d-β-HYDROXYBUTYRATE: A MAJOR PRECURSOR OF AMINO ACIDS IN DEVELOPING RAT BRAIN

Abstract— D-β-hydroxybutyrate (β-OHB) was compared to glucose as a precursor for brain amino acids during rat development. In the first study [3-¹⁴C]β-OHB or [2-¹⁴C]glucose was injected subcu-taneously (01 μCi/g body wt) into suckling rats shortly after birth and at 6. 11, 13, 15 and 21 days of age. Blood and brain tissue were obtained 20 min later after decapitation. The specific activity of the labelled precursor in the blood and in the brain tissue was essentially the same for each respective age suggesting that the labelled precursor had equilibrated between the blood and brain pools before decapitation. [3-¹⁴C]β-OHB rapidly labelled brain amino acids at all ages whereas [2-¹⁴C]glucose did not prior to 15 days of age. These observations are consistent with a maturational delay in the flux of metabolites through glycolysis and into the tricarboxylic acid cycle. Brain glutamate, glutamine, asparate and GABA were more heavily labelled by [3-¹⁴C]β-OHB from birth-15 days of age whereas brain alanine was more heavily labelled by [2-¹⁴C]glucose at all ages of development. The relative specific activity of brain glutamine/glutamate was less than one at all ages for both labelled precursors suggesting that β-OHB and glucose are entering the‘large’glutamate compartment throughout development. In a second study, 6 and 15 day old rats were decapitated at 5 min intervals after injection of the labelled precursors to evaluate the flux of the [¹⁴C]label into brain metabolites. At 6 days of age, most of the brain acid soluble radioactivity was recovered in the glucose fraction of the [2-^,4C]glucose injected rats with 72, 74, 65 and 63% after 5, 10, 15 and 20 min. In contrast, the 6 day old rats injected with [3-¹⁴C]β-OHB accumulated much of the brain acid soluble radioactivity in the amino acid fraction with 22, 47, 57 and 54% after 5, 10, 15 and 20 min. At 15 days of age the transfer of the [¹⁴C]label from [2-¹⁴C]glucose into the brain amino acid fraction was more rapid with 29, 40, 45, 61 and 73% of the brain acid soluble radioactivity recovered in the amino acid fraction after 5, 10, 15, 20 and 30 min. There was almost quantitative transfer of [¹⁴C]label into the brain amino acids of the 15-day-old [3-¹⁴C]β-OHB injected rats with 66, 89, 89, 89 and 90% of the brain acid soluble radioactivity recovered in the amino acid fraction after 5, 10, 15, 20 and 30 min. The calculated half life for /?-OHB at 6 days was 19 8 min and at 15 days was 12-2 min. Surprisingly, the relative specific activity of brain GABA/glutamate was lower at 15 days of age in the [3-¹⁴C]β-OHB injected rats compared to the [2-¹⁴C]glucose injected rats despite a heavier labelling of brain glutamate in the [3-¹⁴C]β-OHB injected group. We interpreted these data to mean that β-OHB is a less effective precursor for the brain glutamate ‘subcompartment’ which is involved in the synthesis of GABA.     

Amino acid synthesis from glucose-U-14C in Glossina morsitans

Amino acid synthesis from glucose-U-¹⁴C was investigated in 2 day post-emergent and pregnant females of Glossina morsitans. This insect can synthesize alanine, aspartic acid, cystine, glutamic acid, glycine, proline, and serine from glucose. Arginine, histidine, hydroxyproline, isoleucine, leucine, lysine, methionine, phenylalanine, taurine, threonine, and valine showed no radioactivity and hence may be classified as nutritionally indispensable amino acids. Although tyrosine and hydroxyproline were not synthesized from glucose, they are at least partially dispensable nutrients for this insect because their synthesis from phenylalanine has been demonstrated. After the labelled glucose injection the highest radioactivity was recovered in the proline fraction. This is probably related to its rôle as an important energy reserve for flight. The radioactive amino acids recovered from females and from their offspring following glucose-U-¹⁴C injection were similar to those recovered from younger females. Radioactivity was also detected in the expired CO₂ and the excreta. The amino acids alanine, arginine, cystine, glycine, histidine, leucine/isoleucine, lysine, methionine, proline, and valine were identified in the excreta, of which arginine and histidine were in the largest amounts. Only excreted alanine, glycine, and proline showed radioactivity.     

