METABOLISM OF HEXOSES IN RAT CEREBRAL CORTEX SLICES

Abstract—

• 1 The metabolism of two ¹⁴C-labelled hexoses and one hexose analogue, viz. mannose, fructose and glucosamine, has been compared with that of glucose for slices of rat cerebral cortex incubated in vitro.
• 2 The metabolism of [U-¹⁴C]mannose was essentially identical to that of glucose; oxygen consumption and CO₃ production were similar and maximal at a substrate concentration of 2·75 mM. Incorporation of label into lactate, aspartate, glutamate and GABA was similar for the two substrates at 5·5 mM substrate concentration.
• 3 With [U-¹⁴C]fructose, maximal oxygen consumption and CO₃ production were obtained at a substrate concentration of 11 mM. At 5·5 mM, incorporation into lactate was 5 per cent, into glutamate and GABA 30 per cent, into alanine 63 per cent and into aspartate 152 per cent of that from glucose. Increasing substrate concentration to 27·5 mm was without effect on incorporation into amino acids from glucose and raised incorporation from fructose into glutamate, GABA and alanine to a level similar to that found with glucose; at the higher substrate concentration aspartate incorporation from fructose was 200 per cent and lactate 42 per cent of that with glucose. Unlabelled fructose was without effect on incorporation of radioactivity from [3-¹⁴C]pyruvate into CO₂ or amino acids; it increased incorporation into lactate by 36 per cent. Unlabelled glucose diminished incorporation into CO₂ from [U-¹⁴C]fructose to 35 per cent; incorporation into lactate was stimulated 178 per cent at 5·5 mM fructose; at 27·5 mM it was diminished to 75 per cent.
• 4 By comparison with [1-¹⁴C]glucose, incorporation of radioactivity from [1-¹⁴C]-glucosamine into lactate, CO₂, alanine, GABA and glutamine was very low; incorporation into aspartate was similar to glucose. Thus the metabolism of glucosamine resembled that of fructose. Glucosamine-1-phosphate, glucosamine-6-phosphate, and an unidentified metabolite, all accumulated.

     

Labelling of lipids by D-[1-14C]glucose, D-[6-14C]glucose and D-[3-3H]glucose in pancreatic islets from normal and GK rats

In pancreatic islets prepared from either normal or GK rats and incubated at either low (2.8 mM) or high (16.7 mM) D-glucose concentration, the labelling of both lipids and their glycerol moiety is higher in the presence of D-[1-¹⁴C]glucose than D-[6-¹⁴C]glucose. The rise in D-glucose concentration augments the labelling of lipids, the paired ¹⁴C/³H ratio found in islets exposed to both D-[1-¹⁴C]glucose or D-[6-¹⁴C]glucose and D-[3-³H]glucose being even slightly higher at 16.7 mM D-glucose than that found, under otherwise identical conditions, at 2.8 mM D-glucose. Such a paired ratio exceeds unity in islets exposed to D-[1-¹⁴C]glucose. The labelling of islet lipids by D-[6-¹⁴C]glucose is about 30 times lower than the generation of acidic metabolites from the same tracer. These findings indicate (i) that the labelling of islet lipids accounts for only a minor fraction of D-glucose catabolism in pancreatic islets, (ii) a greater escape to L-glycerol-3-phosphate of glycerone-3-phosphate generated from the C₁-C₂-C₃ moiety of D-glucose than D-glyceraldehyde-3-phosphate produced from the C₄-C₅-C₆ moiety of the hexose, (iii) that only a limited amount of [3-³H]glycerone 3-phosphate generated from D-[3-³H]glucose is detritiated at the triose phosphate isomerase level before being converted to L-glycerol-3-phosphate, and (iv) that a rise in D-glucose concentration results in an increased labelling of islet lipids, this phenomenon being somewhat more pronounced in the case of D-[1-¹⁴C]glucose or D-[6-¹⁴C]glucose rather than D-[3-³H]glucose.     

Metabolism of 14C-labelled D-glucose, D-fructose and allitol by Itea plants

The metabolism of D-[1-¹⁴C]glucose, D-[6-¹⁴C]glucose, D-[1-¹⁴C]fructose and D-[6-¹⁴C]fructose by leafy spurs of Itea plants results in rapid incorporation of label into allitol and D-allulose. The patterns of labelling found in the allitol and D-allulose are discussed, a direct interconversion from D-glucose and D-fructose being indicated. Allitol has been found to be an active metabolite in Itea plants.     

