation of [¹⁴C]mevalonate into carotenoid and steroid fractions in suspension-cultured carrot cells decreased markedly after 2,4-dichlorophenoxyacetic acid was removed from the medium. In parallel to this change, the activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase in a microsomal fraction was reduced to ca 33% of the control value, while that of a particulate fraction showed no significant change. The activities of mevalonate activating enzymes remained unchanged after auxin deprivation.     

Seasonal commitment of HMGCoA reductase activity to vitellogenin production

In female frogs (Rana Esculenta) during gametogenesis the cholesterol synthesized in the liver by 3-hydroxy-3-methylglutaryl coenzyme A reductase is mostly exported into the blood and taken up by the oocytes.In order to understand the fate of the neosynthesized cholesterol, female and male frogs and estrogenized male controls were injected with the labelled precursor¹⁴C mevalonate.In females and in estrogenized controls, mevalonate-derived radioactivity is found in a plasmatic lipoprotein that has been identified as vitellogenin by immunological detection.The increased 3-hydroxy-3-methylglutaryl coenzyme A reductase activity present in females in Fall is likely to be committed to provide cholesterol for the lipidation of this cholesterol-rich protein.     

Impairment of dolichyl saccharide synthesis and dolichol-mediated glycoprotein assembly in the aortic smooth muscle cell in culture by inhibitors of cholesterol biosynthesis

25-Hydroxycholesterol treatment of the aortic smooth muscle cell inhibited the incorporation of acetate but not mevalonate into dolichol and cholesterol by 91 and 82%, respectively, and diminished the synthesis from glucose of cholesterol, dolichylpyrophosphoryl oligosaccharide, and dolichol-dependent glycoproteins. The dolichol-bound oligosaccharide unit contained approximately 10 Man/2 Glc/2 GlcNAc residues and appeared to be a precursor to protein-bound saccharide units which contained on the average 8 Man/1 Glc/2 GlcNAc residues. Mevalonate was found to protect the cells against the effect 25-hydroxycholesterol and to restore normal cellular synthesis of dolichyl saccharides and glycoproteins. It is suggested that hydroxymethylglutaryl coenzyme A reductase may function as a rate-controlling enzyme in the biosynthesis of not only sterols but also dolichols, and may as a result regulate the assembly of certain cellular glycoproteins.     

Glycosylation of myelin glycoproteins in peripheral nerve via lipid intermediates

Membrane preparations from chick peripheral nervous system (PNS) catalyzed the transfer of [³H]glucose from UDP-[³H]glucose into glucosylphosphoryl dolichol. The initial rate of glucosylphosphoryl dolichol formation in a non-myelin membrane fraction from actively myelinating chick PNS was 11 fold higher than that from adult. Exogenous dolichyl monophosphate stimulated glucosylphosphoryl dolichol synthesis in both fractions. The higher level of glucosylphosphoryl dolichol synthesis corresponded to the onset of myelination in chick PNS. Exogenous dolichyl monophosphate also stimulated the labeling of glucosylated oligosaccharide lipids and glycoproteins in the fraction. On SDS polyacrylamide gel electrophoresis, the relative mobility of the major and minor radioactive glycoprotein corresponded with that of the P0 and PASII glycoprotein in PNS myelin, respectively. The results suggest that myelin glycoproteins in PNS are glycosylated via lipid intermediates.     

Relationships among dolichyl phosphate, glycoprotein synthesis, and cell culture growth

Following treatment of Chinese hamster ovary cells with inhibitors of mevalonate biosynthesis in the presence of exogenous cholesterol, the cellular concentration of phosphorylated dolichol and the incorporation of [3H]mannose into dolichol-linked saccharides and N-linked glycoproteins declined coincident with a decline in DNA synthesis. Addition of mevalonate to the culture medium increased rates of mannose incorporation into lipid-linked saccharides and restored mannose incorporation into N-linked glycoproteins to control levels within 4 h. After an additional 4 h, synchronized DNA synthesis began. Inhibition of the synthesis of lipid-linked oligosaccharides and N-linked glycoproteins by tunicamycin prevented the induction of DNA synthesis by mevalonate, indicating that glycoprotein synthesis was required for cell division. The results suggest that the rate of cell culture growth may be influenced by the level of dolichyl phosphate acting to limit the synthesis of N-linked glycoproteins.     