Thein vitro activity of the microsomal fraction isolated from the spleen and the lymph nodes after immunization of the donor

The microsomal fraction from the spleen (after perfusion) of immunized rabbits incubated for 20 min at 37° C under usual conditions in the presence of energy sources incorporates¹⁴C-labelled amino acids both into the solubilized (by adding deoxycholate), and into the nonsolubilized part (15%). The cell supernatant incorporates under these conditions the¹⁴C-labelled amino acids into total proteins in the absence of microsomes but in a lower degree. The cell supernatant contains gamma globulin detectable by immunoelectrophoresis. Gamma globulin obtained by specific precipitation of the solubilized microsomal fraction with antigamma-globulin serum had an measurable radioactivity. The precipitate of gamma globulin obtained from the supernatant of the incubation medium in the same manner (after removing the microsomes) had a specific activity twice as high. On separating the microsomal fraction extract and the incubation medium supernatant on DEAE cellulose most fractions show on extinction maximum at 260 nm in the first case and at 280 nm in the second case. The microsomal fraction isolated from the spleen and lymph nodes of immunized pigs-48 and 72 h after revaccination, when incubatedin vitro, incorporated¹⁴C-labelled amino acids into total protein. After ultrasonic disintegration in 0.14m NaCl and filtration through a Sephadex G 25 column it is specifically precipitated with the antigammaglobulin serum. Gamma globulin isolated after incubation of the microsomal fraction had a measurable radioactivity. AntiHSA antibodies determined by adsorption on immunosorbent did not possess significant radioactivity. Only the concentrated supernatant of the incubation medium showed minute radioactivity of 75–94 counts/min /ml. The problem of investigating the formation of nascent specific antibodies on a subcellular levelin vitro during the early period of secondary response to the antigen is discussed, in particular the problem of their detection. An erratum to this article is available at .     

Are Polyamines Transported in Etiolated Peas?

To investigate the possible transport of polyamines and their precursor amino acids, ¹⁴C-labeled putrescine, spermidine, arginine, or lysine were injected into cotyledons of 4-day etiolated pea (Pisum sativum L. cv Alaska) seedlings. After 4 hours the shoot, root, and cotyledons were homogenized and the extracted, dansylated polyamines separated by thin-layer chromatography. Little radioactivity was transported from the cotyledons when [¹⁴C]putrescine or [¹⁴C]spermidine were injected and of the radioactivity in the axis, none could be recovered as polyamines. Injection of [¹⁴C]arginine or [¹⁴C]lysine, on the other hand, led to a significant transport of radioactivity into the axis, of which a large fraction was present in the form of the diamines, putrescine or cadaverine, respectively. These results indicate that polyamines in the growing regions of etiolated pea seedlings probably arise from transport and conversion of amino acid precursors.     

Nitrogen limitation and amino-acid metabolism of Chlorella symbiotic with green hydra