The involvement of sucrose,glucose and other metabolites in the synthesis of triterpenes and dopa in the laticifers of Euphorbia lathyris

A quantitative triterpene analysis was made of latex stem tissue of Euphorbia lathyris. Young plants seedlings of E. lathyris were incubated with various labelled precursors. Incorporation into triterpenes was obtained from [2-¹⁴C]mevalonic acid, [1-¹⁴C]acetate, [3-¹⁴C]pyruvate, [U-¹⁴C]sucrose, [U-¹⁴C]glucose, [U-¹⁴C]xylose, [U-¹⁴C]glyoxylate, [2,3-¹⁴C]succinic acid, [1-¹⁴C]glycerol [U-¹⁴C]serine. Both sugars tyrosine appeared to be effective precursors in DOPA synthesis inside the laticifers. Exogenously supplied mevalonic acid was only involved in triterpene synthesis outside the laticifers. GC-RC of triterpenes synthesized from [U-¹⁴C]glucose revealed the origin of these compounds in the latex. The labelled triterpenes obtained after incorporation of the other mentioned labelled precursors were only partly synthesized in the laticifers. For quantitative data on latex triterpene synthesis seedlings were incubated with [U-¹⁴C]sucrose, [U-¹⁴C]glucose, [U-¹⁴C]xylose [1-¹⁴C]acetate in the presence of increasing amounts of unlabelled substrate. From the amount of ¹⁴C incorporated into the triterpenes the amount of substrate directly involved in triterpene synthesis was calculated, as was the absolute triterpene yield. Sucrose showed the highest triterpene yield, equivalent to the daily increase of the triterpene content of growing seedlings. The possible significance of the other precursors in triterpene synthesis in the laticifers is discussed.     

Cholesterol biosynthesis in human lymphocytes,monocytes, and granulocytes

Lymphocytes, monocytes and granulocytes were separated by counter-flow centrifugation from the blood of normal individuals and were incubated in full serum medium or lipid-depleted medium. The monocytes incorporated about five times more [2-¹⁴C]acetate into sterols than did the lymphocytes in full serum medium and approximately twenty times more than the lymphocytes in lipid-depleted medium. The granulocytes were unable to synthesize sterols from either [2-¹⁴C]acetate or [2-¹⁴C]mevalonate, but they were able to use these substrates for the synthesis of squalene and demonstrated approximately a two fold increase in the incorporation of [2-¹⁴C]acetate (but not [2-¹⁴C]mevalonate) into squalene when incubated in the lipid-depleted medium as compared to the full serum medium.     

Phosphoglucoisomerase-catalyzed interconversion of hexose phosphates: isotopic discrimination between hydrogen and deuterium

Summary The discrimination between the isotopes of hydrogen in the reaction catalyzed by yeast phosphoglucoisomerase is examined by NMR, as well as by spectrofluorometric or radioisotopic methods. The monodirectional conversion of D-glucose 6-phosphate to D-fructose 6-phosphate displays a lower maximal velocity with D-[2-²H]glucose 6-phosphate than unlabelled D-glucose 6-phosphate, with little difference in the affinity of the enzyme for these two substrates. About 72% of the deuterium located on the C₂ of D-[1-¹³C,2-²H]glucose 6-phosphate is transferred intramolecularly to the C₁ of D-[1-¹³C,1-²H]fructose 6-phosphate. The velocity of the monodirectional conversion of D-[U-¹⁴C]glucose 6-phosphate (or D-[2-³H]glucose 6-phosphate) to D-fructose 6-phosphate is virtually identical in H₂O and D₂O, respectively, but is four times lower with the tritiated than ¹⁴C-labelled ester. In the monodirectional reaction, the intramolecular transfer from the C₂ of D-[2-³H]glucose 6-phosphate is higher in the presence of D₂O than H₂O. Whereas prolonged exposure of D-[1-¹³C]glucose 6-phosphate to D₂O, in the presence of phosphoglucoisomerase, leads to the formation of both D-[1-¹³C,2-²H]glucose 6-phosphate and D-[1-¹³C,1-²H]fructose 6-phosphate, no sizeable incorporation of deuterium from D₂O on the C₁ of D-[1-¹³C]fructose 1,6-bisphosphate is observed when the monodirectional conversion of D-[1-¹³C]glucose 6-phosphate occurs in the concomitant presence of phosphoglucoisomerase and phosphofructokinase. The latter finding contrasts with the incorporation of hydrogen from ¹H₂O or tritium from ³H₂O in the monodirectional conversion of D-[2-³H]glucose 6-phosphate and unlabelled D-glucose 6-phosphate, respectively, to their corresponding ketohexose esters.     

