Rat Brain Phosphatidyl-N,N-Dimethylethanolamine Is Rich in Polyunsaturated Fatty Acids

Phosphatidyl-N,N-dimethylethanolamine (PDME), an intermediate in the formation of phosphatidylcholine (PC) by the sequential methylation of phosphatidylethanolamine (PE), was purified from rat brain and its fatty acid (FA) composition compared with those of brain PC and PE. The proportion of polyunsaturated fatty acids (PUFAs) in the PDME (29.8%) was similar to that of PE (27.7%) and much greater than in PC (2.8%). Like the PUFAs of PE, the major PUFAs found in PDME were arachidonic acid (20:4) and docosahexaenoic acid (22:6). An isotopic method was developed to quantify the PDME purified from brain; a tritiated methyl group from CH3I was transferred to the PDME in the presence of cyclohexylamine to form [3H]PC, and the radioactivity of the PC was then counted. The concentration of rat brain PDME obtained using this method (33.0 +/- 1.8 micrograms/g brain) was very similar to that obtained using quantitative GLC analysis of its FAs (36.9 +/- 1.8 micrograms/g). The FAs in the PE and PC of rat brain synaptosomes were also analyzed; too little PDME was present in synaptosomes to permit similar analysis. The percentage of unsaturated FAs insynaptosomal PE was even higher (43.4 vs. 27.7) than that in PE prepared from whole brain. Since synaptosomes have a very high activity of phosphatidyl-N-methyltransferase, the enzyme complex that methylates PE to form PC, this enzyme may serve, in nerve endings, to produce a particular pool of PC, rich in PUFAs, which may have a distinct physiological function.     

Biogenesis of ubiquinone in rats--an alternate origin of the benzoquinone moiety

The addition of cyclohexane carboxylic acid (CCA) to the incubation medium results in a dilution of the radioactivity incorporated into ubiquinone-9 (UQ-9) from 1-¹⁴C-benzoate by rat liver slices. This effect is more pronounced when the slices are preincubated prior to addition of the labeled precursor. A similar dilution by CCA of label incorporation, is observed using U-¹⁴C-tyrosine, but not either CH₃-¹⁴C-methionine or 2-¹⁴C-mevalonate, as precursors. UQ-9, but not cholesterol, isolated from liver slices incubated with ring-U-¹⁴C-CCA is found to be labeled. The extent of labeling of UQ-9 by this precursor is enhanced by the presence of an excess of mevalonate in the incubation medium and decreased by the addition of p-hydroxybenzoate. These results suggest that aromatisation of cyclohexane derivatives may serve as a possible source of the benzoquinone nucleus of UQ-9 in the rat.     

Differential Utilization of the Ethanolamine Moiety of Phosphatidylethanolamine Derived from Serine and Ethanolamine during NGF-Induced Neuritogenesis of PC12 Cells

Neurite elongation involves the expansion of the plasma membrane and phospholipid synthesis. We investigated membrane phosphatidylethanolamine (PE) biosynthesis in PC12 cells during neurite outgrowth induced by nerve growth factor (NGF). When PE was prelabeled with [³H]ethanolamine and the radioactivity was chased by incubation with 1 mM unlabeled ethanolamine, the radioactivity of [³H]PE steadily declined and [³H]ethanolamine was released into the medium in NGF-treated cells during neurite outgrowth; in the absence of unlabeled ethanolamine, the radioactivity of [³H]PE remained relatively constant for at least 24 hr. In undifferentiated cells but not in NGF-treated cells, [³H]phosphoethanolamine accumulated in significant amounts during pulse labeling, and was converted partly to PE but largely released into the medium irrespective of incubation with unlabeled ethanolamine. The decline in the radioactivity of [³H]PE and release of [³H]ethanolamine following incubation with unlabeled ethanolamine were also observed in undifferentiated cells. Thus, the ethanolamine moiety of PE derived from ethanolamine is actively recycled in both differentiated and undifferentiated cells. When PE was derived from [³H]serine through phosphatidylserine (PS) decarboxylation, the decrease in radioactivity of [³H]PE and release of [³H]ethanolamine into the medium following incubation with unlabeled ethanolamine were observed only in NGF-treated cells, but not in undifferentiated cells, indicating that the ethanolamine moiety of PE derived from PS is actively recycled only in the cells undergoing NGF-induced neuritogenesis. Thus, in PC12 cells, the ethanolamine moiety of PE derived from PS is regulated differently from that of PE derived from ethanolamine.     

