A short sequence in the p60src N terminus is required for p60src myristylation and membrane association and for cell transformation.

We have constructed mutants by using linker insertion followed by deletion in the region of cloned Rous sarcoma virus DNA coding for the N-terminal 9 kilodaltons of the src protein. Previous work implicated this region in the membrane association of the protein. The mutations had little effect on src tyrosine kinase activity. Substitution of a tri- or tetrapeptide for amino acids 15 to 27, 15 to 49, or 15 to 81 had little effect on the in vitro transforming capacity of the virus. Like wild-type p60src, the src proteins of these mutants associated with plasma membranes and were labeled with [3H]myristic acid. In contrast, a mutant whose src protein had the dipeptide Asp-Leu substituted for amino acids 2 to 81 and a mutant with the tripeptide Asp-Leu-Gly substituted for amino acids 2 to 15 were transformation defective, and the mutant proteins did not associate with membranes and were not labeled with [3H]myristic acid. These results suggest that amino acids 2 to 15 serve as an attachment site for myristic acid and as a membrane anchor. Since deletions including this region prevent transformation, and since tyrosine kinase activity is not diminished by the deletions, these results imply that target recognition is impaired by mutations altering the very N terminus, perhaps through their effect on membrane association.     

Studies on the positional integrity of glyceride fatty acids during digestion and absorption in rats

1. Rats previously starved for 24hr. were separately given by intraduodenal injections 0.5ml. of a dispersion containing 10mg. of sodium taurocholate, with 50mg. of glycerol 1,3-dioleate 2[1-(14)C]-palmitate, glycerol 1,2-dioleate 3[1-(14)C]-palmitate, a mixture of [1-(14)C]palmitic acid and triolein, or a mixture of [1-(14)C]-palmitic acid and oleic acid. 2. At the end of 30min., the net amounts, and the radioactivity, of the neutral-lipid components recovered from the intestinal lumen and mucosa, and the position of the labelled palmitic acid in the mucosal triglycerides, were determined. 3. When glycerol 1,3-dioleate 2[1-(14)C]-palmitate was administered, most of the labelled acid was retained in the di- and monoglycerides of the lumen; the triglycerides were the major components containing the radioactivity in the mucosa and 75-80% of the labelled acid was located at the beta-position of these triglycerides. 4. When glycerol 1,2-dioleate 3[1-(14)C]-palmitate was administered, the labelled acid was readily split off in the lumen and virtually no radioactivity could be traced in the monoglyceride fraction; in the intestinal mucosa, triglycerides were again the chief components containing most of the radioactivity, and 80-85% of the labelled acid was esterified at the outer positions of the glycerol. 5. When [1-(14)C]palmitic acid mixed with triolein was administered, the concentrations of free fatty acids increased markedly in the intestinal lumen and mucosa, and 80-88% of the radioactivity of the mucosal triglycerides was located at the outer positions of the glycerol. 6. When [1-(14)C]palmitic acid mixed with oleic acid was administered, the labelled acid accumulated in the lumen as well as in the cell, and it was randomly incorporated into all three positions of the mucosal triglycerides.     

Palmitoylation of membrane proteins inSpiroplasma floricola

Covalent modification ofSpiroplasma floricola membrane proteins by fatty acids was determined by in vivo labeling of the cells with radioactive fatty acids followed by separation on one-dimensional SDS-polyacrylamide gels and visualization by autoradiography. Approximately 25 different proteins were found to be labeled with [³H]-palmitate, whereas almost none were labeled with [³H]-oleate. The radioactivity could not be removed from the palmitoylated membrane proteins by boiling in SDS or by exhaustive extraction with chloroform-methanol (21). Nevertheless, treating the palmitoylated proteins with a 0.1N KOH solution removed approximately 70% of the bound [³H]-palmitate. The major protein-bound fatty acid species were identified, following their release from the protein by chemical cleavage, as palmitic acid and stearic acid (83% and 7.5%, respectively).     

gamma-Aminobutyric acid/benzodiazepine receptor protein carries binding sites for both ligands on both two major peptide subunits

Affinity column-purified GABA-benzodiazepine receptor proteins from human, cow, and rat brain were photoaffinity labeled with both [3H]flunitrazepam and [3H]muscimol and examined by gel electrophoresis in sodium dodecyl sulfate. Using high receptor protein concentrations (1 microM), the benzodiazepine ligand [3H]flunitrazepam was incorporated covalently primarily into the expected 52 kiloDalton major subunit but also significantly into a second 57 kiloDalton peptide. Likewise the GABA ligand [3H]muscimol photolabeled primarily the 57 kiloDalton peptide but also to some extent the 52 kiloDalton peptide. This cross-labeling suggests strongly that both major subunits carry binding sites for both GABA and benzodiazepine.     