Carbohydrate oxidation by leucoplasts from suspension cultures of soybean (Glycine max L.)

The aim of this work was to discover how leucoplasts from suspension cultures of soybean (Glycine max L.) oxidize hexose monophosphates. Leucoplasts were isolated from protoplast lysates on a continuous gradient of Nycodenz with a yield of 28% and an intactness of 80%. Incubation of the leucoplasts with ¹⁴C-labelled substrates led to ¹⁴CO₂ production, that was dependent upon leucoplast intactness, from [U-¹⁴C]glucose 6-phosphate, [U-¹⁴C]glucose 1-phosphate, [U-¹⁴C] fructose 6-phosphate and [U-¹⁴C]glucose+ATP, but not from [U-¹⁴C]fructose-1,6-bisphosphate or [U-¹⁴C]triose phosphate. The yield from [U-¹⁴C]glucose 6-phosphate was at least four times greater than that from any of the other substrates. When [1-¹⁴C]-, [2-¹⁴C]-, [3,4-¹⁴C]-, and [6-¹⁴C]glucose 6-phosphate were supplied to leucoplasts significant ¹⁴CO₂ production that was dependent upon leucoplast intactness was found only for [1-¹⁴C]glucose 6-phosphate. It is argued that soybean cell leucoplasts oxidize glucose 6-phosphate via the oxidative pentose phosphate pathway with very little recycling, and that in these plastids glycolysis to acetyl CoA is negligible.S.A.C. thanks the Science and Engineering Research Council for a research studentship.     

A model study of the fructose diphosphatase-phosphofructokinase substrate cycle

A fructose diphosphatase–phosphofructokinase substrate cycle has been reconstructed in vitro to provide a system that recycles fructose 6-phosphate and hydrolyses ATP to ADP and P_i. The concerted actions of glucose phosphate isomerase, phosphofructokinase, aldolase and triose phosphate isomerase catalysed the loss of ³H from [5-³H,U-¹⁴C]glucose 6-phosphate. This was used as the basis of a method for the estimation of the fructose diphosphatase–phosphofructokinase substrate cycle. For the reconstructed cycle, the rate of decrease of the ³H/¹⁴C ratio in [5-³H,U-¹⁴C]hexose 6-phosphate was proportional to the rate of fructose 6-phosphate substrate cycling. A detailed theoretical treatment of this relationship is developed, which enables the rate of substrate cycling to be determined in vivo.     

Identification of the metabolites of Indole-3-acetic acid in growing hypocotyls of Lupinus albus

The products of indole-3-acetic acid (IAA) metabolism by incubating hypocotyl sections and decapitated seedlings of Lupinus albus were investigated. Single treatments using [1-¹⁴C]-IAA, [2-¹⁴C]-IAA or [5-³H]-IAA and double treatments using [1-¹⁴C]-IAA+[5-³H]-IAA were carried out. Extracts from treated plant material were analyzed by paper chromatography (PC), Thin layer chromatography (TLC), and high performance liquid chromatography (HPLC). When hypocotyl sections were incubated in [2-¹⁴C]-IAA, several IAA decarboxylation products including indole-3-aldehyde (IA1), indole-3-methanol (IM), 3-hydroxymethyloxindole (HMOx), methyleneoxindole (MOx) and 3,3-bisindolylmethane (BIM) were detected in the 95% ethanol extract; a latter extraction with 1M NaOH rendered IAA, IM and BIM, suggesting that conjugated auxins were formed in addition to conjugated IM. In sections incubated with [1-¹⁴C]-IAA, the 1M NaOH extraction also produced IAA so confirming the formation of conjugated auxins. The same decarboxylation products and two conjugated auxins, indole-3-acetylaspartic acid (IAAsp) and 1-O-(indole-3-acetyl)--D-glucose (IAGlu), were detected in the acetonitrile extracts from decapitated seedlings treated with [5-³H]-IAA. After a double isotope treatment ([1-¹⁴C]-IAA+[5-³H]-IAA) of decapitated seedlings, the ratio ¹⁴C/³H measured in the HPLC fractions of the acetonitrile extracts confirmed the presence of decarboxylation products as well as conjugated auxins.     