Compartmentation of phosphorylated precursors of phospholipid biosynthesis in cultured neuroblastoma cells

The continuous turnover of membrane phospholipids requires a steady supply of biosynthetic precursors. We evaluated the effects of decreasing extracellular Na+ concentration on phospholipid metabolism in cultured neuroblastoma (N1E 115) cells. Incubating cultures with 145 to 0 mM NaCl caused a concentration-dependent inhibition of [32P]phosphate uptake into the water-soluble intracellular pool and incorporation into phospholipid. Phospholipid classes were differentially affected; [32P]phosphate incorporated into phosphati-dylethanolamine (PE) and phosphatidylcholine (PC) was consistently less than into phosphatidylinositol (PI) and phosphatidylserine (PS). This could not be attributed to decreased phospholipid synthesis since under identical conditions, there was no effect on arachidonic acid or ethanolamine incorporation, and choline utilization for PC synthesis was increased. The effect of Na+ was highly specific since reducing phosphate uptake to a similar extent by incubating cultures in a phosphate-deficient medium containing Na+ did not alter the relative distribution of [32P]phosphate in phospholipid. Of several cations tested only Li+ could partially (50%) replace Na+. Incubation in the presence of ouabain or amiloride had no effect on [32P]phosphate incorporation into phospholipid. The differential effects of low Na+ on [32P]phosphate incorporation into PI relative to PC and PE suggests preferential compartmentation of [32P]phosphate into ATP in pools used for phosphatidic acid synthesis and relatively less in ATP pools used for synthesis of phosphocholine and phosphoethanolamine, precursors of PC and PE, respectively. This suggestion of heterogeneous and distinct pools of ATP for phospholipid biosynthesis, and of potential modulation by Na+ ion, has important implications for understanding intracellular regulation of metabolism.     

Early alterations induced by carbon tetrachloride in the lipids of the membranes of the endoplasmic reticulum of the liver cell II. Distribution of the alterations in the various lipid fractions

The distribution of carbon tetrachloride-induced alterations of membrane lipids in various fractions of liver microsomal lipids was studied. The chromatographic spot (referred to as the “D” spot in the previous paper [1]) which has been shown to contain the compounds responsible for the diene conjugation absorption [1], was found in the fatty acid methyl esters prepared from the fraction containing phosphatidylethanolamine (PE) and also in those obtained from the fraction containing phosphatidylserine (PS) and phosphatidylinositol (PI). The absorption of conjugated dienes was very marked in PE and less intense in PS and PI. The fatty acid methyl esters prepared from the fraction containing phosphatidylcholine (PC) showed no presence of the “D” spot and minimal absorption of conjugated dienes.A decrease in arachidonic acid content was found in the fraction containing PE, while no change in content of this fatty acid was found in the fraction containing PC. Results similar to those observed for PC were also found for neutral lipids (NL).Analysis of the fatty acid methyl esters of the various lipid fractions by gas-liquid chromatography (GLC) with an electron capture detector (ECD) gave a qualitative index of the free radical attack by CCl₄ metabolites. Quantitative estimation was attained by study of the irreversible binding of ¹⁴C from ¹⁴CCl₄ to the various lipid fractions. It was found that the fraction containing PS had the highest specific activity, while the fraction containing PC had the lowest specific activity of all the phospholipids. Thin layer chromatography (TLC) of the fraction containing PS revealed that only 11% of the radioactivity was associated with the pure PS moiety, while the remainder was associated with uncharacterized lipids (probably oxidation products).The possible relevance of the alterations induced by carbon tetrachloride in the various phospholipid fractions of liver microsomes to functional changes is discussed.     

Comparative study of the effects of short- and long-term ethanol treatment and alcohol withdrawal on phospholipid biosynthesis in rat hepatocytes

