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.     

Isoprenoid biosynthesis in the retina. Quantitation of the sterol and dolichol biosynthetic pathways

The isoprenoid pathway provides several important products for retina function. In this study the sterol and dolichol pathways were investigated in retinas from Rana pipiens in order to assess the contribution of de novo synthesis. Levels of 5.9 +/- 2.0 (n = 13) nmol/retina for squalene, 134 +/- 27 (n = 16) nmol/retina for cholesterol, and 0.14 +/- 0.04 (n = 11) nmol/retina for dolichyl phosphate (Dol-P) were determined by high performance liquid chromatography analysis. When whole retinas were incubated with 3H2O, radioactivity was incorporated into compounds which chromatographed on reversed-phase and silica high performance liquid chromatography at the elution positions of squalene, cholesterol, lathosterol, and methyl sterols. From these results, the upper limit for the absolute rate of the sterol pathway was estimated to be 3.4 pmol/h. When retinas were incubated with [3H]acetate, the major labeled product was squalene. The relatively low level of incorporation into cholesterol was apparently due to a substantial pool of squalene which accumulated de novo incorporated [3H]acetate. Dol-P was also labeled with [3H]acetate, and by comparing the ratio of 3H incorporation into Dol-P/squalene with the absolute rate of the sterol pathway, the absolute rate of Dol-P synthesis was determined to be 0.022 pmol/h. Our calculations indicate that the retina does not synthesize sufficient quantities of cholesterol de novo to account for that which is utilized in the biogenesis of rod outer segment membranes.     

Separation and purification of dolichol and dolichyl phosphate by anion-exchange paper chromatography: application to cultured cells.

Dolichyl phosphate, dolichol C80-105 (dolichol 17:dihydroheptadecaprenol-dolichol 21:dihydrohexeicosaprenol), and dolichol C55 (dolichol 11:dihydroundecaprenol) were separated by anion-exchange paper chromatography. Squalene, sterols, phospholipids, anionic glycolipids, and glycerol did not migrate as dolichyl phosphate, dolichol C80-105, and dolichol C55 under our elution conditions. However, since the Rf of triglycerides was similar to that of dolichol C80-105, saponification, prior to chromatography, removed traces of triglycerides. Silica gel thin-layer chromatography (TLC) allowed the separation of dolichol C80-105 from dolichol C55, whereas dolichyl phosphate was eluted with other lipids. Incubation of spontaneously transformed cells derived from rat astrocytes primary cultures with [2-14C]acetate, saponification of the extracted lipids, and anion-exchange paper chromatography revealed the presence of radioactive dolichyl phosphate and dolichol C80-105 (15 pmol/mg protein). Extraction of labeled dolichyl phosphate followed by acid phosphatase treatment and subsequent analysis on TLC confirmed the identity of dolichyl phosphate since all the radioactivity was associated with dolichol C55. Treatment of the transformed cells with 30 microM 7-ketocholesterol or 7 beta-hydroxycholesterol stimulated markedly (two- to threefold) the incorporation of [2-14C]-acetate in both dolichol C80-105 and dolichyl phosphate. These data demonstrate that anion-exchange paper chromatography is technically suitable for the separation and analysis of dolichol C55, dolichol C80-105, and dolichyl phosphate in cultured cells prelabeled with radioactive precursors.     

The mechanism and regulation of dolichyl phosphate biosynthesis in rat liver

Rat liver slices were pulse labeled for 6 min with [3H]mevalonolactone and then chased for 90 min with unlabeled mevalonolactone in order to study the mechanism of dolichyl phosphate biosynthesis. The cholesterol pathway was also monitored and served to verify the pulse-chase. Under conditions in which radioactivity in the methyl sterol fraction chased to cholesterol, radioactivity in alpha-unsaturated polyprenyl (pyro)-phosphate chased almost exclusively into dolichyl (pyro)phosphate. Lesser amounts of radioactivity appeared in alpha-unsaturated polyprenol and dolichol, and neither exhibited significant decline after 90 min of incubation. The relative rates of cholesterol versus dolichyl phosphate biosynthesis were studied in rat liver under four different nutritional conditions using labeled acetate, while the absolute rates of cholesterol synthesis were determined using 3H2O. From these determinations, the absolute rates of dolichyl phosphate synthesis were calculated. The absolute rates of cholesterol synthesis were found to vary 42-fold while the absolute rates of dolichyl phosphate synthesis were unchanged. To determine the basis for this effect, the rates of synthesis of cholesterol and dolichyl phosphate were quantitated as a function of [3H]mevalonolactone concentration. Plots of nanomoles incorporated into the two lipids were nearly parallel, yielding Km values on the order of 1 mM. In addition, increasing concentrations of mevinolin yielded parallel inhibition of incorporation of [3H]acetate into cholesterol and dolichyl phosphate. The specific activity of squalene synthase in liver microsomes from rats having the highest rate of cholesterol synthesis was only 2-fold greater than in microsomes from rats having the lowest rate. Taken together, the results suggest that the maintenance of constant dolichyl phosphate synthesis under conditions of enhanced cholesterogenesis is not due to saturation of the dolichyl phosphate pathway by either farnesyl pyrophosphate or isopentenyl pyrophosphate but coordinate regulation of hydroxymethylglutaryl-CoA reductase and a reaction on the pathway from farnesyl pyrophosphate to cholesterol.     