Effects of D-glucose upon D-fuctose metabolism in rat hepatocytes: A 13C NMR study

Isolated hepatocytes from fed rats were exposed for 120 min to D-glucose (10 mM) and either D-[1-¹³C]fructose, D-[2-¹³C]fructose or D-[6-¹³C]fructose (also 10 mM) in the presence of D₂O. The identification and quantification of ¹³C-enriched D-fructose and its metabolites (D-glucose, L-lactate, L-alanine) in the incubation medium and the measurement of their deuterated isotopomers indicated, by comparison with a prior study conducted in the absence of exogenous D-glucose, that the major effects of the aldohexose were to increase the recovery of ¹³C-enriched D-fructose, decrease the production of ¹³C-enriched D-glucose, restrict the deuteration of the ¹³C-enriched isotopomers of D-glucose to those generated by cells exposed to D-[2-¹³C]fructose, and to accentuate the lesser deuteration of the C₂ (as compared to C₅) of ¹³C-enriched D-glucose derived from D-[2-¹³C]fructose. The ratio between C2-deuterated and C₂-hydrogenated L-lactate, as well as the relative amounts of the CH₃-, CH₂D-, CHD₂ and CD₃- isotopomers of ¹³C-enriched L-lactate were not significantly different, however, in the absence or presence of exogenous D-glucose. These findings indicate that exogenous D-glucose suppressed the deuteration of the C₁ of D-[1-¹³C]glucose generated by hepatocytes exposed to D-[1-¹³C]fructose or D-[6-¹³C]fructose, as otherwise attributable, in part at least, to gluconeogenesis from fructose-derived [3-¹³C]pyruvate, and apparently favoured the phosphorylation of D-fructose by hexokinase isoenzymes, probably through stimulation of D-fructose phosphorylation by glucokinase.     

THE INFLUENCE OF PORTOCAVAL ANASTOMOSIS ON THE METABOLISM OF LABELLED OCTANOATE, BUTYRATE AND LEUCINE IN RAT BRAIN

Rats were given a portocaval anastomosis and 3 weeks later, when the only ultrastructural change in the CNS is watery swelling of astrocytes, several aspects of brain metabolism were studied. The uptake of leucine by the brain, its incorporation into protein and its oxidation were followed after the simultaneous injection of a mixture of L-[1¹⁴C]leucine and L-[4,5-³H]leucine. The concentration of leucine in blood was lowered in the operated animals whereas in brain it was increased. The specific radioactivity of leucine in the brain was comparable to values in control animals and there was no evidence of a decrease in incorporation of [1-¹⁴C]leucine into brain proteins over the short experimental time period studied. The only difference from the controls in the oxidation of [4,5-³H]leucine was a greater accumulation in glutamine. The amount of glutamine in the brains of the operated animals had increased 4-fold at the time of the metabolic studies. From dual-labelled experiments in which a mixture containing [1-¹⁴C]butyrate and L-[4,5-³H]leucine was injected intravenously, it was shown that, in both control and operated animals, the pools of brain glutamate and glutamine labelled from butyrate were metabolically distinct from those labelled from leucine. The total radioactivity appearing in brain from [1-¹⁴C]butyrate was markedly reduced in operated animals, but the radioactivity from L-[4,5-³H]leucine was not. The metabolism of [1-¹⁴C]octanoate was compared with that of [1-¹⁴C]butyrate. In control animals the labelling of metabolites was almost identical with either precursor. In operated animals there was no reduction in the uptake of [1-¹⁴C]octanoate into the brain. There was evidence that the size of the glutamine pool labelled, relative to glutamate, was increased but that it had a slower fractional turnover coefficient. A link between astroglial changes and an impairment to the carrier mechanism for transport of short chain monocarboxylic acids across the blood-brain barrier is suggested.     