This study describes the effects of short- and long-term ethanol treatment and withdrawal on the biosynthesis of the phospholipids phosphatidylcholine (PC) and phosphatidylethanolamine (PE) in hepatocytes isolated from rats, using isotopically labelled choline and ethanolamine as exogenous precursors. Our results demonstrate that short-term ethanol consumption increases the incorporation of exogenous polar bases into PC and PE, whereas long-term ethanol administration provokes a differential effect in both PC and PE biosynthesis via cytidine diphosphate derivatives (CDP-derivatives), decreasing PC synthesis and increasing the biosynthesis of PE. We suggest that the increased biosynthesis of PE after ethanol treatment results from changes in lipogenic substrates produced as a consequence of ethanol metabolism, whilst the specific inhibition of PC biosynthesis seems to be a consequence of alterations of enzymes involved in the CDP-choline pathway. With regard to the influence of ethanol on PE methylation to give PC, our results demonstrate that ethanol activates this pathway in short-term, as well as chronic ethanol treatment. Ethanol withdrawal returns the activity of the PC and PE pathways to control levels. The alterations in the biosynthesis of the main phospholipids, PC and PE, demonstrated in this study could be of a great physiological interest in determining the pathology of alcoholism.     

Studies on the preferential incorporation of [3H]glycerol over [32P]phosphate into major phospholipids of human platelets

It is well known that platelets readily incorporate radioactive glycerol, but not radioactive phosphate into phosphatidylcholine (PC) and phosphatidylethanolamine (PE) in vitro, thus not in accordance with de novo synthesis according to the Kennedy pathway. In attempts to understand the reason for the discrepancy, gel-filtered platelets were incubated simultaneously with [32P]Pi and [3H]glycerol, and the specific and relative radioactivities of products and intermediates were determined. Both precursors were incorporated into phosphatidylinositol (PI) with a 32P/3H ratio similar to that in glycerol 3-phosphate (in accordance with the Kennedy pathway). However, PC and PE obtained a much lower ratio. The specific 32P radioactivity in phosphorylcholine was similar to that of the gamma-phosphoryl of ATP and 650-times higher than that of PC. The specific 32P radioactivity of phosphorylethanolamine was 20-times less than that of phosphorylcholine. Both mass and 32P labelling of CDP-choline were below the detection limits. It is concluded that the incorporation of [32P]Pi into PC via phosphorylcholine is insignificant while the preferential incorporation of [3H]glycerol could be explained by exchange of diacyl[3H]glycerol in the reversible choline phosphotransferase (CDP-choline: 1,2-diacylglycerol cholinephosphotransferase) reaction. The same mechanism would explain the preferential incorporation of 3H over 32P into PE, although dilution of 32P at the phosphorylethanolamine stage would account for part of the feeble 32P incorporation. Although other mechanisms are also possible, our results clearly show that the appearance of [3H]glycerol in PC and PE is not a reliable method of monitoring de novo synthesis of these phospholipids.     

The Effect of Overnight Fasting on the Synthesis of Glycerolipids by Liver Slice

The uptake by liver slices of radioactive acetate, palmitate, stearate, linoleate and glycerol into glycerolipids was compared in fed and fasted (overnight, 16 hr) rats.

The incorporation of l-¹⁴C-acetate into long-chain fatty acids and glycerolipids was depressed by fasting. There was a considerable decrease in the incorporation of 1-¹⁴C-palmitate into triglyceride (TG) and that of l-¹⁴C-stearate into phosphatidylcholine (PC) in fasted liver slices. No such differences were observed with l-¹⁴C-linoleate. The incorporation of l-¹⁴C-glycerol into TG was slightly decreased, whereas that into PC and phosphatidylethanolamine (PE) was increased by fasting.

These observations, together with those with the incorporation of the precursors into molecular species of TG, PC and PE, suggested that the changes in the fatty acid composition of glycerolipids by fasting may be governed by the changes in the availability of acyl moieties as well as in the relative balance of the pathways participating to formation of TG and phospholipids.     

Mitochondrial DNA,RNA, and protein synthesis in different regions of developing rat brain

In vivo and in vitro (tissue slices) incorporation of labeled precursors into DNA, RNA, and proteins was measured in mitochondria obtained from cerebral hemispheres, cerebellum, and brain stem of rats at different days of postnatal development. To compare the synthesis of macromolecules in mitochondria with that in other subcellular fractions, the incorporation of labeled precursors into DNA, RNA, and proteins extracted from nuclei and into RNA and proteins extracted from microsomes and cytoplasmic soluble fractions was also measured.The results obtained showed that the incorporation of [³H]thymidine into DNA and of [¹⁴C]leucine into proteins of nuclei and mitochondria from the various brain regions examined decreased during postnatal development, however, at 30 days of age the specific radioactivity of mitochondrial DNA was higher than that of nuclear DNA. [³H]Uridine incorporation into RNA decreased from 10 to 30 days of age in nuclei while in mitochondria it was quite similar at both ages. This result may be due to a faster turnover of mitochondrial RNA compared to that of mitochondrial DNA and proteins. The results obtained suggest an active biosynthesis of macromolecules in brain mitochondria and might indicate an intense biogenesis of these organelles in rat brain during postnatal development.Preliminary reports of these results were presented at the XI FEBS Meeting, Copenhagen, August 14–19, 1977, Poster number A2-2-155-3, and at III Meeting of Italian Biochem. Soc., Siena, October 3–5, 1977, Abstract C6.     

