Metabolic Fluxes Between [14C]2-Deoxy-D-Glucose and [14C]2-Deoxy-D-Glucose-6-Phosphate in Brain In Vivo

The rates of the phosphorylation and dephosphorylation of 2-deoxyglucose were measured in rat brain in vivo using tracer kinetic techniques. The rate constant for each reaction was estimated from two separate experiments with different protocols for tracer administration. Tracer amounts of [1-14C]2-deoxyglucose (1 microCi) were injected through the internal carotid artery (intraarterial experiment), or through the atrium (intravenous experiment). Brains were sampled by freeze-blowing at various times after the injection. In the intraarterial experiment, the rate constant for the forward reaction from 2-deoxyglucose to 2-deoxyglucose phosphate was calculated by dividing the initial rate of 2-deoxyglucose phosphate production by the 2-deoxyglucose content in brain. The rate constant for the reverse reaction from 2-deoxyglucose phosphate to 2-deoxyglucose was calculated from the decay constant of 2-deoxyglucose phosphate. The rate constants estimated were 10.1 +/- 1.4%/min (SD) and 3.00 +/- 0.01%/min (SD), respectively, for the forward and reverse reactions. In the intravenous experiment, rate constants for both reactions were estimated by compartmental analysis. By fitting data to program SAAM-27, the rate constants for the forward and reverse reactions were estimated as 11.4 +/- 0.4%/min (SD) and 5.1 +/- 0.4%/min (SD), respectively. The rate constants determined were compared to those for the reactions between glucose and glucose-6-phosphate, estimated previously from labeled glucoses. It is concluded that the rate of glucose utilization measured by the 2-deoxyglucose method reflects the rate of the hexokinase reaction and not the rate of glucose utilization or brain energy utilization.     

Cerebral Glucose Utilization: Comparison of [14C]Deoxyglucose and [6-14C]Glucose Quantitative Autoradiography

The [14C]deoxyglucose [Sokoloff et al., J. Neurochem. 28, 897-916 (1977)] and [6-14C]glucose [Hawkins et al., Am. J. Physiol. 248, C170-C176 (1985)] quantitative autoradiographic methods were used to measure regional brain glucose utilization in awake rats. The spatial resolution and qualitative appearance of the autoradiograms were similar. In resting animals, there was no significant difference between the two methods among 18 gray and three white matter structures over a fourfold range in glucose utilization rates (coefficient of correlation = 0.97). In rats given increasing frequencies of photoflash visual stimulation, the two methods gave different results for glucose utilization within visual pathways. The linearity of the metabolic response was studied in the superior colliculus using an on-off checkerboard stimulus between 0 and 33 Hz. The greatest increment in activity occurred between 0 and 4 Hz stimulation with both methods, probably representing recruitment of neuronal elements into activity. Above 4 Hz, there was a progressive increase in labeling with [14C]deoxyglucose up to 1.7 times control at 33 Hz. With [6-14C]-glucose, there was no further increment in change above a 30% increase seen at 4 Hz. Measurement of tissue glucose revealed no drop in the visually stimulated structures compared to control. We interpret these results to indicate that, with increasing rates of physiological activity, the products of deoxyglucose metabolism accumulate progressively, but the products of glucose metabolism are removed from brain in 10 min.     

Axenic incorporation of [U-14C]palmitic acid into the phenolic glycolipid-I of Mycobacterium leprae

Abstract Incorporation of [U-¹⁴C]palmitic acid ([¹⁴C]PA) into the specific phenolic glycolipid-I (PGL-I) of freshly harvested, nude mouse-derived Mycobacterium leprae was investigated in an axenic modified Dubos medium. Incorporation was approximately linear for 10–14 days at pH 7.2, 33°C. No incorporation of radiolabeled phenol, acetate, tyrosine, phenylalanine, bicarbonate, proprionate or UDP-glucose was detected. Procedures known to remove residual host tissue did not diminish the rate of [¹⁴C]PA incorporation, indicating that bacterial metabolism was being measured. The antileprosy compounds, rifampicin and dapsone, significantly reduced incorporation of the label. The ability to quantitate PGL-I synthesis in the extracellular bacillus should facilitate a better understanding of the optimum conditions for metabolism in M. leprae .     