The pathway from arachidonic to docosapentaenoic acid (20:4n-6 to 22:5n-6) and from eicosapentaenoic to docosahexaenoic acid (20:5n-3 to 22:6n-3) studied in testicular cells from immature rats

The concentration-dependent metabolism of 1-¹⁴C-labelled precursors of 22:5n-6 and 22:6n-3 was compared in rat testis cells. The amounts of [¹⁴C]22- and 24-carbon metabolites were measured by HPLC. The conversion of [1-¹⁴C]20:5n-3 to [3-¹⁴C]22:6n-3 was more efficient than that of [1-¹⁴C]20:4n-6 to [3-¹⁴C]22:5n-6. At low substrate concentration (4 μM) it was 3.4 times more efficient, reduced to 2.3 times at high substrate concentration (40 μM). The conversion of [1-¹⁴C]22:5n-3 to [1-¹⁴C]22:6n-3 was 1.7 times more efficient than that of [1-¹⁴C]22:4n-6 to [1-¹⁴C]22:5n-6 using a low, but almost equally efficient using a high substrate concentration. When unlabelled 20:5n-3 was added to a cell suspension incubated with [1-¹⁴C]20:4n-6 or unlabelled 22:5n-3 to a cell suspension incubated with [1-¹⁴C]22:4n-6, the unlabelled n-3 fatty acids strongly inhibited the conversion of [1-¹⁴C]20:4n-6 or [1-¹⁴C]22:4n-6 to [¹⁴C]22:5n-6. In the reciprocal experiment, unlabelled 20:4n-6 and 22:4n-6 only weakly inhibited the conversion of [1-¹⁴C]20:5n-3 and [1-¹⁴C]22:5n-3 to [¹⁴C]22:6n-3. The results indicate that if both n-6 and n-3 fatty acids are present, the n-3 fatty acids are preferred over the n-6 fatty acids in the elongation from 20- to 22- and from 22- to 24-carbon atom fatty acids. In vivo the demand for 22-carbon fatty acids for spermatogenesis in the rat may exceed the supply of n-3 precursors and thus facilitate the formation of 22:5n-6 from the more abundant n-6 precursors.     

Melanoprotein Absence of a direct melanin-protein relationship in chick embryp melanocytes

Short-term synthesis of radioactivity labeled melanin (using dl-[2-¹⁴C]tyrosine or 2-[2-¹⁴C]thiouracil) by chick retinal pigment tissues in vitro was not influenced by inhibitors of protein synthesis, puromycin and cyloheximide. Co-ordinate synthesis of protein is, therefore, unnecessary for melanin synthesis, and melanoproteins must represent secondary interactions between melanin and protein. Melanin was isolated from chick embryo feather germs by extracting the proteins with hot dodecyl sulfate/mercaptoethanol. Melanin isolated from tissues incubated previously in l-[U-¹⁴C]valine medium had no associated radioactivity compared to the radioactivity of melanin prepared from tissues incubated in dl-[2-¹⁴C]tyrosine or 2-[2-¹⁴C]thiouracil. If melanoproteins exist at all, they are non-covalently bonded associations of melanin and melanosomal proteins.     

Metabolic Interactions Between Glucose, Glycerol, Alanine and Acetate in Leishmania braziliensis panamensis Promastigotes

¹³C-nuciear magnetic resonance (NMR) spectroscopy was used to investigate the products of glycerol and acetate metabolism released by Leishmania braziliensis panamensis promastigotes and also to examine the interaction of each of these substrates with glucose or alanine. The NMR data were supplemented by measurements of the rates of oxygen consumption and substrate utilization, and of ¹⁴CO₂ production from ¹⁴C-labeIed substrate. Cells incubated with [2-¹³C]glycerol released acetate, succinate and D-lactate in addition to CO₂. Cells incubated with acetate released only CO₂. More succinate C-2/C-3 than C-l/C-4 was released from both [2-¹³C]glycerol and [2-¹³C]glucose, indicating that succinate was formed predominantly by CO₂ fixation followed by reverse flux through part of the Krebs cycle. Some redistribution of the position of labeling was also seen in alanine and pyruvate, suggesting cycling through pyruvate/oxaloacetate/phosphoenolpyruvate. Cells incubated with combinations of 2 substrates consumed oxygen at the same rate as cells incubated with 1 or no substrate, even though the total substrate utilization had increased. When promastigotes were incubated with both glycerol and glucose, the rate of glucose consumption was unchanged but glycerol consumption decreased about 50%, and the rate of ¹⁴CO₂ production from [l,(3)-¹⁴C]glycerol decreased about 60%. Alanine did not affect the rates of consumption of glucose or glycerol, but decreased ¹⁴CO₂ production from these substrates by increasing flow of label into alanine. Although glucose decreased alanine consumption by 70%, it increased the rate of ¹⁴CO₂ production from [U-¹⁴C]- and [l-¹⁴C]alanine by about 20%. This is consistent with rapid equilibration of alanine with pyruvate derived from glucose and yet little decrease in the specific activity of the large alanine pool.     