Chlorella algae symbiotic in the digestive cells of Hydra viridissima Pallas (green hydra) were found to contain less amino-N and smaller pools of free amino acids than their cultured counterparts, indicating that growth in symbiosis was nitrogen-limiting. This difference was reflected in uptake of amino acids and subsequent incorporation into protein; symbiotic algae incorporated a greater proportion of sequestered radioactivity, supplied as ¹⁴C-labelled alanine, glycine or arginine, than algae from nitrogen-sufficient culture, presumably because smaller internal pools diluted sequestered amino acids to a lesser extent. Further experiments with symbiotic algae showed that metabolism of the neutral amino acid alanine differed from that of the basic amino acid arginine. Alanine but not arginine continued to be incorporated into protein after uptake ceased, and while internal pools of alanine were exchangeable with alanine in the medium, those of arginine were not exchangeable with external arginine. Thin-layer chromatography of ethanol-soluble extracts of algae incubated with [¹⁴C]alanine or [¹⁴C]arginine showed that both were precursors of other amino acids. The significance of nitrogen-limiting growth of symbiotic algae is discussed in terms of host-cell regulation of algal cell growth and division.     

Studies on metabolism of vitamin A. The effect of hormones on gestation in retinoate-fed female rats

1. The preparation of cell suspensions by treatment of chick embryo hearts with collagenase at various stages of development is described. 2. Measurements of oxygen consumption, incorporation of labelled leucine into protein and accumulation of labelled alpha-aminoisobutyric acid against a concentration gradient indicated a long-lasting viability of the isolated heart cells in vitro; a satisfactory preservation of subcellular structures, including plasma membrane, was assessed by electron-microscopic examination. 3. The rate of alpha-aminoisobutyric acid accumulation by cardiac cells isolated from hearts at different stages of embryological development decreased with aging; insulin stimulated the intracellular accumulation of this amino acid analogue. 4. Insulin increased the uptake by isolated heart cells of several (14)C-labelled naturally occurring amino acids; however, the fraction of amino acid taken up by the cells that was recovered free intracellularly, and therefore the concentration ratio (between intracellular water and medium), was enhanced by the hormone only with glycine, proline, serine, threonine, histidine and methionine. When isolated heart cells were incubated in the presence of a mixture of labelled amino acids, the addition of insulin increased the disappearance of radioactivity from the medium. 5. The general pattern of amino acid transport (in the absence and in the presence of insulin) in isolated cardiac cells was similar to that found in intact hearts, suggesting that the biological preparation described in this paper might be useful for studies of cell permeability and insulin action.     

BIOSYNTHESIS OF FREE AMINO ACIDS IN THE BRAIN OF JIMPY MICE

—The metabolism of free amino acids: γ-aminobutyric acid (GABA), glutamine, glycine and glutathione has been studied. The labelling of these free amino acids in normal and in myelin-deficient brains of Jimpy mice was followed after intraperitoneal injection of ¹⁴C-labelled glucose precursor. The quantitative distribution of these amino acids in the two kinds of mouse brain has been compared. A higher level of GABA and a faster labelling of the amino acids in Jimpy than in normal mouse brain was observed.     

Incorporation of carbon from glucose into cerebral amino acids, proteins and lipids, and alterations during recovery from hypoglycaemia

Abstract— [U-¹⁴C]Glucose was given to dogs by intravenous infusion to maintain a fixed level of specific radioactivity of the plasma glucose. The time course of incorporation of ¹⁴C into free amino acids, proteins and lipids of the cerebrum was observed for periods up to 2 h. Labelling of amino acids closely related to the tricarboxylic acid cycle increased progressively throughout the infusion, approaching specific radioactivities per μg-atom of carbon equal to that of the plasma glucose. No significant dilution by unlabelled carbon entering the metabolic pathways was apparent. In dogs subjected to profound insulin hypoglycaemia, [U-¹⁴C]glucose mixed with unlabelled glucose was given to bring about recovery. The incorporation of ¹⁴C into glutamate, glutamine and aspartate during a 40-min period was greater than during a comparable period in control animals, whereas the incorporation into serine was reduced. When considered in relation to alterations in amino acid levels, the data suggest that during recovery from hypoglycaemia the rates of synthesis of amino acids related to the tricarboxylic acid cycle are increased. During the period of recovery the rates of incorporation of ¹⁴C from glucose into proteins exceeded the pre-insulin rates to a degree surpassing the increased incorporation into free amino acids. The labelling of the ganglioside, cerebroside-sulphatide and cephalin fractions was also increased, The rates of incorporation into the lecithin-sphin-gomyelin and cholesterol fractions during recovery were the same as in the pre-insulin period. Hypoglycaemia decreased the cerebral content of the phospholipid fractions; the lecithin-sphingomyelin fraction returned toward normal during recovery, whereas the cephalins did not increase significantly. The electrographic patterns and the occurrence of convulsive activity are discussed, both in insulin hypoglycaemia and during recovery.     

