RAPIDLY LABELED AND SECRETED PROTEINS OF THE CHICK BRAIN

Abstract— The extracellular and cerebrospinal fluids (ECF) of the chick brain were found to contain a distinctive group of rapidly labeled proteins. Gel staining patterns suggest that most ECF protein bands correspond with components also found in either the homogenized whole brain cytoplasmic fraction or the blood serum. The valine-incorporation profiles of these three fractions, however, were entirely distinctive. Comparisons were carried out using a sensitive double-labeling method, in which ECF proteins from chicks labeled for 1 h with [³H]valine were comigrated on SDS-polyacrylamide gels with the cytoplasmic or serum proteins from a ¹⁴C-labeled animal. Analyses of the ³H- and ¹⁴C-labeling profiles from these gels showed that certain newly-synthesized proteins are heavily enriched in the ECF relative to the other two fractions. Most prominently, material with an apparent molecular weight of # 17,000 was found to incorporate nearly one-third of all the radioactivity appearing in the ECF proteins, but was not heavily labeled in either the cytoplasmic or serum fractions. The effects of a simple training experience on the pattern of chicks' brain protein synthesis were also examined.     

Pathogenesis-related protein b1' in plants and in cell suspension cultures of Nicotiana glutinosa Nicotiana debneyi and an amphidiploid cross (N. glutinosa×N. debneyi)

The expression of PR-protein b₁' in plants and cell suspension cultures of Nicotiana glutinosa L., Nicotiana debneyi Domin, and an amphidiploid cross of these two species, a hybrid, has been investigated. An enzyme linked immunosorbent assay has been employed to determine the concentration of PR-protein b₁' in extracts. The PR-Protein b₁' was constitutively produced in intact plants of the hybrid (around 25 μg g⁻¹ leaf tissue), while only trace amounts of the protein (< 50 ng g⁻¹ leaf tissue) were found in plants of the two parents. In suspension culture, the concentrations of PR-protein b₁' were 8, 0.4 and less than 0.1 mg l⁻¹ medium for the hybrid. N. debneyi and N. glutinosa , respectively. Only trace amounts of the protein were found in extracts from cells. Seven days after infection by tobacco mosaic virus (TMV) the concentration of PR-protein b₁' in leaves of N. glutinosa was 22.5 μg g⁻¹ leaf tissue. In N. debneyi and the hybrid a relatively limited induction of PR-protein b₁' by TMV was observed. The influence of various phenoxyacetic acids on the expression of PR-protein b₁' in the 3 cell cultures has been investigated. Cultures of N. glutinosa responded to treatments with 2,4-D and 2,4,5-T while cultures of N. debneyi and the hybrid were essentially unaffected. In the former case a concentration of 5–10 mg l⁻¹ 2,4,5-T was optimal and cells were most responsive to the treatment 4 days after subcultivation. The concentration of PR-protein b₁' in elicited cell cultures of N. glutinosa was 2 to 4 mg l⁻¹ medium.     

Antigenic properties of the loosely bound subnuclear fraction of rat brain

Antibodies against the loosely bound subnuclear fraction (0.35 M NaCl-extractable subnuclear fraction) of rat brain were raised in rabbits, and the distribution of the main antigenic determinants was followed among subcellular fractions of nervous tissue and among homologous nuclear preparations from different tissues. By immunofluorescence a localization restricted to the nucleus was observed, and by microcomplement fixation the antigens appeared to specifically enrich the fraction under examination, being poorly detectable in cytosol, nuclear sap, or deoxyribounucleoproteins of rat brain. No significant cross-reaction was observed by complement fixation with homologous preparations from muscle, liver, kidney, spleen, lung, or thymus of rat, whereas the 0.35 M NaCl-extracted subnuclear fraction from rat testis exhibited an immunoreactivity, although lower than that for brain proteins. After trypsin or ribonuclease treatment, the main antigenic determinants appeared to be protein in nature. The subnuclear fraction under examination, which is believed to be relevant to gene regulation, appears to contain protein antigens mainly concentrated in the nervous system.     

WATER-SOLUBLE AND PENTANOL-EXTRACTABLE PROTEINS IN HUMAN BRAIN NORMAL TISSUE AND HUMAN BRAIN TUMOURS, WITH SPECIAL REFERENCE TO S-100 PROTEIN

Disc electrophoretic separation of water-soluble and pentanol-extractable protein from normal human brain and human brain tumours (glioblastoma, neurinoma and medulloblastoma) on 10 per cent polyacrylamide gels showed minor differences between tissues. After disc electrophoresis ependymomal tumour cells contained high concentrations of a rapidly migrating anodic protein fraction which was immunologically distinct from S-100 protein. After electrophoresis of normal brain grey matter in a continuous buffer system, a rapidly migrating anodic protein fraction which was immunologically distinct from S-100 protein was found, and this protein fraction had a similar relative mobility to that of ependymomal tumour cells. This protein fraction was present to a low extent in human normal white matter, but absent from neurinoma and glioblastoma. In a continuous buffer system at least two separable protein fractions, immunologically equivalent to S-100 protein, were observed in normal human brain. The more anodic of these two fractions was shown to be present in relatively high amounts in neurinomas, and may be of Schwann cell origin. Additional S-100 protein could be extracted from residual material remaining after removal of water-soluble proteins; 2.8-10 per cent of the water-soluble S-100 in normal material, and 0.1-0.6 per cent of that present in tumour material, was extractable from the water-insoluble residue by pentanol.     