UTILIZATION OF ACETATE AND PYRUVATE FOR THE SYNTHESIS OF'TOTAL','BOUND'AND'FREE'ACETYLCHOLINE IN THE ELECTRIC ORGAN OF TORPEDO

—Slices of tissue of the electric organ of Torpedo marmorata were incubated in vitro in a salineurea-sucrose solution containing a labelled precursor of the acetyl moiety of ACh ([1-¹⁴C]glucose, [2-¹⁴C]pyruvate, or [1-¹⁴C]acetate) either alone or in the presence of another unlabelled precursor. The incorporation of ¹⁴C from [1-¹⁴C]acetate into ACh was considerably higher than from the other two substrates. The specific radioactivities (SRA) of the‘total',‘bound’and‘free’ACh were compared in experiments with [2-¹⁴C]pyruvate and [1-¹⁴C]acetate. With both precursors, the SRA of the‘bound’ACh were lower than those of‘total’ACh; consequently, the‘free’ACh pool was more labelled than the‘bound’pool. After short incubations with [2-¹⁴C]pyruvate the SRA of'bound’ACh were closer to the SRA of‘total’ACh than with [1-¹⁴C]acetate. A simple method is described for the labelling of ACh and its separation from other labelled compounds in experiments with the electric organ using [¹⁴C]acetate as the labelled precursor.     

Hydrocortisone selectively inhibits IgE-dependent arachidonic acid release from rat peritoneal mast cells

Purified rat mast cells were used to study the effects of anti-inflammatory steroids on the release of [1-¹⁴C]-arachidonic acid ([1-¹⁴C]AA) and metabolites. Mast cells were incubated overnight with glucocorticoids, [1-¹⁴C]AA incorporated into cellular phospholipids and the release of [1-¹⁴C]AA, and metabolites determined using a variety of secretagogues. Release of [1-¹⁴C]AA and metabolites by concanavalin A, the antigen ovalbumin and anti-immunoglobulin in E antibody was markedly reduced by glucocorticoid treatment. Neither the total incorporation of [1-¹⁴C]AA nor the distribution into phospholipids was altered by hydrocortisone pretreatment. Glucocorticoid pretreatment did not alter [1-¹⁴C]AA release stimulated by somatostatin, compound 48/80, or the calcium ionophore, A23187. These data indicate that antiinflammatory steroids selectively inhibit immunoglobulin dependent release of arachidonic acid from rat mast cells. These findings question the role of lipomodulin and macrocortin as general phospholipase inhibitors and suggest that they may be restricted to immunoglobulin stimuli.     

PROVENANCE OF THE ACETYL GROUP OF ACETYLCHOLINE AND COMPARTMENTATION OF ACETYL-CoA AND KREBS CYCLE INTERMEDIATES IN THE BRAIN IN VIVO