Diverse pathways of phosphatidylcholine biosynthesis in algae as estimated by labeling studies and genomic sequence analysis

Phosphatidylcholine (PC) is an almost ubiquitous phospholipid in eukaryotic algae and plants but is not found in a few species, for example Chlamydomonas reinhardtii. We recently found that some species of the genus Chlamydomonas possess PC. In the universal pathway, PC is synthesized de novo by methylation of phosphatidylethanolamine (PE) or transfer of phosphocholine from cytidine diphosphate (CDP)‐choline to diacylglycerol. Phosphocholine, the direct precursor to CDP‐choline, is synthesized either by methylation of phosphoethanolamine or phosphorylation of choline. Here we analyzed the mechanism of PC biosynthesis in two species of Chlamydomonas (asymmetrica and sphaeroides) as well as in a red alga, Cyanidioschyzon merolae. Comparative genomic analysis of enzymes involved in PC biosynthesis indicated that C. merolae possesses only the PE methylation pathway. Radioactive tracer experiments using [³²P]phosphate showed delayed labeling of PC with respect to PE, which was consistent with the PE methylation pathway. In Chlamydomonas asymmetrica, labeling of PC was detected from the early time of incubation with [³²P]phosphate, suggesting the operation of phosphoethanolamine methylation pathway. Genomic analysis indeed detected the genes for the phosphoethanolamine methylation pathway. In contrast, the labeling of PC in C. sphaeroides was slow, suggesting that the PE methylation pathway was at work. These results as well as biochemical and computational results uncover an unexpected diversity of the mechanisms for PC biosynthesis in algae. Based on these results, we will discuss plausible mechanisms for the scattered distribution of the ability to biosynthesize PC in the genus Chlamydomonas.     

The yeast phospholipid N-methyltransferases catalyzing the synthesis of phosphatidylcholine preferentially convert di-C16:1 substrates both in vivo and in vitro

Phosphatidylcholine (PC) is an important and abundant structural component of the membranes of eukaryotic cells. In the yeast Saccharomyces cerevisiae, the primary route for the biosynthesis of PC consists of three consecutive methylation steps of phosphatidylethanolamine (PE) catalyzed by the phospholipid N-methyltransferases Cho2p and Opi3p. To investigate how these biosynthetic enzymes contribute to the composition of the PC species profile, the precursor-product relationships between PE and newly synthesized PC were determined at the level of the molecular species by using electrospray ionization tandem mass spectrometry and stable isotope labeling. In vivo labeling of yeast cells for 10 min with [methyl-D3]methionine revealed the preferential methylation of di-C16:1 PE over a range of PE species compositions. A similar preferential conversion of di-C16:1 PE to PC was found in vitro upon incubating isolated microsomes with S-adenosyl[methyl-D3]methionine. Yeast opi3 and cho2 deletion strains were used to distinguish between the substrate selectivities of Cho2p and Opi3p, respectively. Both biosynthetic enzymes were found to participate in the speciesselective methylation with Cho2p contributing the most. The combined results indicate that the selective methylation of PE species by the methyltransferases plays an important role in shaping the steady-state profile of PC molecular species in yeast.     

A study on the precursors of the acetyl moiety of acetylcholine in brain slices. Observations on the compartmentalization of the acetyl-coenzyme A pool