Changes in hepatic dolichol and dolichyl monophosphate caused by treatment of rats with inducers of the endoplasmic reticulum and peroxisomes and during ontogeny

Rats were treated with various inducers of the endoplasmic reticulum and peroxisomes and the properties and distributions of dolichol and dolichyl phosphate analyzed. The treatment of rats with carcinogenic agents 2-acetylaminofluorene, N-nitrosodiethylamine and 3-methylcholanthrene and with the compounds such as phenobarbital, terpentine, cholestyramine and di(2-ethylhexyl)phthalate have all caused changes in the microsomal or lysosomal contents of dolichol to various extents, but only the latter group influenced dolichyl-P concentration. Shortly after birth, the hepatic content of dolichyl-P reaches the adult level, whereas the level of the free alcohol is low at birth but increases continuously thereafter. Incorporation of [3H]mevalonate into dolichol was also dependent on factors other than de novo synthesis, e.g., the pool size. Rates of glycosylation reactions dependent on dolichyl-P exhibit considerable changes but are independent of the existing levels of lipid intermediate. GDP-mannosyl transferase activity increases greatly with birth, but the enzyme activity returns to the adult level within a day after birth. These results demonstrate that structural and functional modifications induced with drugs can greatly influence the content and distribution of dolichol which are independent of the existing levels of dolichyl-P.     

Inhibition of dolichyl phosphate biosynthesis by compactin in cultured rat hepatocytes

Isolated rat hepatocytes were cultured in monolayer for about 24 h. During this period the cells exhibited constant protein and lipid synthesis. When the culture medium contained compactin, a competitive inhibitor of the 3-hydroxyl-3-methylglutary-coenzyme-A reductase, dolichyl-P synthesis was inhibited by 91% at the end of the incubation, as estimated by the incorporation of [3H]acetate and by 77% as estimated by the incorporation of 32Pi. These results indicate that in primary cultures of rat hepatocytes dolichyl monophosphate is mainly synthesized through a de novo process, while phosphorylation through the CTP-mediated kinase is of limited functional importance.     

Isotopomer spectral analysis of intermediates of cholesterol synthesis in human subjects and hepatic cells

Steroid intermediates of the cholesterol synthesis pathway are characterized by rapid turnover rates relative to cholesterol due to their small pool size. Because the small pools will label rapidly, these intermediates may provide valuable information about the incorporation of isotopes in de novo synthesis of cholesterol and related compounds. The labeling of cholesterol synthesis intermediates from [1-(13)C]acetate was investigated in human subjects and in liver cell models by means of isotopomer spectral analysis (ISA). In human subjects, infusing [1-(13)C]acetate into the duodenum for 12 h demonstrated that approximately 50% of the plasma lathosterol pool was derived from de novo synthesis during this interval. The lipogenic acetyl-CoA precursor pool enrichment reached a constant value within 3 h of the start of the infusion. In vitro studies indicated that liver cell models decrease de novo lathosterol synthesis when cholesterol synthesis is inhibited by statins or cholesterol-containing serum. We propose a new calculation to increase the accuracy and precision of cholesterol synthesis estimates in vivo combining the ISA of lathosterol and cholesterol.     

