Studies of Myo-inositol and Plasmalogen Metabolism in Rat Brain

Plasmalogens are ether-linked phospholipids that are abundant in nervous tissues. Their biological role is unclear, but may involve membrane structure/function and antioxidant activities. This study further investigates a recent report that chronic administration of myo-inositol in rats increased brain phosphatidylethanolamine plasmalogen (PlsEtn). We examined the effects of myo-inositol administration on the incorporation of [2-(13)C]ethanolamine ([2-(13)C]Etn) into rat brain phospholipids using NMR spectroscopy. Rats received either acute myo-inositol (single dose) +/- [2-(13)C]Etn, or chronic myo-inositol (10-day treatment) + [2-(13)C]Etn. Controls received saline rather than myo-inositol. Acute myo-inositol produced a 68% increase in brain [myo-inositol] and an increase in the incorporation of [2-(13)C]Etn into phospholipids (P < .05). The PlsEtn/phosphatidylethanolamine ratio and the [PlsEtn] were increased by 27% and 30%, respectively. The PlsEtn content as a mole percentage of total phospholipids was elevated (P < or = .05). Acute administration of myo-inositol + ethanolamine illustrates a positive correlation between the brain [myo-inositol] and the biosynthesis of ethanolamine phospholipids, with preferential synthesis of PlsEtn.     

Evidence that Plasmalogen is Protective Against Oxidative Stress in the Rat Brain

The antioxidant capabilities of phosphatidylethanolamine plasmalogen (PlsEtn), in vivo, against lipid peroxidation were investigated via acute phosphine (PH₃) administration in rats. Oxidative stress was assessed from measures of malondialdehyde and various enzyme activities, while NMR analyses of lipid and aqueous tissue extracts provided metabolic information in cerebellum, brainstem, and cortex. Brainstem had the highest basal [PlsEtn], and showed only moderate PH₃-induced oxidative damage with no loss of ATP. The lowest basal [PlsEtn] was observed in cortex, where PH₃ caused a 51% decrease in [ATP]. The largest oxidative effect occurred in cerebellum, but [ATP] was unaffected. Myo-inositol+ethanolamine pretreatment attenuated all PH₃ effects. Specifically, the pretreatment attenuated the ATP decrease in cortex, and elevated brain [PlsEtn] in the cerebellum, nearly abolishing the cerebellar oxidative effects. Our data suggest a high basal [PlsEtn], or the capacity to synthesize new ethanolamine lipids (particularly PlsEtn) may protect against PH₃ toxicity.     

Further studies on the biosynthesis of the avermectins

Summary The biosynthesis of avermectins was studied further inStreptomyces avermitilis MA5502 by feeding experiments with labeled precursors.¹³C-NMR analysis of the compounds biosynthesized from [2-¹³C]acetate, [1,2-¹³C₂]acetate, [3-¹³C]propionate and [2,3-¹³C₂]propionate confirmed that the aglycone of avermectins is made from seven intact acetate and five propionate units. Feeding experiments with [1-¹³C]2-methylbutyrate and [1-¹³C]isobutyrate have shown that 2-methylbutyrate and isobutyrate are immediate precursors of the starter units of the polyketide chains of avermectin a and b components, respectively. The³H/¹⁴C doublelabeling experiments suggest that the two oleandrose moieties are derived from glucose.     

On the biosynthesis of 5-hydroxybenzimidazolylcobamide (vitamin B12-factor III) in Methanosarcina barkeri