[14C]Leucine Incorporation into Brain Proteins in Gerbils After Transient Ischemia: Relationship to Selective Vulnerability of Hippocampus

Regional [14C]leucine incorporation into brain proteins was studied in gerbils after global ischemia for 5 min and recirculation times of 45 min to 7 days, using a combination of quantitative autoradiography and biochemical analysis. After recirculation for 45 min, incorporated radioactivity was reduced to approximately 20-40% of control values in all ischemic brain regions. Specific activity of the tracer, in contrast, was increased, a finding indicating that the reduced incorporation of radioactivity was not due to reduced tracer influx from plasma or a dilution of the tracer by increased proteolysis. After recirculation for 6 h, [14C]leucine incorporation returned to control levels in all regions except the CA1 sector of the hippocampus, where it amounted to less than 50%. After 1 day, protein synthesis in the CA1 sector returned to approximately 70% of control values, followed by a secondary decline to less than 50% after 3 days and returned to near control values after 7 days. Histological evaluations revealed selective neuronal death in the CA1 sector of the hippocampus after 3 days of recirculation. The complex time course of protein synthesis in the CA1 sector suggests a biphasic mode of injury, which may be related to similar changes of calcium homeostasis. The final return to near normal after CA1 neurons have disappeared is explained by astroglial proliferation and demonstrates that at this time protein synthesis is not a marker of neuronal viability.     

Characteristics of [14C]Guanidinium Accumulation in NG 108-15 Cell Exposed to Serotonin 5-HT3 Receptor Ligands and Substance P

Abstract: In the presence of substance P (SP; 10 μM), serotonin (5-HT; 1 μM) triggered a cation permeability in cells of the hybridoma (mouse neuroblastoma X rat glioma) clone NG 108-15 that could be assessed by measuring the cell capacity to accumulate [¹⁴C]guanidinium for 10-15 min at 37°C. In addition to 5-HT (EC₅₀, 0.33 μM), the potent 5-HT₃ receptor agonists 2-methyl-serotonin, phenylbiguanide, and m-chlorophenylbiguanide, and quipazine, markedly increased [¹⁴C]guanidinium uptake in NG 108-15 cells exposed to 10 μM SP. In contrast, 5-HT₃ receptor antagonists prevented the effect of 5-HT. The correlation (r= 0.97) between the potencies of 16 different ligands to mimic or prevent the effects of 5-HT on [¹⁴C]guanidinium uptake, on the one hand, and to displace [³H]zacopride specifically bound to 5-HT₃ receptors on NG 108-15 cells, on the other hand, clearly demonstrated that [¹⁴C]guanidinium uptake was directly controlled by 5-HT₃ receptors. Various compounds such as inorganic cations (La³⁺, Mn²⁺, Ba²⁺, Ni²⁺, and Zn²⁺), D-tubocurarine, and memantine inhibited [¹⁴C]guanidinium uptake in NG 108-15 cells exposed to 5-HT and SP, as expected from their noncompetitive antagonistic properties at 5-HT₃ receptors. However, ethanol (100 mM), which has been reported to potentiate the electrophysiological response to 5-HT₃ receptor stimulation, prevented the effects of 5-HT plus SP on [¹⁴C]guanidinium uptake. The cooperative effect of SP on this 5-HT₃-evoked response resulted neither from an interaction of the peptide with the 5-HT₃ receptor binding site nor from a possible direct activation of G proteins in NG 108-15 cells. Among SP derivatives, [D-Pro⁹]SP, a compound inactive at the various neurokinin receptor classes, was the most potent to mimic the stimulatory effect of SP on [¹⁴C]guanidinium uptake in NG 108-15 cells exposed to 5-HT. Although the cellular mechanisms involved deserve further investigations, the 5-HT-evoked [¹⁴C]guanidinium uptake appears to be a rapid and reliable response for assessing the functional state of 5-HT₃ receptors in NG 108-15 cells.     