The effects of electrical stimulation and ionic alterations on the metabolism of amino acids and proteins in excised superior cervical ganglia of the rat

Abstract— The effects of supramaximal electrical stimulation on the metabolism of amino acids and proteins in incubated superior cervical ganglia of the rat were studied by the use of a gas-liquid chromatographic (GLC) assay procedure. Stimulation at 5 Hz for 2 h caused an apparent increase in tissue levels of free amino acids, with alanine, serine, glycine, valine, threonine, isoleucine and aspartate (+ asparagine) most noticeably affected. The amino acid composition (partial) of the TCA-insoluble proteins of resting and stimulated ganglia was approximately the same after 60 min of incubation, but there was less TCA-insoluble protein in the stimulated ganglia. The addition of amino acids (at plasma concentrations) to the standard media had no apparent affect on the amino acid composition of this protein fraction. Stimulation for 0 , 5 h initially increased the efflux of alanine, valine, proline and ornithine into the incubation media but prolonged stimulation (for 4–0 h) decreased the efflux of alanine, serine, glycine and isoleucine and increased the efflux of lysine into the incubation media. The leakage of amino acids from the ganglia appeared to be a sodium-dependent process. The incorporation of ¹⁴C from [U-¹⁴C]glucose into glutamate (+ glutamine) and aspartate (+ asparagine) was greater in stimulated than in resting ganglia. However, the conversion of glutamate carbons from [U-¹⁴C]l -glutamate into aspartate was not affected by stimulation. Incorporation of ¹⁴C from [U-¹⁴C]glucose into glycine and serine was apparently not affected by stimulation during the 60 min of incubation. However, serine was the only amino acid which exhibited a higher specific radioactivity in stimulated ganglia than in resting ganglia incubated for 4 h in standard media. Lithium ions had the apparent specific effect of increasing the labelling with ¹⁴C from [U-¹⁴C]glucose into ornithine, and increasing the efflux and overall metabolism of serine in the ganglia. Incorporation of ¹⁴C from [U-¹⁴C]glucose into proteins was lower in the stimulated than in the resting ganglia if compensation was made for the higher radioactivity available in the total free amino acid pool of the stimulated ganglia. The rate of ¹⁴C incorporation from [U-¹⁴C]glutamate into the TCA-insoluble proteins of resting ganglia was greater when no other amino acids at concentrations approximating plasma levels were added to the bathing media; this rate was lower in stimulated than in resting ganglia.     

A chemical and autoradiographic study of cellulose synthesis during the encystment of Acanthamoeba castellanii