Exogenous 5-hydroxy-[2-¹⁴C]benzimidazole was transformed by Methanosarcina barkeri into 5-hydroxy-[2-¹⁴C]benzimidazolylcobamide. Thereby the endogenous biosynthesis of 5-hydroxybenzimidazole was completely blocked.Benzimidazole and 5,6-dimethylbenzimidazole were used by M. barkeri to form benzimidazolylcobamide respectively 5,6-dimethylbenzimidazolylcobamide (vitamin B₁₂), but in these cases the endogenous biosynthesis of factor III was not completely suppressed.With [2-¹⁴C]benzimidazole it was demonstrated that this base as well as the benzimidazolylcobamide formed thereof are no precursors in the biosynthesis of 5-hydroxybenzimidazolylcobamide.Glycine instead was found to be a building block for the biosynthesis of 5-hydroxybenzimidazole, since radioactivity from [1-¹⁴C] and [2-¹⁴C]glycine was incorporated, into the base moiety of factor III, but not into its corrin moiety. With [1-¹³C]glycine and ¹³C-NMR-spectroscopy it was shown that C-1 of glycine gets C-3a of 5-hydroxybenzimidazole.[1-¹³C]glycine also led to a single prominent signal in the ¹³C-NMR-spectrum of coenzyme F₄₂₀, this was assigned to C-10a.Thus C-1 of glycine was incorporated into the hydroxybenzene part of 5-hydroxybenzimidazole, whereas it was not incorporated into this part of coenzyme F₄₂₀, indicating that the hydroxybenzene part of these two compounds is not formed from a common intermediate. L-[U-¹⁴C]glutamate led to the exclusive labeling of the corrin ring of factor III, showing that the corrin precursor 5-aminolevulinic acid is formed by the C-5 pathway in M. barkeri.These experiments indicate that the biosynthesis of factor III in the archaebacterium M. barkeri is similar to the corrinoid biosynthesis in the anaerobic eubacteria Eubacterium limosum, Clostridium barkeri, and Clostridium thermoaceticum.     

Incorporation of [3H]ethanolamine into acetylcholine by a human cholinergic neuroblastoma clone

Human neuroblastoma cholinergic LA-N-2 cells were used as an experimental model to test the possibility that the methylation of phosphoethanolamine (PEtn) to phosphocholine (PCho) and free choline (Cho) (Andriamampandry et al. 1989) could contribute to acetylcholine (AcCho) synthesis. LA-N-2 cells were incubated with [³H]Cho for 90 min and 22.7% of the radioactivity was present in PCho, 18.5% in free Cho and 4.8% as AcCho. The ratio of Cho/AcCho, however, was of about 1 after 16 hours of incubation. The incorporation of 10M [³H]ethanolamine (Etn) into MeEtn, PMeEtn, PMe₂Etn and their corresponding phospholipids was reduced in cells incubated in medium containing 7.2M choline as compared to cells incubated in medium devoid of choline indicating that the lack of Cho from the incubation medium stimulated the conversion of PEtn to Cho water soluble derivatives. Incubation of LA-N-2 cells with [³H]Etn led to the labelling of [³H]AcCho. Cultures incubated in parallel with [³H]Cho showed that roughly 10% of [³H]AcCho obtained after 16 hrs of incubation with the Cho label derived from [³H]Etn. The synthesis of Cho and AcCho from Etn may be enhanced after cellular differentiation induced by the growth of the cells in the presence of retinoic acid (RA). The results indicate that the methylation of [³H]Etn and/or of [³H]PEtn may be used by cholinergic neurons as precursor for AcCho.Abbreviations Etn ethanolamine - MeEtn monomethylethanolamine - Me₂Etn dimethylethanolamine - P- phosphoryl - AcCho acetylcholine - Ptd phosphatidyl - LPtd lysophosphatidyl - RA retinoic acid     

Calpain II activity and calpastatin content in brain regions of 3- and 24-month-old rats