Properties of a dolichol phosphokinase activity associated with rat liver microsomes

Rat liver microsomes show a capacity to synthesize [1-3H]dolichyl phosphate from [1-3H]-dolichol. Formation of [1-3H]dolichyl phosphate increased continuously over 15 min although the reaction rate was never completely linear. Product formation was directly proportional to microsomal protein concentration between 1.1 mg/mL and the highest concentration tested, 5.5 mg/mL. The reaction rate was linear with respect to the dolichol content of the assay mixture to a saturation point (120 microM). An apparent Km of 50 microM was established for dolichol. The normal phosphate donor for the reaction is CTP and not ATP. The optimum concentration of CTP was 10 mM, and an apparent Km of 4 mM was calculated for this nucleoside triphosphate. The reaction was totally dependent on divalent metal ion, magnesium being more effective than calcium. The optimum concentration of magnesium ion and CTP were the same (10 mM), suggesting that MgCTP2- is utilized as the normal enzyme substrate. Activity measured in the absence of Triton X-100 was only 5% of the activity observed at the optimum (0.5% w/v) detergent concentration. The measurable levels of dolichol phosphokinase could be doubled by the inclusion of 10-15 mM NaF as phosphatase inhibitor. Optimal enzymatic activity was obtained between pH 7.0 and pH 7.5 and could be inhibited by EDTA. The sulfhydryl reagent DTT was slightly stimulatory while the product of the reaction, dolichyl phosphate, was noninhibitory at the highest concentration tested (13.8 microM). The second reaction product (CDP) inhibits the enzymatic phosphorylation of dolichol.     

The deficiency of sterol biosynthesis in Saccharomyces cerevisiae affects the synthesis of glycosyl derivatives of dolichyl phosphates

Abstract Mutants deficient in sterol (thermosensitive ergosterol auxotrophs) erg 8, 9, 12 and heme synthesis hem 1, 12 were screened for the level of free dolichol and dolichyl phosphate synthesized in the mevalonate pathway as well as for the activity of dolichyl phosphate-dependent glycosyl transferases. The amount of DolP synthesized via CTP-dependent phosphorylation was the same in mutants and parental strains. However, mannosylation and glucosylation of endogenous dolichyl phosphates in ergosterol mutants was about four times lower compared to parental strains, while the same reactions carried out with exogenous Dol₂₄P reached 80% of the level observed in parental strains indicating that activities of DolPMan and DolPGlc synthases are not the rate-limiting factors. It is postulated that the de novo synthesis of DolP is impaired in the ergosterol mutants. Moreover, a block in the ergosterol branch of the metabolic pathway ( erg 9 ) causes an increase in the de novo synthesis of dolichyl phosphate.     

Submicrosomal distribution of dolichol kinase and dolichyl phosphate phosphatase in the microsomes of germinating soybeans

The availability of dolichyl phosphate is a major factor in the rate of formation of N-linked glycoproteins in mammalian cells. Recent studies in our laboratory suggested that glycoproteins required for seed germination and early plant development are formed via the dolichyl phosphate pathway. Soybean microsomes contain dolichol kinase and dolichyl phosphate phosphatase, enzymes that regulate dolichyl phosphate levels by interconversion of dolichyl phosphate and dolichol. In the present study, soybean microsomes were fractionated into rough and smooth endoplasmic reticulum and Golgi, and the activities of dolichol kinase and dolichyl phosphate phosphatase were measured in each. Submicrosomal fractions were obtained using a procedure developed for rat liver, and were characterized by marker enzymes, RNA content and electron microscopy. The site of N-glycosylation, the rough endoplasmic reticulum, contained high levels of both dolichol kinase and dolichyl phosphate phosphatase. This makes possible a mechanism whereby glycoprotein formation during seed germination is regulated by availability of dolichyl phosphate.     

CTP-dependent lipid kinases of yeast

Membrane fractions from yeast Saccharomyces cerevisiae catalyzed a transfer of gamma-phosphate from [gamma-32P]CTP into membranous lipids. Phosphorylated compounds were identified as phosphatidic acid and dolichyl phosphate (DolP). The membrane fraction also catalyzed phosphorylation of the exogenous dolichol. The activity of the phosphorylating enzymes could be modified by the yeast growing conditions; i.e., the enzyme from yeast grown aerobically favored the synthesis of phosphatidate over dolichyl phosphate in the ratio of 3:1, whereas the membrane fraction from anaerobically grown yeast synthesized PA and DolP in the ratio of 0.5:1. The activity of the phosphorylating enzymes could also be modified by divalent cations and the concentration of detergents. Phosphorylation of lipids does not occur in the presence of [gamma-32P]ATP and is not influenced by the presence of UTP or GTP. This result points to the specific role of CTP as a gamma-phosphate donor for the synthesis of phosphatidate and dolichyl phosphates in the yeast system.     

Enzymatic activities in cultured human lymphocytes that dephosphorylate dolichyl pyrophosphate and dolichyl phosphate

Enzymatic activities which dephosphorylate dolichyl phosphate (Dol-P) and dolichyl pyrophosphate (Dol-P-P) have been observed in membranes from cultured human lymphocytes. Neither activity requires divalent metals. Dol-P phosphatase is inhibited by inorganic phosphate but not by other phosphate-containing compounds. Dol-P-P phosphatase is inhibited by bacitracin but not by phosphate-containing compounds including the methylene analogue of pyrophosphate. These reactions are similar to those previously found in the cycle of bacterial wall peptidoglycan biosynthesis. A chemical synthesis of [32P]Dol-P and [32P]Dol-P-P is reported.     