When cells of Acanthamoeba castellanii are placed in a non-nutrient medium, they differentiate into cysts which possess cellulosic walls. In the present study, the source of the glucosyl unit for cyst wall cellulose was investigated by following the encystment of trophozoites grown in the presence of ¹⁴C-labeled fatty acids (uniformly labeled palmitate or oleate) or [3-³H]glucose. Cells were fractionated at the beginning and after 30 hr of encystment using a modified Schmidt-Tannhauser procedure. In cells grown on fatty acids, 90% of the labeled material was in the lipid fractions both before and after encystment with the total amount of label/cell changing very little. Both partial and complete acid hydrolysis of the glycogen of the acidsoluble fraction and the alkali-insoluble residue of the cyst wall indicated that the glucose of both fractions was not radioactive, although Acanthamoeba is known to have a functional glyoxylate pathway.Fractionation data of cells grown on [³H]glucose indicated a sevenfold increase in radioactivity in the wall insoluble fraction and a fivefold decrease in the acid-soluble fraction with the cpm/cell of the other fractions changing very little after 30 hr of encystment. Approximately 70% of the ³H-labeled material was recovered as glucose from the 30-hr wall insoluble fraction following complete acid hydrolysis. The specific radioactivity of glucose in the cyst wall insoluble fraction was the same as that of glycogen glucose isolated from the acid soluble fraction of trophozoites. Electron microscopic autoradiography showed that the majority of nonlipid radioactivity was due to glycogen in trophozoites. Autoradiograms failed to reveal Golgi bodies or any particular region of the cell as being the specialized site of cellulose synthesis. The results of the fractionation and autoradiographic studies are consistent with the concept that glycogen is a precursor of cyst wall cellulose, and that glucosyl units of glycogen and/or other glucose derivatives are converted to cellulose without significant dilution under the experimental conditions used.     

The Binding of Indole-3-acetic Acid and 3-Methyleneoxindole to Plant Macromolecules

Homogenates of pea (Pisum sativum L., var. Alaska) seedlings exposed to ¹⁴C-indole-3-acetic acid or ¹⁴C-3-methyleneoxindole, an oxidation product of indole-3-acetic acid, were extracted with phenol. In both cases 90% of the bound radioactivity was found associated with the protein fraction and 10% with the water-soluble, ethanol-insoluble fraction. The binding of radioactivity from ¹⁴C-indole-3-acetic acid is greatly reduced by the addition of unlabeled 3-methyleneoxindole as well as by chlorogenic acid, an inhibitor of the oxidation of indole-3-acetic acid to 3-methyleneoxindole. Chlorogenic acid does not inhibit the binding of ¹⁴C-3-methyleneoxindole. The labeled protein and water-soluble, ethanol-insoluble fractions of the phenol extract were treated with an excess of 2-mercaptoethanol. Independently of whether the seedlings had been exposed to ¹⁴C-indole-3-acetic acid or ¹⁴C-3-methyleneoxindole, the radioactivity was recovered from both fractions in the form of a 2-mercaptoethanol-3-methyleneoxindole adduct. These findings indicate that 3-methyleneoxindole is an intermediate in the binding of indole-3-acetic acid to macromolecules.     

Partitioning of C-photosynthate, and long distance translocation of amino acids in preflowering and flowering, nodulated and nonnodulated soybeans

The influence of stage of development (preflowering versus flowering) in nodulated and nonnodulated soybeans (Glycine max [L.] Merr. cv. Wells) on partitioning of ¹⁴C into assimilates following exposure of a soybean leaf to ¹⁴CO₂ by both steady-state and pulse-labeling techniques was studied. Blades on the second fully expanded leaf from the stem apex were exposed to ¹⁴CO₂. Radioactive assimilates were extracted from source leaf blades, petioles, and stems (both the path up and path down from source leaf), were separated into neutral (sugars), basic (amino acids), and acidic (organic acids, sugar phosphates) fractions by ion exchange chromatography. The basic fraction was further resolved using thin layer chromatography and the percentage of radioactivity recovered in each amino acid was determined.     

THE SPONTANEOUS AND ELECTRICALLY EVOKED RELEASE, FROM SLICES OF GUINEA-PIG CEREBRAL CORTEX, OF ENDOGENOUS AMINO ACIDS LABELLED VIA METABOLISM OF d-[U-14C]GLUCOSE