Coupling of Inositol Phospholipid Metabolism with Excitatory Amino Acid Recognition Sites in Rat Hippocampus

Ibotenate, a rigid structural analogue of glutamate, markedly enhances the hydrolysis of membrane inositol phospholipids, as reflected by the stimulation of [3H]inositol monophosphate formation in rat hippocampal slices prelabeled with [3H]inositol and treated with Li+. Quisqualate, homocysteate, L-glutamate, and L-aspartate also induce a significant (albeit weaker) increase in [3H]inositol monophosphate formation, whereas N-methyl-D-aspartate, kainate, quinolinate, and N-acetylaspartylglutamate are inactive. The increase in [3H]inositol monophosphate formation elicited by the above-mentioned excitatory amino acids is potently and selectively antagonized by DL-2-amino-4-phosphonobutyric acid, a dicarboxylic amino acid receptor antagonist. These results suggest that, in the hippocampus, a class of dicarboxylic amino acid recognition sites is coupled with phospholipase C, the enzyme that catalyzes the hydrolysis of membrane inositol phospholipids.     

Incorporation of l-[3H]fucose and d-[3H]glucosamine into cell-surface-associated glycoconjugates in epidermis of cultured pig skin slices.

1. Electron microscope autoradiography indicated that L-[3H]fucose and D-[3H]glucosamine were both incorporated into cell-surface-associated glycoconjugates in the epidermis of cultured pig skin slices. 2. Acid hydrolysis and paper chromatography of skin homogenates confirmed that there was little metabolic conversion of the labeled precursors to other sugars. 3. Epidermis was separated from dermis using CaCl2, and was extracted with 8 M-urea/5% (w/v) sodium dodecyl sulphate and was then analysed by gel electrophoresis. The major component labelled with D-[3H]glucosamine had an apparent molecular weight in excess of 200 000. This material was not labelled with L-[3H]fucose. Lower molecular-weight components were labelled to a similar extent with both L-[3H]fucose and D-[3H]glucosamine. 4. The high molecular-weight material labelled with D-[3H]glucosamine was released into the medium when the epidermal cells were dispersed with trypsin, indicating that it was either surface-associated or was extracellular. It was also labelled with D-[14C]glucuronic acid, 35SO4(2-) and to a small extent with 14C-labelled amino acids indicating that it contained glycosaminoglycans derived from epidermal proteoglycans. This was confirmed by the fact that it was degraded by testicular hyaluronoglucosidase. It was not present in isolated membranes but was recovered in the soluble fraction from epidermal homogenates. It is therefore only very loosely bound at the cell surface or is present in the extracellular spaces. 5. Membrane-bound [3H]glycoproteins were identified after differential centrifugation of epidermal homogenates. The radioactivity profiles of membrane glycoproteins were similar whether L-[3H]fucose or D-[3H]glucosamine were used and both consisted of a major heterogeneous peak in the apparent mol.wt. range 70 000--150 000. [3H]Glycoproteins in this molecular-weight range were also major components of a plasma-membrane-enriched fraction. These glycoproteins were probably bound to the membrane by hydrophobic interactions, since they were only solubilized by treatment with detergent or organic solvent. They contained terminal sialic acid residues, since they were degraded by neuraminidase.     

THE INCORPORATION OF RADIOACTIVE AMINO ACIDS INTO BRAIN SUBCELLULAR PROTEINS DURING TRAINING

—Total proteins, free amino acids, tritiated water and subcellular proteins of mouse brain were examined for changes in radioactivity during operant conditioning after subcutaneous administration of labelled amino acids. The conditioning was based on appetitive learning, using sweetened milk as a reward. During training and incorporation for 20-30 min, both [³H]leucine and [1-¹⁴C]leucine underwent a significant increase in catabolism, resulting in a decreased radioactivity in the free amino acids. [2-²H]Methionine underwent a rapid loss of isotope, so that 90% of the radioactivity was in the form of tritiated water at the end of training, and this phenomenon masked any possible effect of training. The brain uptake of [³⁵S]methionine increased during the training, resulting in an increased radioactivity in the proteins. Uptake of [³H]lysine increased slightly during training only after 1 h incorporation and not after 20 or 30 min, as judged from a time course of radioactivity in the free amino acids. Incorporation into nuclear proteins increased selectively during 20 min, and into nuclear and cytosol proteins after 60 min incorporations. It is concluded that changes in the observed rate of incorporation of a precursor into brain subcellular proteins under the influence of behaviour might be the result of changes in precursor catabolism or uptake, or both, and that each amino acid behaves in a different way. Even the same amino acid gives different results depending on the isotope and its position in the amino acid.     