1. A method was devised for the determination of the specific radioactivity of the acetyl moiety of acetylcholine synthesized from various (14)C-labelled substrates. 2. The precursor for the acetyl moiety of acetylcholine was studied in slices of striatum and cerebral cortex from rat and guinea-pig brain. Incorporation of radioactivity into acetylcholine was determined after incubating the slices in the presence of [2-(14)C]acetate, [(14)C]bicarbonate, [1,5-(14)C]citrate, dl-[1- or 5-(14)C]glutamate or [1- or 2-(14)C]pyruvate. 3. After incubation for 1h, acetylcholine was accumulated significantly in both striatum slices (4.1nmol/mg of protein) and cerebral-cortex slices (0.57nmol/mg of protein) from the rat. Final concentrations were about 11 and 5 times respectively the initial values. 4. With slices from rat striatum, rat cerebral cortex and guinea-pig cerebral cortex, the specific radioactivity of acetylcholine derived from [2-(14)C]pyruvate was very high, reaching approx. 30, 20 and 6% respectively of the initial specific radioactivity of added pyruvate in the medium. With the striatum slices this high value was reached after incubation for 15min. Incorporation of radioactivity from [2-(14)C]acetate was only 1.25, 5.3 and 19.7% of that from [2-(14)C]pyruvate in rat striatum, rat cerebral-cortex and guinea-pig cerebral-cortex slices respectively. A small but definite incorporation was found from [5-(14)C]glutamate. No incorporation was found from the other substrates. The findings suggest that pyruvate is the most important precursor for the synthesis of the acetyl moiety of acetylcholine in brain slices. 5. The specific radioactivity of acetylcholine relative to that of citrate when [2-(14)C]pyruvate was used compared with that obtained when [2-(14)C]acetate was used. A marked difference was found in all slices, suggesting metabolic compartmentation of the acetyl-CoA pool.     

Effets physiologiques de ľ atrazine à doses sublétales sur Lemna minor, VII. Incorporation ďacétate-l,2-[14C] dans les groupes de lipides et leurs acides gras

Physiological effects of sublethal doses of atrazine on Lemna minor. VII. 1,2-[¹⁴C] acetate incorporation into the groups of lipids and their fatty acids. The lipids and the fatty acids of ten-day old duckweed (Lemna minor L.), cultivated aseptically in mineral solution containing sublethal concentrations of 0,10 and 0,50 ppm (0.46 and 2.3 μM, respectively) of atrazine, were analyzed by thin-layer chromatography and gas-liquid radiochromatography after 1,2-[¹⁴C] acetate feeding. Sublethal concentrations of atrazine increased the incorporation of radioactivity in total lipids, diacylgalactosylglycerol (DGG), diacyldigalactosylglycerol (DDG), sul-folipids (SL), phosphatidylglycerol (PG), diacylglycerol (DAG) and triacylglycerol + steroll esters (TAG+SE). The incorporation of acetate-1,2-[¹⁴C] decreased in phos-phatidylcholine (PC) and in phosphatidylethanolamine (PE) in the presence of atrazine. The radioactivity increased in total Transic-hexadecenoic, linoleic and α -linolenic acids while it decreased in the other fatty acids. This indicates that the sublethal concentrations of atrazine stimulate the desaturation of fatty acids of L. minor. The radioactivity was strongly incorporated in the α -linolenic acid of DGG in the presence of atrazine. The specific radioactivity of α-linolenic acid was greater in DAG than in PG > TAG + SE > PC > PE > DGG > SL > DDG and it increased in all groupd of lipids analyzed under the influence of sublethal doses of atrazine. The labelling of Translchexadecenoic acid of PG and its specific radioactivity increased in the presence of atrazine. These changes suggest that the sublethal concentrations of atrazine stimulate especially the lipid metabolism of the chloroplasts of L. minor and they could explain the increase in the number of grana per chloroplast in treated L. minor. The results are discussed in relation to the biosynthesis of galactolipids.     

Evidence that activation of a common G-protein by receptors for leukotriene B4 and N-formylmethionyl-leucyl-phenylalanine in HL-60 cells occurs by different mechanisms.