Variations of hepatic dolichols during rat development

The content and the percent distribution of dolichol and dolichyl phosphate homologues were measured by high-performance liquid chromatography in perinatal rat livers. Short dolichol chains and no dolichyl phosphate are detectable in the liver at foetal stages; dolichol content progressively increases during liver development. A good correlation is observable between the changes of the dolichol, dolichyl phosphate and the activity of dolichyl-phosphate phosphatase.     

Enhanced chick oviduct dolichol kinase activity during estrogen-induced differentiation

Crude microsomal preparations from hen oviduct catalyze the transfer of [32P]phosphate from [gamma-32P]CTP or [gamma-32P]dCTP to endogenous dolichol, forming dolichyl [32P]monophosphate. The oviduct kinase activity assayed with [gamma-32P]CTP is stimulated by divalent cations and exogenous dolichol. The enzymatic formation of dolichyl [32P]monophosphate is inhibited by dCDP and CDP, but not CMP, ADP, GDP, or UDP. The hen oviduct kinase is inhibited 50% by the addition of 38 microM CDP, but 101 microM dCDP is required for 50% inhibition. The amount of dolichol kinase activity in chick oviduct microsomes increases 3.7-fold within 10 days of estrogen administration. The hormone-induced increase in kinase activity is also observed when membranes from untreated and estrogen-treated chicks are assayed in the presence of saturating levels of exogenous dolichol. The microsomal preparations from oviducts of untreated chicks and fully induced birds both exhibit an apparent Km value of 7.1 microM for CTP. An apparent Km of 14 microM has been determined for dCTP. Thus, the developmental change in dolichol kinase activity does not appear to be the result of a difference in the amount of available endogenous dolichol or an alteration in the reactive site for the nucleoside triphosphate substrate, but is probably due to an increased level of the enzyme.     

A Chinese hamster ovary cell mutant F2A8 utilizes polyprenol rather than dolichol for its lipid-dependent asparagine-linked glycosylation reactions

Previous results suggested that F2A8, a glycosylation mutant of Chinese hamster ovary cells, had a lower amount of dolichyl phosphate available for asparagine-linked glycosylation reactions relative to parental cells. The steady-state amounts and identities of polyisoprenoid lipids were determined by incubating F2A8, its parental cell line B4-2-1, and wild-type Chinese hamster ovary cells for 24 h with [2-3H]mevalonate. The neutral lipids, ubiquinone, cholesterol, and cholesteryl esters, which were the most highly labeled from [3H]mevalonate, were labeled equally in all three cell types. In wild-type and B4-2-1 cells, mevalonate incorporation into the anionic glycosylated and phosphorylated derivatives of dolichol was 10-fold higher than into the neutral free dolichol and dolichyl esters. In contrast, in F2A8 cells, label accumulated in neutral polyisoprenol lipids, so that the ratio of neutral to anionic lipids was 1:1 rather than 1:10. In wild-type and B4-2-1 cells, the polyisoprenoid found as free alcohol and in phosphorylated and glycosylated forms was shown by high pressure liquid chromatography using a silica column to be primarily dolichol, a polyisoprenol that has a saturated terminal isoprene unit. In contrast, in F2A8 cells the polyisoprenoid found primarily as the free alcohol and in phosphorylated and glycosylated forms appeared to be completely unsaturated polyprenol. The distribution of chain lengths of the labeled polyisoprenols of F2A8, B4-2-1, and wild-type cells was the same as determined by high pressure liquid chromatography using a reverse-phase column, with the predominant chain length being 19 isoprene units. These results combined with our previous studies on the phenotype of the F2A8 mutant indicate that the unsaturated polyprenyl phosphate derivatives do not function as well as dolichyl phosphate derivatives in cellular glycosylation reactions.     

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.     

Dolichyl phosphate phosphatase from Tetrahymena pyriformis.