In previous studies, we found a significantly higher (100% or more) content of cathepsin D in the aging brain. In the present study, we determined activity of Ca²⁺-activated neutral protease requiring millimolar Ca²⁺ (calpain II, CANP II) and amount of its endogenous inhibitor, calpastatin, in extracts of various brain regions of 3-month-old and 24-month-old male Fischer-344 rats. Calpain II was separated from calpastatin in a single step (chromatography) and its activity was tested using as substrates [methyl-¹⁴C]-casein, the cytoskeletal proteins desmin and actin, and a mixture of neurofilament triplet proteins and glial fibrillary acidic proteins (GFAP). We found no changes in calpain II activity in pons-medulla and spinal cord, but significant increases were detected in cortex (72%) and striatum (63%) of the 24-month-old rats using [methyl-¹⁴C]-casein as substrate. The profile of desmin and actin breakdown showed regional variations somewhat different from those of [methyl-¹⁴C]-casein. With desmin, the greatest increases with age were in the striatum (82%) and hypothalamus (46%), but there were no alterations in cortex, cerebellum, and pons-medulla. With actin, slightly enhanced activity in cortex and cerebellum was noticeable. Calpastatin content in brain regions was also increased, with the regional pattern of increase fairly similar to the pattern of enzyme activity increase. The causes and the physiological consequences of increased calpain and calpastatin content in the aged brain are being investigated. That changes with age are some-what different with the various brain protein substrates indicates that some of the properties of the enzyme also undergo alteration with age. The change does not appear to be due to a change in distribution, since most of the enzyme, unlike its inhibitor, is in the soluble form.     

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.     

Measurement of amino acid metabolism derived from [1-13C]glucose in the rat brain using13C magnetic resonance spectroscopy

To clarify the unique characteristics of amino acid metabolism derived from glucose in the central nervous system (CNS), we injected [1-¹³C]glucose intraperitoneally to the rat, and extracted the free amino acids from several kinds of tissues and measured the amount of incorporation of¹³C derived from [1-¹³C]glucose into each amino acid using¹³C-magnetic resonance spectroscopy (NMR). In the adult rat brain, the intensities of resonances from¹³C-amino acids were observed in the following order: glutamate, glutamine, aspartate, -aminobutyrate (GABA) and alanine. There seemed no regional difference on this labeling pattern in the brain. However, only in the striatum and thalamus, the intensities of resonances from [2-¹³C]GABA were larger than that from [2,3-¹³C]aspartate. In the other tissues, such as heart, kidney, liver, spleen, muscle, lung and small intestine, the resonances from GABA were not detected and every intensity of resonances from¹³C-amino acids, except¹³C-alanine, was much smaller than those in the brain and spinal cord. In the serum,¹³C-amino acid was not detected at all. When the rats were decapitated, in the brain, the resonances from [1-¹³C]glucose greatly reduced and the intensities of resonances from [3-¹³C]lactate, [3-¹³C]alanine, [2, 3, 4-¹³C]GABA and [2-¹³C]glutamine became larger as compared with those in the case that the rats were sacrificed with microwave. In other tissues, the resonances from [1-¹³C]glucose were clearly detected even after the decapitation. In the glioma induced by nitrosoethylurea in the spinal cord, the large resonances from glutamine and alanine were observed; however, the intensities of resonances from glutamate were considerably reduced and the resonances from GABA and aspartate were not detected. These results show that the pattern of¹³C label incorporation into amino acids is unique in the central nervous tissues and also suggest that the metabolic compartmentalization could exist in the CNS through the metabolic trafficking between neurons and astroglia.Abbreviations NMR nuclear magnetic resonance - GABA -aminobutyrate - GFAP glial fibrillary acidic protein Special issue dedicated to Dr. Bernard W. Agranoff.     

Mitochondrial H+-ATPase: Identification of Subunits of the F0 Subcomplex that Contact Membrane Lipids

The subunits of the F₀ membrane sector of bovine heart mitochondrial H⁺-ATPase that contact the lipids of the mitochondrial inner membrane were identified with the use of specially synthesized proteoliposomes that contained active mitochondrial H⁺-ATPase and a photoreactive lipid, which was 1-acyl-2-[12-[di-azocyclopentadiene-2-carbonylamino)-[12-¹⁴C]dodecanoyl]-sn-glycero-3-phosphocholine, 1-acyl-2-[11-([¹²⁵I]diazoiodocyclopentadiene-2-carbonyloxy)undecanoyl]-sn-glycero-3-phosphocholine, or 1-acyl-2-[12-(diazocyclopentadiene-2-carbonylamino)dodecanoyl]-sn-glycero-3-phosphocholine, where acyl is a mixture of the residues of palmitic (70%) and stearic (30%) acids. An analysis of the cross-linked products obtained upon the UV-irradiation of these proteoliposomes indicated that subunits c and a of the F₀ membrane sector contact the lipids. The crosslinked products were identified by SDS-PAGE and MALDI mass spectrometry.     