Incorporation of [14C]Glucose into Lipids of Bovine Oligodendroglia

Oligodendrocytes were isolated from the white matter of ox brains. Light microscopy revealed that the cells were greater than or equal to 90% phase-bright with a mean diameter of 7.6 micron. Transmission electron microscopy was employed to identify the classic morphology associated with mature oligodendrocytes. Homogenates of the isolated cells showed negligible activity of neuronal and astrocytic cell markers. Using a suspension culture method cells were incubated with [14C]glucose. This simple precursor labelled the five complex lipids choline glycerophospholipid, ethanolamine glycerophospholipid, inositol glycerophospholipid + serine glycerophospholipid, and the two cerebroside species. The incorporation of label was shown to be dependent on glucose concentration, protein concentration, and the length of incubation. In addition the glucose uptake blocker phloretin (1 mM) reduced the degree of labelling by up to 97%, and the metabolic poisons KCN (1 mM) and iodoacetate (0.5 mM) had varying deleterious effects on the amounts of labelling of the five lipids measured.     

^14CO2 Fixation and Translocation of Photoassimilates as Selection Criteria of Egyptian Taro Genotypes

The growth characterlstlcs, different physlological parameters, photosynthetic activity （^14CO2 fixation）, and the translocatlon rate of photoassimllates In different taro （Colocasia esculenta L. Schott） genotypes was studled In order to determlne the posslble use of these parameters as selectlon crlterla for dlfferent wldely used genotypes of taro （Delta No. 9, 15, 20, 21, and balady）. The results obtalned suggest that Delta No. 21 shows the most slgnlflcant increase In all parameters tested compared wlth the control （balady）, followed by Delta No. 9, 15, and 20, respectively. The results show a positive correlation between photosynthetlc actlvlty, translocatlon efflclency, and total yield. The selected clone Delta No. 21 Is recommended for cultlvatlon In the delta reglon of Egypt.     

Functional Activity of Substantia Nigra Grafts Reinnervating the Striatum: Neurotransmitter Metabolism and [14C]2-Deoxy-d-glucose Autoradiography

Dopaminergic innervation of the caudate nucleus in adult rats can be partially restored by the grafting of embryonic substantia nigra into the overlying parietal cortex with concomitant compensation of certain behavioral abnormalities. In this study the function of such grafts was investigated neurochemically by quantification of transmitter metabolism and glucose utilization in the reinnervated target. Rats with unilateral 6-hydroxydopamine lesions of the nigrostriatal bundle received a single graft to the dorsal caudate-putamen and were screened for rotational behavior following 5 mg/kg methamphetamine. The grafts restored dopamine concentrations in the caudate-putamen from initially less than 0.5% to an average of 13.6% of normal in rats with behavioral compensation. The ratio of 3,4-dihydroxyphenylacetic acid to dopamine, which is a measure of the rate of transmitter turnover, were equivalent in transplanted and normal control rats. Moreover, measurements of DOPA accumulation for a 30-min period after DOPA decarboxylase inhibition indicated similar fractional dopamine turnover rates in normal and transplant-reinnervated tissues. Correlations between rotational behavior and dopamine concentrations showed that reinnervation to only 3% of normal was sufficient to counterbalance the motor asymmetry. Measurements of glucose utilization by [14C]deoxyglucose autoradiography indicated equivalent metabolic rates for the grafted tissue and the intact substantia nigra. 6-Hydroxydopamine denervation of the caudate-putamen had no significant effect on neuronal metabolism in that region, nor did subsequent reinnervation from a graft. Grafts, however, were associated with a 16% reduction of glucose uptake in the ipsilateral globus pallidus, indicating a significant transsynaptic influence of the nigral transplants on neuronal metabolism in the host brain. Overall the results indicate that behaviorally functional neuronal grafts spontaneously metabolize dopamine and utilize glucose at rates characteristic of the intact nigrostriatal system. This provides further evidence that ectopic intracortical nigral transplants can reinstate dopaminergic neurotransmission in regions of the host brain initially denervated by the 6-hydroxydopamine lesion.     