Glycerolipid metabolism in lung from ventilated and unventilated rabbits

The incorporation of [14C]-glycerol 3-phosphate and [3H]-palmitate into phosphatidic acid, phosphatidylcholine, phosphatidylethanolamine and triacylglycerols by lung microsomes from ventilated and unventilated rabbits was measured. Unventilated lung microsomes showed an impairment of the "de novo" synthesis of phosphatidic acid and, therefore, a general decrease of glycerolipids synthesized from glycerol 3-phosphate. The incorporation of [3H]-palmitate into phosphatidic acid was considerably lower than the incorporation of [14C]-glycerol 3-phosphate by lung microsomes from both ventilated and unventilated rabbits, and the 3H/14C molar ratio did not change during incubation time. These observations suggest the preferential utilization of endogenous fatty acids by acyltransferases involved in the formation of phosphatidic acid. The activities of the enzymes implicated in the synthesis of phosphatidylcholine from lysophosphatidylcholine remained unchanged in lung from both ventilated and unventilated rabbits.     

Conversion of (U-14C)-glycerol, (2-3H)-glycerol and (1-14C)-palmitate into circulating lipoproteins in the rat.

The in vivo formation of labelled very low density lipoproteins (VLDL) from (U-14C)-glycerol, (2-3H)-glycerol and (1-14C)-palmitate was studied in fed female rats. The rate of disappearance of radioactivity from plasma after the i.v. injection with these tracers was similar for (U-14C)-glycerol and (1-14C)-palmitate. With (2-3H)-glycerol, plasma radioactivity at 10 min was lower than with the other substrates although it did not change thereafter. A certain proportion of radioactivity administered as glycerol appeared in plasma lipids, mainly in the VLDL glyceride glycerol fraction, although when (U-14C)-glycerol was the substrate, a considerable portion also appeared in the esterified fatty acids of these lipoproteins. When using (1-14C)-palmitate, practically all the circulating labelled esterified fatty acids appeared in the VLDL fraction, while the labelled free fatty acids appeared in lipoprotein of higher density, presumable free fatty acid-albumin complexes. This data is discussed in terms of the role of the liver in the rapid, continuous cycling of these substrates to yield VLDL-glycerides for their extrahepatic utilization.     

Glucose stimulates the biosynthesis of rat I and II insulin to an equal extent in isolated pancreatic islets

The effects of glucose on insulin biosynthesis were studied by measuring the incorporation of radiolabelled amino acids into proinsulin/insulin in isolated rat islets. The islets were pulse labelled for 15 min with [3H]leucine (present in rat insulin I and II) or [35S]methionine (unique to rat insulin II) and then incubated for a 165 min post-label (chase) period during which the majority of labelled proinsulin was converted to insulin but under conditions whereby greater than 95% of radiolabelled proinsulin or insulin was retained in the islets. The newly synthesized, labelled, insulin was analyzed by high performance liquid chromatography. Rat I and II insulin biosynthesis was stimulated by 16.7 mM glucose to the same extent.     

Microsomal membrane fluidity and phosphatidylcholine synthesis in rabbit lung under high oxygen tension

Phosphatidylcholine metabolism and membrane fluidity were studied in microsomes isolated from rabbit lung, which had been exposed to high oxygen tension for 30 min. In these microsomes the incorporation of [3H]-palmitate into phosphatidylcholine increased whereas the incorporation of [14C]-glycerol and [14C]-choline from CDP-[methyl-14C]-choline remained unchanged in comparison to the control microsomes. The enhanced [3H]-palmitate incorporation may be explained by an increase of the specific activity of acyl-CoA:lysophosphatidylcholine acyltransferase which was measured in microsomes from hyperoxic lung. Although microsomal parameters influencing membrane fluidity, such as the cholesterol/phospholipid molar ratio, unsaturation degree of phospholipid acyl chains and lipid/protein ratio, are altered after oxygen treatment in vivo, no change of fluorescence polarization (PDPH) and lipid structural order parameter (SDPH) could be measured. Probably, the membrane maintains its fluidity by counteracting effects on different factors on which the fluidity depends.     