The origin of free brain malonate

Rat brain contains substantial concentrations of free malonate (192 nmol/g wet weight) but origin and biological importance of the dicarboxylic acid are poorly understood. A dietary source has been excluded. A recently described malonyl-CoA decarboxylase deficiency is associated with malonic aciduria and clinical manifestations, including mental retardation. In an effort to study the metabolic origin of free malonate, several labeled acetyl-CoA precursors were administered by intracerebral injection. [2-¹⁴C]pyruvate or [1,5-¹⁴C]citrate produced radioactive glutamate but failed to label malonate. In contrast, [1-¹⁴C]acetate, [2-¹⁴C]acetate, and [1-¹⁴C]butyrate were converted to labeled glutamateand malonate after the same route of administration. The intracerebral injection of [1-¹⁴C]--alanine as a precursor of malonic semialdehyde and possibly free malonate did not give rise to radioactivity in the dicarboxylate. The labeling pattern of malonic acid is compatible with the reaction sequence: acetyl-CoAmalonyl-CoAmalonate. The final step is thought to occur by transfer of the CoA-group from malonyl-CoA to succinate and/or acetoacetate. Labeling of malonate from acetate is most effective at the age of 7 days when the net concentration of the dicarboxylic acid in rat brain is still very low. At this age, butyrate was a better precursor of malonate than acetate. It is proposed that fatty acid oxidation provides the acetyl-CoA which functions as the precursor of free brain malonate. Compartmentation of malonate biosynthesis is likely because the acetyl-CoA precursors citrate and pyruvate are ineffective.Presented before the 12th Biennial Meeting of the International Society for Neurochemistry, Algarve, Portugal, April 24, 1989.     

Biosynthesis of Fukinolic Acid Isolated from Petasites japonicus

The biosynthesis of fukinolic acid, which had been isolated from the Japanese fuki vegetable, Petasites japonicus, was investigated by feeding selected ¹³C-labeled compounds to axenic cultures of P. japonicus. [1,2-¹³C₂] sodium acetate and [1-¹³C] L-tyrosine were incorporated into the fukiic acid sub group, while [3-¹³C] L-phenylalanine was incorporated into the caffeic acid moiety.     

Formation of [13C]- and [14C]zearalenone by Fusarium graminearum DSM 4529

Summary To raise the yields for the production of ¹⁴C-labelled zearalenone in Fusarium cultures the influence of growth conditions and known effectors or precursors of toxin biosynthesis was studied. Benzoic acid and 2,4-dihydroxybenzoic acid used as precursors decreased toxin formation; in the presence of different pesticides such as 2,4-dichlorophenoxyacetic acid, however, toxin production increased up to 140%. The known pathway of zearalenone biosynthesis could be confirmed from the relative extents of ¹³C-incorporation into the zearalenone molecule by incubating Fusarium graminearum DSM 4529 with d-(+)-[1-¹³C]glucose as carbon source. When grown in the presence of d-[U-¹⁴C]glucose or [2-¹⁴C]malonic acid the strain produced [¹⁴C]zearalenone with specific activities of 0.07 and 0.09 Ci/mg, the ¹⁴C-incorporation rates being 0.34% and 0.48%, respectively.     

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

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

Evidence for transketolase-like TKTL1 flux in CHO cells based on parallel labeling experiments and 13C-metabolic flux analysis