Abstract— In an effort to identify neurotransmitters in slices of guinea-pig cerebral cortex, a study was made of the release of endogenous amino acids which had become labelled via metabolism of d -[U-¹⁴C]glucose. While incorporation of ¹⁴C into endogenous glutamate, aspartate, GABA, alanine and threonine-serine-glutamine (unseparated) was large enough to permit measurement of their release, that into other amino acids was not. In parallel experiments, the release of exogeneous labelled glutamate, aspartate, GABA and α-aminoisobutyrate was examined. Electrical field stimulation evoked a transient increase in the release of all the adequately labelled endogenous amino acids and all the exogenous amino acids. The stimulated ‘increase’ in the release of each of the endogenous ¹⁴C-labelled transmitter candidates (glutamate, aspartate and GABA) was larger than that of any other amino acid (except that of exogenous GABA). When the experiments were performed without the glucose (5 mm ) usually present in the medium bathing the slices, larger amounts of each labelled amino acid were released from the slices than in the presence of glucose. Moreover, the pattern of selective release of the endogenous labelled transmitter candidates was much more pronounced in the absence of glucose. It is likely that in the absence of glucose, release from the tissue was larger because cells in the slice were relatively depolarized and uptake of amino acids into cells was impaired. Because previous evidence suggests that over 90% of glucose consumption occurs in the ‘large metabolic compartment’ which is thought to be composed of neuronal elements, neurons were probably the main site from which the larger release of endogenous ¹⁴C-labelled transmitter candidates was evoked. The exogenous amino acids were probably released from several cellular elements in the slices. It was concluded that the pattern of a selective release of the endogenous labelled transmitter candidates may have been indicative of a transmitter releasing mechanism in nerve terminals.     

Protein synthesis in neurons and glial cells of the developing rat brain: an in vivo study

Abstract— A technique for the isolation of pure neuronal perikarya and intact glial cells from cerebral cortex has been developed for routine use. The yield of neuronal perikarya and glial cells was greater from highly immature (5–10 days) rat cerebral cortex than from the cortex of older rats (18–43 days). The perikarya/glia yield ratio decreased with age indicating that, as the glial population matured, the procedure succeeded in isolating a gradually smaller proportion of the existing neurons. The perikarya/glia ratio was highest for the 5-day-old cortex in which no mature glial cells could be identified. After a 10-min pulse in vivo of intrathecally injected [¹⁴C]phenylalanine, the specific radioactivity of the neuronal proteins was higher than that of the glial proteins in the 5-, 10- and 18-day-old rat but was lower in the 43-day-old rat. The values for absolute specific radioactivity of the ¹⁴C-labelled proteins in both cell types were greater, the younger the brain. The ¹⁴C-labelling of neuronal and glial proteins in the 18-day-old rat was assessed in vivo as a function of time by determining the incorporation of [¹⁴C]phenylalanine into such proteins at 5, 10, 20 and 45 min after administration of the amino acid. The rate of incorporation of [¹⁴C]phenylalanine into the glial cells was faster than into the neurons since higher specific radioactivities of the glial proteins could be achieved at earlier times. Also, a biphasic pattern of ¹⁴C-labelling of the glial proteins was noted, suggesting, perhaps, a sequential involvement of the oligodendrocytes and astrocytes. Homogenates of prelabelled neuronal perikarya were fractionated into the nuclear, mitochondrial microsomal and soluble cell sap fractions. In the 18-day-old cerebral cortex, the proteins of the microsomal fraction exhibited the highest specific radioactivity at the end of 10 min, whereas by 20 min proteins of the mitochondrial fraction were most highly labelled. The specific radioactivity of the nuclear proteins increased over the entire 45-min experimental period. On the contrary, the proteins of the soluble cell sap, in which the specific radioactivity was at all times by far the lowest, were maximally labelled by 5 min. Examination of the labelling of the neuronal subcellular fractions as a function of age revealed that at 10 min after administration of [¹⁴C]phenylalanine, the specific radioactivities of all ¹⁴C-labelled proteins were highest in the youngest (5-day-old) neurons. The proteins of the microsomal fraction were most rapidly labelled at all ages. During this interval the proteins of the soluble cell sap were only moderately labelled in the 5-day-old neurons and were totally unlabelled in the 43-day-old neurons, indicating age-dependent differences in the rate of utilization of the amino acid precursor by the neurons.     