The fate of carbon during the assimilation of carbamoyl phosphate in white spruce seedlings as revealed by [14C]-carbamoyl phosphate, [14C]-cyanate, and [14C] -bicarbonate labeling patterns

The fate of carbamoyl phosphate in white spruce seedlings revolves around the production of spontaneous degradation products, cyanate, bicarbonate, and carba-mate. When [¹⁴C]-carbamoyl phosphate and [¹⁴C]-cyanate are assimilated, urea is a common early metabolic intermediate that appears in the alcohol soluble N. By contrast, urea is not detected among the products of [¹⁴C]-bicarbonate. Carbamoyl phosphate and glutamic acid are implicated as having pivotal roles in the production of amides, arginine, and biotin. Within 2-h exposures to radioactive substrates considerably more carbon from bicarbonate was diverted into amino acids Incorporated into proteins than with carbon-nitrogen substrates. Specific activities of bound amino acid residues support the view that proteins formed from these [¹⁴C]-substrates have different rates of metabolic turnover.     

Alterations in the Production of 14CO2 and [14C]Acetylcholine from [U-14C]Glucose in Brain Subregions Following Transient Forebrain Ischemia in the Rat

Abstract: The production of ¹⁴CO₂ and [¹⁴C]acetylcholine from [U-¹⁴C]glucose was determined in vitro using tissue prisms prepared from the dorsolateral striatum (a region developing extensive neuronal loss following ischemia) and the paramedian neocortex (an ischemia-resistant region) following 30 min of forebrain ischemia and recirculation up to 24 h. Measurements were determined under basal conditions (5 mMK⁺) and following K⁺ depolarization (31 mM K⁺). The production of ¹⁴CO₂ by the dorsolateral striatum was significantly reduced following 30 min of ischemia for measurements in either 5 or 31 mM K⁺ but recovered toward preischemic control values during the first hour of recirculation. Further recirculation resulted in ¹⁴CO₂ production again being reduced relative to control values but with larger differences (20–27% reductions) detectable under depolarized conditions at recirculation times up to 6 h. Samples from the paramedian neocortex showed no significant changes from control values at all time points examined. [¹⁴C]Acetylcholine synthesis, a marker of cholinergic terminals that is sensitive to changes in glucose metabolism in these structures, was again significantly reduced only in the dorsolateral striatum. However, even in this tissue, only small (nonstatistically significant) differences were seen during the first 6 h of recirculation, a finding suggesting that changes in glucose oxidation during this period were not uniform within all tissue components. The results of this study provide evidence that in a region susceptible to ischemic damage there were specific changes during early recirculation in the metabolic response to depolarization. This apparent inability to respond appropriately to an increased need for energy production could contribute to the further deterioration of cell function in vivo and ultimately to the death of some cells.     

The fate of [14C]glutamate and [14C]malate in birch roots is strongly modified under inoculation with Paxillus involutus