Using cultured human umbilical vein endothelial cells, in which phosphatidylcholine (PC) is equally pulse-labelled by various eicosanoid precursor fatty acids (EPFAs), we have studied the remodelling of EPFAs among the phospholipid classes and subclasses with and without activation, and the relationship of this remodelling process to the selective release of arachidonic acid (AA) by phospholipase A2-mediated cell stimulation. When endothelial cells are pulse-incubated with radiolabelled EPFA for 15 min, greater than 80% of cell-associated radioactivity is present in phospholipids, among which greater than 60% is found in 1,2-diacyl-sn-glycero-3-phosphocholine (diacyl PC). After removing unincorporated radioactivity, reincubation of the pulse-labelled cells for up to 6 h results in progressive decrease in EPFA-labelled diacyl PC, increase in AA- or eicosapentaenoic acid (EPA)-labelled 1-O-alk-1-enyl-2-acyl-sn-glycero-3-phosphoethanolamine (plasmalogen PE) and increase only in AA-labelled 1-O-alkyl-2-acyl-sn-glycero-3-phosphocholine (alkyl PC). This redistribution of radiolabelled phospholipids is not altered by the presence of excess non-radiolabelled EPFAs. When aspirin-treated EPFA-labelled endothelial cells are stimulated with ionophore A23187, a very selective release of AA is noted in comparison with eicosatrienoate (ETA) or EPA, accompanied by an equivalent decrease in AA-labelled diacyl PC and specific increase in AA-labelled plasmalogen PE and alkyl PC. These selective changes in AA radioactivity induced by A23187 are enhanced 2-fold by pretreating the AA-labelled cells with phorbol 12-myristate 13-acetate, which by itself induces no changes. The changes in radioactivity induced by A23187 without and with phorbol ester among the released AA, the diacyl PC and the plasmalogen PE are significantly correlated with each other. These results indicate that human endothelial cells incorporate EPFAs (AA, ETA, EPA) equally into diacyl PC but selectively release AA esterified into diacyl PC with specific remodelling into plasmalogen PE and alkyl PC.     

The ratio of phosphatidylcholine to phosphatidylethanolamine does not predict integrity of growing MT58 Chinese hamster ovary cells

Phosphatidylcholine (PC) homeostasis is important for maintaining cellular growth and survival. Cellular growth and apoptosis may also be influenced by the PC to phosphatidylethanolamine (PE) ratio as a reduction in this ratio can result in a loss of membrane integrity. To investigate whether a reduced PC:PE ratio influences cellular growth and apoptosis, we utilized the MT58 cell line, which contains a thermo-sensitive mutation in CTP:phosphocholine cytidylyltransferase-α, the rate-limiting enzyme for PC biosynthesis. Incubation of MT58 cells at the restrictive temperature of 41 °C results in a reduction of cellular PC and induces apoptosis. Furthermore, MT58 cells have a 50% reduction in the PC:PE ratio when incubated at 41 °C. In an attempt to normalize the PC:PE ratio, which may stabilize cellular membranes and rescue MT58 cells from apoptosis, the cells were treated with either silencing RNA to impair PE biosynthesis or lysophosphatidylcholine to increase PC mass. Impairing PE biosynthesis in MT58 cells reduced cellular PE and PC concentrations by 30% and 20%, but did not normalize the PC:PE ratio. Loss of both phospholipids enhanced the onset of apoptosis in MT58 cells. Lysophosphatidylcholine normalized cellular PC, increased PE mass by 10%, restored cellular growth and prevented apoptosis of MT58 cells without normalizing the PC:PE ratio. Furthermore, total amount of cellular PC and PE, but not the PC:PE ratio, correlated with cellular growth (R² = 0.76), and inversely with cellular apoptosis (R² = 0.97). These data suggest the total cellular amount of PC and PE, not the PC:PE ratio, influences growth and membrane integrity of MT58 cells.     

Origin of cholesterol in myelin

We review some of the older literature concerning metabolic turnover of cholesterol in the nervous system. The overall picture is that incorporation of radioactive precursors into brain cholesterol is roughly proportional to the rate of myelination and that, once incorporated, radioactive cholesterol is relatively stable metabolically. We outline a strategy for demonstrating the source (local synthesis or uptake from the circulation) of cholesterol in brain. The experimental design involves determining the rate of accumulation of cholesterol this is calculated as the increasing amounts of sterol in brain at successive time intervals during development. The rate of appearance of newly synthesized cholesterol is determined from incorporation of radioactivity from³H₂O (injected i.p. several hours prior to sacrifice) into cholesterol. The radioactivity associated with the sterol fractions and the specific activity of body water determined from the serum can be used to calculate the absolute amount of sterol newly synthesized during the time when³H₂O was present. The results obtained demonstrated that all of the bulk cholesterol accumulating in brain can be accounted for by newly synthesized cholesterol. None of the radioactive cholesterol came from the circulation, since cholesterol feeding suppressed cholesterol biosynthesis in the liver and specific radioactivity of circulating cholesterol was negligible. Thus, almost all cholesterol accumulating in brain during development is locally synthesized. Special issue dedicated to Dr. Marion R. Smith.     