Uptake and excretion of amino acids and utilization of glucose by Schistosoma japonicum eggs

The utilization of amino acids and glucose in the external nutrients and the excretion of nitrogenous compounds by Schistosoma japonicum eggs were investigated with the eggs cultured in a chemically defined medium (MEMSE-J). Of the 15 amino acids in MEMSE-J, arginine and glutamine markedly decreased in concentration during cultivation of S. japonicum eggs. The nitrogenous excretory products of developing eggs were demonstrated to be at least four amino acids (alanine, proline, glutamic acid and ornithine), urea and ammonia. Glucose was consumed at an estimated rate of 32 ng/living egg/day during the period of egg growth and differentiation. When 14C-labelled glucose was included in the culture medium, the radioactivity was incorporated into three amino acids (alanine, proline and glutamic acid), which were excreted by S. Japonicum eggs. The results were discussed with reference to the possible role in stimulating fibrosis in the granuloma of schistosomiasis.     

The effects of individual amino acids on the incorporation of labelled amino acids into proteins by brain homogenates

Abstract— The effects of phenylalanine and other amino acids on incorporation of several different ¹⁴C-labelled amino acids into cerebral protein were studied in brain homogenates. Excess of some amino acids had a varied effect with different ¹⁴C-labelled amino acids. Of the unlabelled-labelled amino acid combinations tested the maximal inhibition was obtained with the following: (1) phenylalanine, which inhibited the incorporation of [¹⁴C]tyrosine, and (2) leucine, which inhibited incorporation of [¹⁴C]isoleucine. In both cases the inhibition occurred principally in proteins that were recovered in the 800 g and 13,000 g sediments. Only a small degree of inhibition occurred in proteins that sedimented at 100,000 g, and no inhibition occurred in proteins of the 100,000 g supernatant.     

Utilization of pyruvate and pyruvate precursors by normal and carcinogen-altered rat tracheal epithelial cells in culture

The metabolism of [14C]pyruvate, [14C]glucose, [14C]glutamine and [14C]alanine was compared between normal rat tracheal epithelial cells and carcinogen-altered cells derived from dimethylbenz(a)anthracene-exposed tracheal implants. Normal primary cultures (NPC) of tracheal cells are distinguished by their need for pyruvate-supplemented medium for growth and survival. The altered cells were selected out by their survival in the unsupplemented medium. Compared to the selected primary cultures (SPC), the NPC showed a three- to four-fold higher incorporation of radioactivity from [2-14C]pyruvate in all the macromolecular fractions, as well as in all the metabolites isolated from the acid soluble fraction and from lactic acid isolated from the medium. [U-14C]glucose was also incorporated at higher levels into lactic acid isolated from the acid soluble fraction and the medium of NPC. These data indicate a higher rate of glycolysis in the normal tracheal cells. This was supported by the findings of a two-fold greater glucose consumption and two-fold higher production of lactic acid isolated from the NPC medium. Lactate dehydrogenase activity was also two-fold higher in NPC. Thus, despite the apparently higher level of pyruvate production in the NPC, exogenous pyruvate is necessary to satisfy the metabolic needs of NPC. The utilization of [U-14C]glutamine or [U-14C]alanine was not markedly different between NPC and SPC. Furthermore, radioactivity from both of the amino acids was recovered in lactic acid in the medium, indicating that both cell types can derive pyruvic acid from either glutamine or alanine. SPC apparently do not use these routes to supply higher levels of pyruvic acid for survival in culture. The oxidation of none of the radioactive metabolites into CO2 was distinctly different between NPC and SPC except for the 1.7-fold higher utilization of [1-14C]glucose along the oxidative arm of the pentose cycle in the normal cells.     