The impact of inoculation with Paxillus involutus on the utilization of organic carbon compounds by birch roots was studied by feeding [¹⁴C]Glu or [¹⁴C]malate to the partners of the symbiosis, separately or in association, and by monitoring the subsequent distribution of ¹⁴C. Inoculation increased [¹⁴C]Glu and [¹⁴C]malate absorption capacities by up to eight and 17 times, respectively. Six- and 15-d-old mycorrhizal roots showed about four-fold higher [¹⁴C]Glu and [¹⁴C]malate absorption capacities compared with 60-d-old mycorrhizal roots, suggesting that the early stages of mycorrhiza formation induced higher requirements for C skeletons. Moreover, the results demonstrated that inoculation strongly modified the fate of [¹⁴C]Glu and [¹⁴C]malate. It was demonstrated that exogenously supplied Glu and malate might serve as C skeletons for amino acid synthesis in mycorrhizal birch roots and in the free-living fungus. Gln was the major ¹⁴C-sink in mycorrhizal roots and in the free-living P. involutus. In contrast, citrulline and insoluble compounds were the major ¹⁴C sinks in non-mycorrhizal roots, whatever the ¹⁴C source. It was concluded that mycorrhiza formation leads to a profound alteration of the metabolic fate of exogenously supplied C compounds. The ecological significance of amino acid and organic acid utilization by mycorrhizal plants is further discussed.     

Incorporation of [3H]Arachidonic and [14C]Eicosapentaenoic Acids into Glycerophospholipids and Their Metabolism via Lipoxygenases in Isolated Brain Cells from Rainbow Trout Oncorhaynchus mykaiss

The incorporation of [3H]arachidonate [( 3H]AA) and [14C]eicosapentaenoate [( 14C]EPA) into glycerophospholipids was studied in isolated brain cells from rainbow trout, a teleost fish whose lipids are rich in (n-3) polyunsaturated fatty acids (PUFAs). EPA was incorporated into total lipid to a greater extent than AA, but the incorporation of both PUFAs into total glycerophospholipids was almost identical. The incorporation of both AA and EPA was greatest into phosphatidylethanolamine (PE). However, when expressed per milligram of individual phosphoglycerides, both AA and EPA were preferentially incorporated into phosphatidylinositol (PI), the preference being significantly greater with AA. On the same basis, significantly more EPA than AA was incorporated into phosphatidylcholine (PC). When double-labelled cells were challenged with calcium ionophore A23187, the 3H and 14C released from the cells closely paralleled each other, peaking at 10 min after addition of ionophore. The 12-monohydroxylated derivative was the pre-dominant lipoxygenase product from both AA and EPA with a rank order of 12-hydroxyeicosatetraenoic acid (12-HETE) greater than leukotriene B4 (LTB4) greater than 5-HETE greater than 15-HETE for the AA products and 12-hydroxyeicosapentaenoic acid (12-HEPE) greater than 5-HEPE greater than LTB5 greater than 15 HEPE for EPA products. The 3H/14C (dpm/dpm) ratios in the glycerophospholipids, total released radioactivity, and the lipoxygenase products suggested that PC rather than PI was the likely source of eicosanoid precursors in trout brain cells.     

Photosynthetic 14CO2 fixation and [15N]-ammonia assimilation during UV-B radiation of Lithodesmium variabile

Uptake of [¹⁵N]-ammonia was more sensitive to UV-B exposure than the total ¹⁴CO₂ fixation rate of Lithodesmium variabile Takano. Short-term UV-B radiation (15 min) had practically no effect on the kinetics of [¹⁵N]-ammonia, whereas there was an effect on [¹⁴C]-bicarbonate uptake rate. A significant reduction was found after 30 and 60 min UV-B stress. The time course of photosynthetic uptake of ¹⁵NH₄Cl at several wavelengths was markedly depressed at shorter wavelengths (irradiation with WG 280). A short-term (11 min) exposure to ultraviolet radiation had no influence on the [¹⁴C]-labeled photosynthetic products. However, the [¹⁵N]-label of several amino acids and the ratio of [¹⁵N]-glutamine to [¹⁵N]-glutamic acid varied after irradiation with different ultraviolet wavebands. The results are discussed with reference to UV damage to the key enzymes of nitrogen metabolism.     