The pentose phosphate pathway (PPP) is a fundamental component of cellular metabolism. It provides precursors for the biosynthesis of nucleotides and contributes to the production of reducing power in the form of NADPH. It has been hypothesized that mammalian cells may contain a hidden reaction in PPP catalyzed by transketolase-like protein 1 (TKTL1) that is closely related to the classical transketolase enzyme; however, until now there has been no direct experimental evidence for this reaction. In this work, we have applied state-of-the-art techniques in ¹³C metabolic flux analysis (¹³C-MFA) based on parallel labeling experiments and integrated flux fitting to estimate the TKTL1 flux in CHO cells. We identified a set of three parallel labeling experiments with [1-¹³C]glucose+[4,5,6-¹³C]glucose, [2-¹³C]glucose+[4,5,6-¹³C]glucose, and [3-¹³C]glucose+[4,5,6-¹³C]glucose and developed a new method to measure ¹³C-labeling of fructose 6-phosphate by GC-MS that allows intuitive interpretation of mass isotopomer distributions to determine key fluxes in the model, including glycolysis, oxidative PPP, non-oxidative PPP, and the TKTL1 flux. Using these tracers we detected a significant TKTL1 flux in CHO cells at the stationary phase. The flux results suggest that the main function of oxidative PPP in CHO cells at the stationary phase is to fuel the TKTL1 reaction. Overall, this study demonstrates for the first time that carbon atoms can be lost in the PPP, by means other than the oxidative PPP, and that this loss of carbon atoms is consistent with the hypothesized TKTL1 reaction in mammalian cells.     

Biosynthesis of Choline and Ethanolamine Phospholipids in Crithidia fasciculata*

The incorporation of radioactivity from [1,2-³⁴C]choline, [1,2-³⁴C]ethanolamine, [3-¹⁴C]serine and [methyl-¹⁴C]methionine into lipids was studied in growing cultures of Crithidia fasciculata. Lecithin was formed both from choline and by the methylation of phosphatidylethanolamine. Mono- and dimethylphosphatidylethanolamines were present in no more than trace amounts. Growth of the protozoa in media containing choline (1 mM) did not decrease synthesis by the methylation pathway. Phosphatidylethanolamine was formed from ethanolamine. Radioactivity from serine also was present in both phosphatidylethanolamine and lecithin; however, the presumed intermediate, phosphatidylserine, could not be detected.     

Microbial transformation of ginsenoside Rb1 by Rhizopus stolonifer and Curvularia lunata

Of 49 microbial strains screened for their capabilities to transform ginsenoside Rb₁, Rhizopus stolonifer and Curvularia lunata produced four key metabolites: 3-O-[-d-glucopyranosyl-(1,2)--d-glucopyranosyl]- 20-O-[-d-glucopyranosyl]-3,12, 20(S)-trihydroxydammar-24-ene (1), 3-O-[-d-glucopyranosyl-(1,2)--d- glucopyranosyl]-20-O-[-d-glucopyranosyl]-3,12, 20(S)-trihydroxydammar-24-ol (2), 3-O-[-d-gluco- pyranosyl-(1,2)--d-glucopyranosyl]-3, 12, 20(S)-trihydroxydammar-24-ene (3), and 3-O--d-glucopyranosyl-3, 12, 20(S)-trihydroxydammar-24-ene (4), identified by TOF-MS, ¹H- and ¹³C-NMR spectral data. Metabolites 1, 3 and 4 were from the incubation with R. stolonifer, and 1 and 2 from the incubation with C. lunata. Compound 2 was identified as a new compound.     

Enantioselective syntheses of isotopically labelledα-amino acids Preparation of specifically13C-labelled L-lysines

Summary [2-¹³C]-L-lysine, [3,4-¹³C₂]-L-lysine and [5,6-¹³C₂]-L-lysine are prepared from simple, commercially available, highly enriched starting materials as [2-¹³C]-glycine, ethyl [1,2-¹³C₂]-bromo acetate, and [1,2-¹³C₂]-acetonitrile. The introduction of the chiral center is based on a general method starting from the bis-lactim ether of cyclo-(D-Val-Gly). The synthesis of (2R)-[5-¹³C]-3,6-diethoxy-2,5-dihydro-2-isopropylpyrazine is described. The availability of our method for the preparation of specifically enriched bis-lactim ethers allows the synthesis of a great variety of site specific isotopically labelled (L- and D-)-amino acids. Moreover, intermediate 4-[(2R,5S)-3,6-diethoxy-2,5-dihydro-2-isopropyl-5-pyrazinyl]butyronitrile is a valuable precursor in the synthesis of L--aminoadipic acid. The synthetic scheme in this publication makes both L-lysine and L--aminoadipic acid¹³C- or¹⁵N-labelled at any position, easily available. The isotopomers of lysine are obtained on a preparative scale in good yields, with 99%¹³C and high enantiomeric purity (>97% e.e.). Three isotopomers are characterized using various spectroscopic techniques,e.g.,¹H NMR,¹³C NMR and Mass spectrometry.     