Incorporation of 14C-labelled polyunsaturated fatty acids by juvenile turbot, Scophthalmus maximus (L.) in vivo

The ability of juvenile turbot, Scophthalmus maximus (L.), to elongate and desaturate various polyunsaturated fatty acids (PUFA) was examined in relation to their lipid composition. Triacylglycerols were the most abundant lipid class present in the fish and phosphatidylcholine was the predominant phospholipid. In all lipid classes examined the levels of (n-3) PUFA exceeded that of (n-6) PUFA. 18C PUFA were minor components in comparison with 20:5(n-3) and 22:6(n-3). 20:4(n-6) was present in highest concentration in phosphatidylinositol in which it accounted for 16.9% of the fatty acids. When the fish were injected with either ¹⁴C-labelled 18:2(n-6), 18:3(n-3), 20:4(n-6), 20:5(n-3) or 22:6(n-3) the highest percentage recovery of radioactivity (69%) in body lipid was observed with 22:6(n-3). With all labelled substrates free fatty acids contained only a small proportion of the total recovered radioactivity whereas triacylglycerols were highly labelled. Phosphatidylcholine/sphingomyelin was the most highly labelled polar lipid fraction. With ¹⁴C-20:4(n-6) as injected substrate, 23.2% of the radioactivity recovered in total lipid was present in phosphatidylinositol in comparison with less than 6% with the other substrates. Only small proportions of radioactivity from ¹⁴C-18:2(n-6) and ¹⁴C-18:3(n-3) were recovered in the 20 and 22C fatty acids of triacylglycerols and total polar lipid. With ¹⁴C-20:5(n-3) as substrate, 27 and 33% of the total radioactivity recovered in the fatty acids of triacylglycerols and polar lipids respectively was present in 22C fatty acids. The corresponding values for ^l4C-20:4(n-6) as substrate were 19 and 18%. The results confirm the limited capacity of turbot to convert 18C PUFA to longer chain PUFA but demonstrate their ability to synthesize 22C PUFA from 20C PUFA. They also suggest a small but specific requirement for 20:4(n-6).     

Measurement of the rates of protein synthesis in rabbits. A method for the estimation of rates of change in the specific radioactivities of free amino acids during continuous infusions.

1. A method is described by which, from analysis of terminal samples, the rate constants that define the changes in specific radioactivity of free amino acids during continuous infusions can be estimated. The method involves the infusion of 3H-labelled and 14C-labelled forms of an amino acid for different, but overlapping, periods. 2. The procedure was developed for infusions of proline and tyrosine into New Zealand White rabbits and the rate constants were determined for blood and muscle. 3. The rate constant for equilibrium of radioactive free proline was much lower in muscle than in blood, and indicated that a plateau condition may not be attained in muscle by the end of a 6 h infusion. 4. Comparison of the ratio of areas under the curves of estimated specific radioactivity plotted versus time with the 3H/14C ratio of bound amino acid in muscle protein suggested that radioactive proline and tyrosine may be incorporated preferentially from an extracellular rather than an intracellular source.     

Distribution of amino acids in the cellular fractions ofStaphylococcus aureus

WhenStaphylococcus aureus cells were labeled with a single radioactive amino acid for 20 minutes, the highest activity, except for alanine, leucine, and glycine, was found in the free pool. Significant amounts of the above amino acids and also valine and methionine were incorporated into the protein — cell wall fraction.Cells previously labeled with a single amino acid underwent a net loss of radioactivity when transferred to buffer, glucose, or complete medium. An exception was glycine. The greatest loss in activity occurred in the free pool.While some amino acids (alanine, cystine) were transferred from the free pool to the protein — cell wall fraction under all conditions tested, others (glutamic acid, proline) were transferred only under conditions of growth.Cells labeled with certain single amino acids and then transferred to a complete medium lost a significant portion of the label. The most extreme case noted was proline, but other amino acids also effluxed from the cell under these conditions.