A soluble dolichyl phosphate phosphatase from Tetrahymena pyriformis was purified about 68-fold. The enzyme appeared to be specific for dolichyl phosphate and existed in two interrelated forms, one of mol.wt. about 500000 and the other of mol.wt. about 63000. The enzyme was strongly inhibited by 5 mM-Mn2+ and was strongly stimulated by Mg2+. Tetrahymena in the exponential growth phase contained more of this enzymic activity than cells in stationary or lag phase. The dolichyl phosphate phosphatase may be loosely bound to mitochondrial membranes. Two roles proposed for this enzyme are (1) that of releasing dolichol from its phosphorylated biosynthetic form for its use in the cell as unesterified dolichol or dolichyl ester and/or (2) that of regulation of synthesis of glycoproteins or some other glycosylated compound.     

Dolichol and polyprenol kinase activities in microsomes from etiolated rye seedlings.

Dolichol kinase activity in microsomes from etiolated rye seedlings had a pH optimum at 8 with a shoulder at pH 6.5. Triton X-100 (0.4%) was required for optimum activity. Exogenous divalent cations did not enhance activity, although Mg+2 was added routinely. Rye microsomes were found to contain dolichol and polyprenol in a ratio of 3 to 2. Rye, soybean embryo, and rat liver microsomes catalyzed the synthesis of 78, 52, and 516 nmol [14C]dolichyl phosphate/(mg microsomal protein.h) compared with 21, 22, and 49 nmol [3H]polyprenyl phosphate/(mg microsomal protein.h), respectively. It is clear that microsomes from plant systems can catalyze the phosphorylation of polyprenol better than rat liver when compared with their abilities to catalyze the phosphorylation of dolichol. It is not known whether one or more kinases is responsible for catalyzing the phosphorylation of these two closely related groups of compounds.     

Expression of the insulin-like growth factor 1 receptor (IGF-1R) in breast cancer cells: evidence for a regulatory role of dolichyl phosphate in the transition from an intracellular to an extracellular IGF-1 pathway.

In this study we provide evidence that the low expression of IGF-1R at the cell surface of estrogen-independent breast cancer cells is due to a low rate of de novo synthesis of dolichyl phosphate. The analyses were performed on the estrogen receptor-negative breast cancer cell line MDA231 and, in comparison, the melanoma cell line SK-MEL-2, which expresses a high number of plasma membrane-bound IGF-1R. Whereas the MDA231 cells had little or no surface expression of IGF-1R, they expressed functional (i.e., ligand-binding) intracellular receptors. By measuring the incorporation of [3H]mevalonate into dolichyl phosphate, we could demonstrate that the rate of dolichyl phosphate synthesis was considerably lower in MDA231 cells than in SK-MEL-2 cells. Furthermore, N-linked glycosylation of the alpha-subunit of IGF-1R was 8-fold higher in the melanoma cells. Following addition of dolichyl phosphate to MDA231 cells, N-linked glycosylation of IGF-1R was drastically increased, which in turn was correlated to a substantial translocation of IGF-1R to the plasma membrane, as assayed by IGF-1 binding analysis and by Western blotting of plasma membrane proteins. The dolichyl phosphate-stimulated receptors were proven to be biochemically active since they exhibited autophosphorylation. Under normal conditions MDA231 cells, expressing very few IGF-1R at the cell surface, were not growth-arrested by an antibody (alphaIR-3) blocking the binding of IGF-1 to IGF-1R. However, after treatment with dolichyl phosphate, leading to a high cell surface expression of IGF-1R, alphaIR-3 efficiently blocked MDA231 cell growth. Taken together with the fact that the breast cancer cells produce IGF-1 and exhibit intracellular binding, our data suggest that the level of de novo -synthesized dolichyl phosphate may be critical for whether the cells will use an intracellular or an extracellular autocrine IGF-1 pathway.     

The subcellular localization of enzymes of dolichol metabolism in rat liver

Dolichyl phosphate is an intermediate in the glycosylation of N-glycosamidic linked glycoproteins in mammalian systems, and its availability may be a limiting factor in glycoprotein biosynthesis. The basic kinetics and subcellular distribution of enzymes which may influence the concentration of dolichyl phosphate in rat liver have therefore been investigated. These include dolichyl phosphate phosphatase, dolichol phosphokinase, dolichyl fatty acyl ester synthetase, GDP-mannose dolichyl phosphate mannosyl transferase, and UDP-glucose dolichyl phosphate glucosyl transferase. The specific activity of the enzymes was highest in the microsomes, except for dolichyl phosphate phosphatase and dolichyl fatty acyl ester synthetase, which were most concentrated in the plasma membrane and the cytosol fraction, respectively. The nuclei contained all of the enzyme activities while the mitochondria and cytoplasm were generally less active. The presence of both dolichol phosphokinase and dolichyl phosphate phosphatase in microsomes and nuclei, which contain the highest glycosyl transferase activities, may provide a means for direct enzymatic control of levels of dolichyl phosphate.