Effects of MK-733 (simvastatin), an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, on intestinal acylcoenzyme A:cholesterol acyltransferase activity in rabbits

MK-733 (simvastatin), a potent 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor, was found to inhibit the absorption of cholesterol from the gastrointestinal tract in cholesterol-fed rabbits (Ishida et al. (1988) Biochim. Biophys. Acta 963, 35-41). To clarify the mechanism of action, the effects of MK-733 on acyl coenzyme A:cholesterol acyltransferase (ACAT) and cholesterol esterase activities, which are thought to participate in the absorption of cholesterol, were examined. Dietary administration (0.03% in a 1% cholesterol diet for 7 days, approx. 10 mg/kg) of MK-733 to cholesterol-fed rabbits was found to inhibit the increase in serum total cholesterol levels, and caused a 70% reduction in ACAT activity in microsomes of intestinal mucosa relative to those observed in concurrent control rabbits. MK-733 did not affect cholesterol esterase activity in the cytosol of the intestinal mucosa. The inhibitory effect of MK-733 on cholesterol absorption in cholesterol-fed rabbits is though to be related to a reduction in microsomal ACAT activity in the intestinal mucosa.     

Adriamycin treatment increases 3-hydroxy-3-methylglutaryl CoA reductase and isoprene biosynthesis in the rat liver

Treatment of rats with Adriamycin caused an increase in the incorporation into hepatic cholesterol of [1-¹⁴C] acetate, but not of [2-¹⁴C] mevalonate. The step affected was found to be 3-hydroxy-3-methylglutaryl CoA reductase whose activity in the liver microsomes increased in Adriamycin-treated animals, but was inhibited when the drug was added in the assay medium. Also, the concentration of ubiquinone in the liver and of cholesterol in the plasma increased.     

Effects of mevinolin treatment on tissue dolichol and ubiquinone levels in the rat.

Rats were treated with mevinolin by intraperitoneal injection (15 days) or dietary administration (30 days). The cholesterol, dolichol, dolichyl phosphate and ubiquinone contents of the liver, brain, heart, muscle and blood were then investigated. The cholesterol contents of these organs did not change significantly, with the exception of muscle. Intraperitoneal administration of the drug increases the amount of dolichol in liver, muscle and blood and decreases the dolichyl-P amount in muscle. The same treatment increases the level of ubiquinone in muscle and blood and decreases this value in liver and heart. Oral administration decreases dolichol, dolichyl-P and ubiquinone levels in heart and muscle, while in liver the dolichol level is elevated and ubiquinone level lowered. In brain the amount of dolichyl-P is increased. Intraperitoneal injection of mevinolin also modifies the liver dolichol and dolichyl-P isoprenoid pattern, with an increase in shorter chain polyisoprenes. The levels of dolichol and ubiquinone in the blood do not follow the changes observed in other tissues. Incorporation of [3H]acetate into cholesterol by liver slices prepared from mevinolin-treated rats exhibited an increase, whereas in brain no change was seen. Labeling of dolichol and ubiquinone was increased in both liver and brain, but incorporation into dolichyl phosphate remained relatively stable. The results indicate that mevinolin affects not only HMG-CoA reductase but, to some extent, also affects certain of the peripheral enzymes, resulting in considerable effects on the various mevalonate pathway lipids.     

A study of various changes in transfer ribonucleic acid methylase activity during adenovirus-12 transformation in vitro

The dolichol of rat liver was labelled by injecting [4S-(3)H]mevalonate, the precursor of cis-isoprene residues, into partially hepatectomized animals. The optimum conditions for labelling the dolichol were to inject the animals with radioactive mevalonate 48h after hepatectomy and to kill them 12h later. The concentration of radioactive dolichol was five times as great in regenerating rat liver as in normal liver. The highest concentration of radioactive dolichol was found in the crude mitochondrial and nuclear-debris fractions of the cell. The crude microsomal fractions also contained radioactive dolichol, but at a lower concentration.