Ca2+-dependence of the evoked release from guinea pig cerebral cortex slices of endogenous 14C-labelled amino acids, labelled via D-[U-14C]glucose.

Spontaneous and electrically evoked release of exogenous labelled amino acids and endogenous amino acids labelled from D-[U-14C]glucose were compared in control and Ca2+-free medium using guinea pig cerebral cortex slices. Spontaneous release of all labelled amino acids, except that of endogenous 14C-labelled threonine-serine-glutamine (unseparated) and exogenous [14C]aspartate, was doubled in Ca2+-free medium. The major portion of the electrically evoked release of endogenous [14C]glutamate, [14C]aspartate, gamma-amino[14C]butyrate (14C-labelled GABA) and exogenous 3H-labelled GABA was Ca2+-inpendent. More than half of the evoked release of the other labelled amino acids was Ca2+-independent. As the pattern of Ca2+-dependence of the evoked release concurred with the selectivity of the evoked release for endogenous [14C]-glutamate, [14C]aspartate, and 14C-labelled GABA, it was concluded that these labelled amino acids were probably released from the amino acid 'transmitter pool'.     

3H]muscimol photolabels the gamma-aminobutyric acid receptor binding site on a peptide subunit distinct from that labeled with benzodiazepines

Affinity column-purified GABA-benzodiazepine receptor protein from bovine brain was photoaffinity labeled with both [3H]flunitrazepam and [3H]muscimol. Gel electrophoresis in sodium dodecyl sulfate revealed that the benzodiazepine binding site labeled with [3H]flunitrazepam was primarily associated with a major peptide subunit revealed by protein staining with Mr = 52 kiloDaltons, with minor labeling of a second peptide of Mr = 57 kiloDaltons, corresponding to a second major stained band. Covalent incorporation of [3H]muscimol was limited to the 57 kiloDalton band, with no labeling of the 52 kiloDalton peptide, showing that the GABA binding site is carried by a subunit distinct from that carrying the benzodiazepine binding site.     

Occurrence of an active regulatory mechanism of protein synthesis during starvation and refeeding in Bombyx mori fat body.

The origin of the amino acids which participate in protein synthesis at the recovery from starvation have been determined in the fat body from Bombyx mori larvae. Endogeneous amino acids have been labelled with [3H] leucine and ingested ones with [14C] leucine, allowing their discrimination in the organism. 22 minutes after refeeding, proteosynthetic activity of the fat body, estimated by the polysome level, is increased 2.5 fold. Endogeneous leucine represents more than 90 p. cent of the leucine present in nascent polypeptides. Free leucine pools of the fat body and of hemolymph increase, mainly through the release of endogeneous leucine. It is therefore concluded that refeeding with amino acids induces the production of a signal or critical factor, responsible for the increase in proteosynthetic activity in the fat body.     

Biosynthesis of major platelet proteins in human blood platelets

We studied de novo protein biosynthesis in platelets of normal adult donors and in newly formed platelets isolated from splenectomized patients with idiopathic thrombocytopenic purpura (ITP). After metabolic labelling of platelet proteins, performed with different radiolabelled amino acids or carbohydrates, a tenfold increase in incorporation of radioactivity into trichloroacetic-acid-precipitable material was obtained with ITP platelets compared to control platelets. Electron microscopic studies of ITP platelets revealed the presence of rough endoplasmic reticulum and polyribosomes, providing morphological evidence for protein synthesis. SDS-PAGE of radiolabelled ITP platelet proteins followed by autoradiography showed that [35S]methionine and [3H]leucine were incorporated into almost all Coomassie-blue-stained proteins whereas [3H]carbohydrates only labelled a few bands. Using crossed-immunoelectrophoresis we identified some of the labelled platelet compounds and demonstrated that major membrane glycoproteins (GPIb, IIb, IIIa) and alpha-granule proteins, such as fibrinogen, thrombospondin, albumin and von Willebrand factor, were synthesized in newly formed circulating platelets.     

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.     

A comparison of methods for the measurement of protein turnover in vivo.

Steady-state rates of turnover of two single proteins were measured in vivo by two independent methods. The fractional rate of synthesis of liver ornithine aminotransferase, measured by a continuous infusion of L-[2,6-3H]tyrosine, was 0.42 day-1, whereas in the same animals the fractional rate of degradation measured by loss of radioactivity from amino acids labelled via [14C]bicarbonate was 0.40 day-1. The agreement between methods confirms the reliability of each method for the study of hepatic protein turnover. In contrast, [14C]bicarbonate-labelled amino acids are extensively reutilized in muscle, and are therefore unsuitable for measuring rates of muscle protein breakdown.     