The simultaneous use of 14CO2 and 15N2 labelling techniques to study the carbon and nitrogen economy of legumes grown under natural conditions

A method based on simultaneous short-term exposure to ¹⁴CO₂ and ¹⁵N₂ is described for studying nitrogen fixation and distribution in legumes relative to carbon assimilation and use. Equipment designed to accomodate experiments under natural conditions with very little disturbance of the N₂ fixing association is used. It permits continuous measurement and regulation of variables such as air temperature, humidity and CO₂ concentration as well as soil aeration. Measurements of distribution and use of assimilates, respiration of nodulated roots, quantitative N₂ fixation and the distribution and fate of fixed N as a function of time lead to a precise estimation of C and N budgets for each labelling period. When experiments are done at several phenological stages they give a new insight into the complex C and N interrelations in legume symbiosis.
A series of trials throughout the growth period of Glycine max (L.) Merr. cv. Hodgson demonstrated the sensitivity of the method. The development of the plants from vegetative to reproductive stages was accompanied by a complete change in the distribution patterns of current assimilates and products of nitrogen fixation. Maximum sink strength moved from the leaves to the pods and seeds which ended up receiving 70% of the incoming C and 35% of the fixed N. The fact that up to 85% of fixed N in the plants was in the reproductive organs at maturity can be accounted for by remobilisation from vegetative parts.
The respiration of nodulated roots utilized 33% of carbon translocated to below-ground plant parts before nitrogen fixation started, but as much as 50% during the period of optimal fixation. The advantages and limitations of the isotopic method described are critically discussed as a prelude to future investigations.     

In vivo neurochemical profiling of rat brain by 1H-[13C] NMR spectroscopy: cerebral energetics and glutamatergic/GABAergic neurotransmission

The quantification of excitatory and inhibitory neurotransmission and the associated energy metabolism is crucial for a proper understanding of brain function. Although the detection of glutamatergic neurotransmission in vivo by ¹³C NMR spectroscopy is now relatively routine, the detection of GABAergic neurotransmission in vivo has remained elusive because of the low GABA concentration and spectral overlap. Using ¹H-[¹³C] NMR spectroscopy at high magnetic field in combination with robust spectral modeling and the use of different substrates, [U-¹³C₆]-glucose and [2-¹³C]-acetate, it is shown that GABAergic, as well as glutamatergic neurotransmitter fluxes can be detected non-invasively in rat brain in vivo .     

Metabolic Processes in Alzheimer''s Disease: Adenine Nucleotide Content and Production of 14CO2 from [U-14C]Glucose In Vitro in Human Neocortex

Samples of neocortex removed at diagnostic craniotomy from patients with Alzheimer's disease and incubated in vitro showed an increased production of 14CO2 from [U-14C]glucose compared with neurosurgical controls. This was a feature of incubations in the presence of both 5 mM K+ (142% control) and 31 mM K+ (126%). Specific labelling of the amino acid pool was unaltered, suggesting that the apparent increase of CO2 production was not merely a reflection of changes in dilution of the radiolabel from glucose. The content of adenine nucleotides was significantly less than control values in the tissue from patients with Alzheimer's disease after in vitro incubations but the adenylate energy charge was unchanged, indicating that normal energy metabolism was not grossly impaired in these preparations.     

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.     

The incorporation of mevalonate-[2-14C] into the sterol fractions of Calendula officinalis

The incorporation of mevalonate-[2-¹⁴C] into the free sterols, steryl esters, steryl glucosides, acylated steryl glucosides and water-soluble complexes was investigated and the sterols of each fraction were separated into stanols, Δ⁷ sterols, Δ⁵ sterols, stigmasterol, clerosterol and methylene-cholesterol. The stanols and Δ⁷ sterols were more strongly labelled in the steryl esters than in the free sterols. The Δ⁵ sterols and stigmasterol were more intensively labelled in the free sterols than in the steryl esters. All sterol types were more labelled in the steryl glycosides than in the acylated steryl glucosides. Stanols were probably formed from Δ⁷ or Δ⁵ precursors.