Implication of tyramine in the biosynthesis of morphinan alkaloids in Papaver

Doubly-labeled [³H, ¹⁴C]tyrosines, [1-¹³C-]tyramine or [2-¹⁴C]tyramine, administered to the stems of intact Papaver somniferum L. plants, were found to be incorporated into the morphinan alkaloids of the plant with comparable efficiency. ³H/¹⁴C ratios of alkaloids from plants fed the tyrosines were consistent with an almost equal conversion of this amino acid into the tetrahydroisoquinoline (TIQ) and benzyl-derived segments. Nuclear magnetic resonance (NMR) analyses of morphine isolated after administration of [1-¹³C]tyramine demonstrated selective labeling of C-16 of the alkaloid, indicating the conversion of this amine primarily into the TIQ-derived moiety. Morphine and thebaine labeled by [2-¹⁴C]tyramine were degraded to phenanthridines and N,N-dimethyl ethylamines. Of the total radioactivity in the alkaloids 97% was found to be associated with the ethylamines, a distribution consistent with the NMR data. This preferential utilization of tyramine in the biosynthesis of morphinan alkaloids can be explained by the compartmentalization of intermediates and enzymes of the pathway.Abbreviations L-dopa L-3,4-dihydroxyphenylalanine - HPLC high-pressure liquid chromatography - NMR nuelear magnetic resonance - TIQ tetrahydroisoquinoline     

Exogenous sphingosine enters Xenopus laevis embryos grown in petri dishes and it is metabolized

Xenopus embryos of different developmental stages were exposed to 0.1 M [1-³H]sphingosine. Labeled sphingosine was quickly absorbed by Xenopus embryos. The amount of radioactivity absorbed increased with embryo age and appeared to be linearly correlated (R=0.97) to the embryo surface area. About 45% of the total radioactivity associated to the embryos was found in the skin, 22% in the intestine, 15% in the heart, 12% in the liver and 6% in the brain.A portion of [1-³H]sphingosine entered very rapidly the biosynthetic pathway of sphingolipids; after 30 min of incubation, in fact, only a small amount of free radioactive sphingosine could be detected. Sphingomyelin was the main radioactive sphingolipid synthesized; radioactive ceramide, galactosylceramide and lactosylceramide could also be recognized and quantified. On the contrary, the amount of radioactive gangliosides was hardly detectable.A portion of [1-³H]sphinogosine absorbed by Xenopus embryos (30 to 60% depending on the developmental stage) entered the catabolic pathway producing radioactive phosphoethanolamine that was recycled for the biosynthesis of radioactive phosphatidylethanolamine. This phospholipid was produced mainly in the intestine and in the skin, while sphingomyelin was the main radioactive lipid in the heart, liver and brain.     

A sensitive and robust method for obtaining intermolecular NOEs between side chains in large protein complexes

A method for measuring intermolecular NOEs in protein complexes based on asymmetric sample deuteration is described. ¹³C/¹H-I,L,V-methyl, U-²H labeled protein is produced using the biosynthetic precursors [-¹³C]--ketobutyrate and [,-¹³C₂]--ketoisovalerate. The labeled protein is mixed with its unlabeled binding partner and a 3D ¹³C-HMQC-NOESY is recorded, yielding unambiguous intermolecular aromatic/methyl NOEs. A simple synthesis of the biosynthetic precursors via reaction of diethyl oxalate with alkyl Grignard compounds is reported. The method is demonstrated for a 35 kDa heterodimeric protein complex dissolved in a CHAPS micelle. This approach will facilitate the solution structure determination of protein/protein, protein/ligand or protein/nucleic acid complexes.These authors contributed equallyThese authors contributed equally