Differential Incorporation of Precursor Moieties into Cerebral Cortex and Cerebellum Glycerophospholipids During Aging

The incorporation of polar and non-polar moieties into cerebral cortex (CC) and cerebellum (CRBL) phospholipids of adult (3.5-month-old) and aged (21.5-month-old) rats was studied in a minced tissue suspension. The biosynthesis of acidic phospholipids through [³H]glycerol appears to be slightly increased with respect to that of zwitterionic or neutral lipids in CC of aged rats with respect to adult rats. On the contrary, the synthesis of phosphatidylcholine (PC) from [³H]choline was inhibited. However, the incorporation of [¹⁴C]serine into phosphatidylserine (PS) was higher in CC and CRBL in aged rats with respect to adult rats. The synthesis of phosphatidylethanolamine (PE) from PS was not modified during aging. Saturated ([³H]palmitic) and polyunsaturated ([³H]arachidonic) acids were incorporated successfully by adult and aged brain lipids. In addition [³H]palmitic, [³H]oleic and [³H]arachidonic acid were employed as glycerolipid precursors in brain homogenate from aged (28.5 month old) and adult (3.5 month old) rats. [³H]oleic acid incorporation into neutral lipids (NL) and [³H]arachidonic acid incorporation into PC, PE and phosphatidylinositol (PI) were increased in aged rats with respect to adult rats. Present results show the ability and avidity of aged brain tissue in vitro to incorporate unsaturated fatty acids when they are supplied exogenously. They also suggest a different handling of choline and serine by base exchange enzyme activities to synthesize PC and PS during aging.     

Effect of various drugs producing convulsive seizures on rat brain glycerolipid metabolism

Convulsive seizures were elicited in the rat by the injection of several different drugs (pyridoxal phosphate, bicuculline, penicillin and ouabain). Glycerolipid metabolism was studied after the intraventricular injection of [2-³H]glycerol, which was incorporated into rat brain glycerides. The percentage of total lipid label found in each lipid class (phosphatidylethanolamine, PE; phosphatidylcholine, PC; phosphatidylserine, PS; phosphatidic acid, PA; phosphatidylinositol, PI; diacylglycerol (+ monoacylglycerol), DG and triacylglycerol, TG) depended on the time elapsed from the injection of the labeled precursor. The percent of total lipid radioactivity as PE and PC increased with time (3–60 min), whereas the opposite was true for the radioactivity of DG and PA. The radioactivity of other lipid classes did not appreciabily vary between 3 and 60 min from the injection of the labeled glycerol. The intraventricular administration of pyridoxal phosphate together with labeled glycerol decreased the percent of lipid radioactivity as PE and increased that as DG. This lipid effect was detected also after the administration of other convulsants, such as ouabain and penicillin. The intraperitoneal administration of bicuculline affected lipid metabolism in cerebellum.     

Action of aspartate on the32Pi incorporation into phospholipids of cerebral cortex

The effect ofl-aspartate on the³²Pi incorporation of phospholipids, was studied on slices of rat cerebral cortex. This amino acid produced an inhibitory effect in concentrations 0.01–10 mM, which was more evident at 120 min. This effect was not stereospecific and did not imply a change in Pi uptake and in nucleotides P precursors. The inhibition was present in PS, PC, PE and to a lesser extent in PI. On liver slices 1 mMl-aspartate had the opposite effect, stimulating the incorporation of³²Pi into total phospholipids. Our results suggest that the effect ofl-aspartate is by a non-specific mechanism, probably not mediated by a receptor.     

Protein-bound phosphorylserine in acid hydrolysates of brain tissue. The determination of [32P]phosphorylserine by ion-exchange chromatography and electrophoresis

1. Partial acid hydrolysates of proteins derived from cortical slices of guinea-pig brain were divided into two parts and fractionated by ion-exchange chromatography and high-voltage electrophoresis. 2. The apparent yield of protein-bound phosphorylserine by the ion-exchange method was about three times that obtained by electrophoresis. 3. The specific radioactivity of phosphorylserine isolated from (32)P-labelled slices by electrophoresis was twice that isolated by chromatography. 4. The discrepancies were found to be due to the presence of unlabelled phosphates of unknown composition in the ;phosphorylserine' fraction obtained by the ion-exchange method. 5. Electrical stimulation of slices respiring in the presence of [(32)P]phosphate increased the specific radioactivity of the total phosphate in the chromatographic ;phosphorylserine' fraction by 53+/-11%, as compared with only 19+/-5% for the phosphorylserine isolated by electrophoresis.