Two-dimensional NMR studies of staphylococcal nuclease: evidence for conformational heterogeneity from hydrogen-1, carbon-13, and nitrogen-15 spin system assignments of the aromatic amino acids in the nuclease H124L-thymidine 3',5'-bisphosphate-Ca2+ ternary complex

A combination of multinuclear two-dimensional NMR experiments served to identify and assign the combined 1H, 13C, and 15N spin systems of the single tryptophan, three phenylalanines, three histidines, and seven tyrosines of staphylococcal nuclease H124L in its ternary complex with calcium and thymidine 3',5'-bisphosphate at pH 5.1 (H2O) or pH 5.5 (2H2O). Samples of recombinant nuclease were labeled with 13C or 15N as appropriate to individual NMR experiments: uniformly with 15N (all sites to greater than 95%), uniformly with 13C (all sites to 26%), selectively with 13C (single amino acids uniformly labeled to 26%), or selectively with 15N (single amino acids uniformly labeled to greater than 95%). NMR data used in the analysis included single-bond and multiple-bond 1H-13C and multiple-bond 1H-15N correlations, 1H-13C single-bond correlation with Hartmann-Hahn relay (1H[13C]SBC-HH), and 1H-13C single-bond correlation with NOE relay (1H[13C]SBC-NOE). The aromatic protons of the spin systems were identified from 1H[13C]SBC-HH data, and the nonprotonated aromatic ring carbons were identified from 1H-13C multiple-bond correlations. Sequence-specific assignments were made on the basis of observed NOE relay connectivities between assigned 1H alpha-13C alpha or 1H beta-13C beta direct cross peaks in the aliphatic region [Wang, J., LeMaster, D. M., & Markley, J. L. (1990) Biochemistry 29, 88-101] and 1H delta-13C delta direct cross peaks in the aromatic region of the 1H[13C]SBC-NOE spectrum. The His121 1H delta 2 resonance, which has an unusual upfield shift (at 4.3 ppm in the aliphatic region), was assigned from 1H[13C]SBC, 1H[13C]MBC, and 1H[15N]MBC data. Evidence for local structural heterogeneity in the ternary complex was provided by doubled peaks assigned to His46, one tyrosine, and one phenylalanine. Measurement of NOE buildup rates between protons on different aromatic residues of the major ternary complex species yielded a number of interproton distances that could be compared with those from X-ray structures of the wild-type nuclease ternary complex with calcium and thymidine 3',5'-bisphosphate [Cotton, F. A., Hazen, E. E., Jr., & Legg, M. J. (1979) Proc. Natl. Acad. Sci. U.S.A. 76, 2551-2555; Loll, P. J., & Lattman, E. E. (1989) Proteins: Struct., Funct., Genet. 5, 183-201]. The unusual chemical shift of His121 1H delta 2 is consistent with ring current calculations from either X-ray structure.     

Problems associated with the labelling of RNA with radioactive precursors in vivo (author's transl)]

The radioactivity of RNA, DNA and proteins in the liver, muscles and cerebrum of 30-day-old rats after labelling with [3H]uridine, [14C]uridine, [3H]cytidine or [3H]orotic acid was measured. It was found that after administration of [3H]uridine, the proteins were 5 - 10 times more radioactive than the RNA. After administration of [14C]uridine, the proteins were 1 - 2 times more heavily labelled than the RNA. Hydrolysis of the proteins followed by chromatography of the amino acids revealed that the protein labelling was mostly due to [3H]glutamate. In the liver, [3H]orotic acid produced very specific labelling of the RNA. The radioactivity of the proteins is very slight. However, the specific labelling of the RNA in the muscles and cerebrum is not so pronounced with this precursor. [3H]Cytidine is an ideal precursor for RNA. The labelling of protein in all three organs examined is very slight, and furthermore, the specific activity of the RNA is 10 - 20 times higher than after labelling with uridine. We were also able to show that after labelling with radioactive uridine, the method of isolation of RNA by alkaline hydrolysis gives incorrect results, because [3H]amino acids interfere with the measurement of the specific activity of the RNA. The heavy labelling of proteins by [3H]-uridine must also be taken into account in histoautoradiography, because our experiments showed that in liver, the proteins in the cell nucleus are 3 times as radioactive as the nucleic acids. The particulate components of the cytoplasm are even 20 times more radioactive than the nucleic acids.