—The origin of the acetyl group in acetyl-CoA which is used for the synthesis of ACh in the brain and the relationship of the cholinergic nerve endings to the biochemically defined cerebral compartments of the Krebs cycle intermediates and amino acids were studied by comparing the transfer of radioactivity from intracisternally injected labelled precursors into the acetyl moiety of ACh, glutamate, glutamine, ‘citrate’(= citrate +cis-aconitate + isocitrate), and lipids in the brain of rats. The substrates used for injections were [1-¹⁴C]acetate, [2-¹⁴C]acetate, [4-¹⁴C]acetoacetate, [1-¹⁴C]butyrate, [1, 5-¹⁴C]citrate, [2-¹⁴C]glucose, [5-¹⁴C]glutamate, 3-hydroxy[3-¹⁴C]butyrate, [2-¹⁴C]lactate, [U-¹⁴C]leucine, [2-¹⁴C]pyruvate and [³H]acetylaspartate. The highest specific radioactivity of the acetyl group of ACh was observed 4 min after the injection of [2-¹⁴C]pyruvate. The contribution of pyruvate, lactate and glucose to the biosynthesis of ACh is considerably higher than the contribution of acetoacetate, 3-hydroxybutyrate and acetate; that of citrate and leucine is very low. No incorporation of label from [5-¹⁴C]glutamate into ACh was observed. Pyruvate appears to be the most important precursor of the acetyl group of ACh. The incorporation of label from [1, 5-¹⁴C]citrate into ACh was very low although citrate did enter the cells, was metabolized rapidly, did not interfere with the metabolism of ACh and the distribution of radioactivity from it in subcellular fractions of the brain was exactly the same as from [2-¹⁴C]pyruvate. It appears unlikely that citrate, glutamate or acetate act as transporters of intramitochondrially generated acetyl groups for the biosynthesis of ACh. Carnitine increased the incorporation of label from [1-¹⁴C]acetate into brain lipids and lowered its incorporation into ACh. Differences in the degree of labelling which various radioactive precursors produce in brain glutamine as compared to glutamate, previously described after intravenous, intra-arterial, or intraperitoneal administration, were confirmed using direct administration into the cerebrospinal fluid. Specific radioactivities of brain glutamine were higher than those of glutamate after injections of [1-¹⁴C]acetate, [2-¹⁴C]acetate, [1-¹⁴C]butyrate, [1,5-¹⁴C]citrate, [³H]acetylaspartate, [U-¹⁴C]leucine, and also after [2-¹⁴C]pyruvate and [4-¹⁴C]acetoacetate. The intracisternal route possibly favours the entry of substrates into the glutamine-synthesizing (‘small’) compartment. Increasing the amount of injected [2-¹⁴C]pyruvate lowered the glutamine/glutamate specific radioactivity ratio. The incorporation of ¹⁴C from [1-¹⁴C]acetate into brain lipids was several times higher than that from other compounds. By the extent of incorporation into brain lipids the substrates formed four groups: acetate > butyrate, acetoacetate, 3-hydroxybutyrate, citrate > pyruvate, lactate, acetylaspartate > glucose, glutamate. The ratios of specific radioactivity of ‘citrate’ over that of ACh and of glutamine over that of ACh were significantly higher after the administration of [1-¹⁴C]acetate than after [2-¹⁴C]pyruvate. The results indicate that the [1-¹⁴C]acetyl-CoA arising from [1-¹⁴C]acetate does not enter the same pool as the [1-¹⁴C]acetyl-CoA arising from [2-¹⁴C]pyruvate, and that the cholinergic nerve endings do not form a part of the acetate-utilizing and glutamine-synthesizing (‘small’) metabolic compartment in the brain. The distribution of radioactivity in subcellular fractions of the brain after the injection of [1-¹⁴C]acetate was different from that after [1, 5-¹⁴C]citrate. This suggests that [1-¹⁴C]acetate and [1, 5-¹⁴C]citrate are utilized in different subdivisions of the ‘;small’ compartment.     

Lipid biosynthesis in developing and germinating soybean cotyledons: The formation of palmitate and stearate by chopped tissue and supernatant preparations

Chopped tissue from developing soybean cotyledons incorporated [1-¹⁴C]acetate into palmitate, stearate, oleate, and linoleate, but with germinating cotyledons much less [1-¹⁴C]acetate was incorporated and the principal labeled products were palmitate, stearate, and oleate. When supernatant fractions from developing cotyledons were incubated with [1-¹⁴C]acetate or [2-¹⁴C]malonate the principal labeled products were palmitate and stearate. Supernatant fractions from germinating seed incorporated [2-¹⁴C]malonate into palmitate and also into short chain fatty acids including decanoate, laurate, and myristate. Supernatants from developing cotyledons required acyl carrier protein (ACP), ATP, CoA, and reduced pyridine nucleotides for maximal rates of incorporation of either [1-¹⁴C]acetate or [2-¹⁴C]malonate into palmitate and stearate. The de novo fatty acid synthetase which converts acetyl- and malonyl-ACP's to palmityl ACP was active in supernatant fractions from both young and old developing cotyledons. The elongation system, converting palmityl ACP to stearyl ACP, was more active in supernatants from younger than from older developing cotyledons. In experiments with chopped tissue the elongation system appeared equally active throughout the development process. These results are consistent with the view that the de novo and elongation systems are separate entities and that the elongation system in older cotyledons is less stable to the methods used to prepare supernatant fractions.     

Hexose metabolism in discs excised from developing potato (Solanum tuberosum L.) tubers

Metabolism of radiolabelled hexoses by discs excised from developing potato (Solanum tuberosum L.) tubers was been investigated in the presence of acid invertase to prevent accumulation of labelled sucrose in the bathing medium (Viola, 1996, Planta 198: 179–185). When the discs were incubated with either [U-¹⁴C]glucose or [U-¹⁴C]fructose without unlabelled hexoses, the unidirectional rate of sucrose synthesis was insignificant compared with that of sucrose breakdown. The inclusion of unlabelled fructose in the medium induced a dramatic increase in the unidirectional rate of sucroses synthesis in the tuber discs. Indeed, the decline in the sucrose content observed when discs were incubated without exogenous sugars could be completely prevented by including 300 mM fructose in the bathing medium. On the other hand, the inclusion of unlabelled glucose in the medium did not significantly affect the relative incorporation of [U-¹⁴C]glucose to starch, sucrose or glycolytic products. Substantial differences in the intramolecular distribution of ¹³C enrichment in the hexosyl moieties of sucrose were observed when the discs were incubated with either [2-¹³C]fructose or [2-¹³C]glucose. The pattern of ¹³C enrichment distribution in sucrose suggested that incoming glucose was converted into sucrose via the sucrose-phosphate synthase pathway whilst fructose was incorporated directly into sucrose via sucrose synthase. Quantitative estimations of metabolic fluxes in vivo in the discs were also provided. The apparent maximal rate of glucose phosphorylation was close to the extractable maximum catalytic activity of glucokinase. On the other hand, the apparent maximal rate of fructose phosphorylation was much lower than the maximum catalytic activity of fructokinase, suggesting that the activity of the enzyme (unlike that of glucokinase) was regulated in vivo. Although in the discs incubated with or without fructose the rates of starch synthesis or glycolysis were similar, the relative partitioning of metabolic intermediates into sucrose was much higher in discs incubated with fructose (0.6% and 32.6%, respectively). It is hypothesised that the equilibrium of the reaction catalysed by sucrose synthase in vivo is affected in discs incubated with fructose as a result of the accumulation of the sugar in the tissue. This results in the onset of sucrose cycling. Incubation with glucose enhanced all metabolic fluxes. In particular, the net rate of starch synthesis increased from 2.0 mol · hexose · g FW^–1 · h^–1 in the absence of exogenous glucose to 3.7 mol · hexose · g FW^–1 · h^–1 in the presence of 300 mM glucose. These data are taken as an indication that the regulation of fructokinase in vivo may represent a limiting factor in the utilisation of sucrose for biosynthetic processes in developing potato tubers.Abbreviations ADPGlc adenosine 5-diphosphoglucose - Glc6P glucose-6-phosphate - hexose-P hexose phosphate - NMR nuclear magnetic resonance - UDPGlc uridine 5-diphosphoglucose Many thanks to L. Sommerville for skillfull assistance and to J. Crawford and J. Liu for useful discussions on flux analysis. The research was funded by the Scottish Office Agriculture and Fisheries Department.     

Biosynthesis and metabolism of indole-3-ethanol and indole-3-acetic acid by Pinus sylvestris L. needles

Combined gas chromatography-mass spectrometry has been used to identify indole-3-ethanol (IEt) in a purified extract from needles of Pinus sylvestris L. Quantitative estimates obtained by high-performance liquid chromatography with fluorescence detection, corrected for samples losses occurring during purification, indicate that Pinus needles contain 46±4 ng g^-1 IEt. This compares with 24.5±6.5 ng g^-1 indole-3-acetic acid (IAA) and 2.3±0.4 ng g^-1 indole-3-carboxylic acid (ICA) (Sandberg et al. 1984, Phytochemistry, 23, 99–102). Metabolism studies with needles incubated in a culture medium in darkness revealed that both [3-¹⁴C]-tryptophan and [2-¹⁴C]tryptamine mine are converted to [¹⁴C]IEt. It was also shown that [3-¹⁴C]IEt acted as a precursor of [¹⁴C]IAA. The observed metabolism appears to be enzymic in nature. The [2-¹⁴C]IAA was not catabolised to [¹⁴C]ICA in detectable quantities implying that, at best, only a minor portion of the endogenous ICA pool in the Pinus needles originates from IAA.Abbreviations DEAE diethylaminoethyl - GC-MS gas chromatography-mass spectrometry - HPLC high-performance liquid chromatography - IAA indole-3-acetic acid - ICA indole-3-carboxylic acid - IEt indole-3-ethanol - PVP polyvinylpyrrolidone