Localization of a human gene homologous to the PrP gene on the p arm of chromosome 20 and detection of PrP-related antigens in normal human brain

Infectious fractions prepared from scrapie-infected hamster brains contain a protein, PrP 27-30, which shares antigenic determinants with polypeptides found in similarly prepared fractions from patients with Creutzfeldt-Jakob disease. cDNA sequences encoding the hamster PrP 27-30 identified homologous sequences in the human genome as well as in normal human brain mRNA preparations. Antibodies raised against the mouse PrP's identified antigenically related peptides in both normal hamster and human brain as well as in scrapie-infected hamster brain and CJD-affected human brain. By using in situ hybridization we localized the homologous human genomic sequences on the short arm of chromosome 20. Our results indicate that the reportedly unique proteins detected in human CJD preparations derive from normal human gene products.     

DISTRIBUTION OF SERUM PROTEINS AND BETA-TRACE PROTEIN WITHIN THE NERVOUS SYSTEM

Abstract— The concentration of beta-trace protein, a low molecular weight water-soluble protein, was significantly higher in cerebral and cerebellar white matter than in grey matter. A similar distribution was found for transferrin. The concentrations of gamma-trace protein and pre-albumin were almost constant in cerebral and cerebellar white and grey matter. A different distribution was shown for albumin, beta_lc/beta_lA globulins, and the immunoglobulins G, A and M, with the highest concentrations mostly encountered in the highly vascularized basal ganglia and grey matter, and the lowest concentrations in white matter. Thus, different parameters, hitherto unknown determine the distribution within the central nervous system of various proteins-those which originate from serum, and beta-trace protein which originates mainly from the central nervous system.
The amounts of the different proteins were higher in the choroid plexus than in brain tissue, with the exception of gamma-trace protein.
Foetal brains contained increasing concentrations of beta-trace protein and of transferrin with age.
Femoral nerve contained lower concentrations of beta-trace protein and gamma-trace protein, and higher concentrations of the other proteins, than the central nervous system.     

Identification with a Monoclonal Antibody of a Phylogenetically Conserved Brain-Specific Determinant on a 130,000 Molecular Weight Glycoprotein of Human Brain

Human brain glycoproteins depleted of Thy-1 antigen were used to immunise Balb/c mice for monoclonal antibody production. The F3-87-8 antibody described in this paper interacts with a determinant present in large amounts on all human brain subregions studied (cerebral cortical grey matter, white matter, caudate, thalamus, dentate nucleus, putamen, cerebellar cortex) but absent from all other tissues examined (liver, heart, kidney, spleen, thymus, lymph node, erythrocyte, adrenal gland, and peripheral nerve). The determinant is conserved in mammalian evolution, as the brains of the rat and dog have amounts equal to that found in human brain. Balb/c mouse brain has approximately one-third as much antigen activity as these other mammalian brains, whereas brains of the frog and chicken have no detectable antigenic activity. Developmental studies showed that 16-week human foetal brain and neonatal dog brain had little or no antigen activity, indicating a dramatic increase in the amount of the determinant with brain maturation. Biochemical studies showed that the F3-87-8-bearing molecule was a major sialoglycoprotein of human brain with an apparent molecular weight of 130,000. It was shown by immunofluorescence to be particularly localised in what appeared to be fibre tracts in the thalamus and basal ganglia, and in the dentate nucleus, although all regions including grey matter were stained.     

Cross-Reaction of Anti-Rat B-50: Characterization and Isolation of a "B-50 Phosphoprotein" from Bovine Brain

Abstract: Antibodies to the phosphoprotein B-50 of rat brain were used to trace cross-reacting brain proteins of vertebrates. With the SDS-gel-immunoperoxidase method, a cross-reacting protein (CP) of apparent M_r 53,000 was demonstrated in the homogenate and the synaptic plasma membrane fraction of bovine brain. Sequence 1–24 of adrenocorticotropin (ACTH_1-24) (10⁻⁵ M and 10⁻⁴ M ) inhibited endogenous phosphorylation of CP in synaptic plasma membranes. The protein was partially characterized and purified to homogeneity from bovine brain by procedures previously described for rat B-50. CP was enriched in ammonium sulfate precipitated protein (ASP) fractions and phosphorylated by an endogenous protein kinase. Two-dimensional gel analysis of bovine and rat ASP showed that the cross-reacting protein had an isoelectric point less acidic than B-50. Limited proteolysis by Staphylococcus aureus protease yielded a "peptide map" analogous to B-50. Two major fragments of M_r 30,000 and 17,000 were produced. In addition, CP exhibited other similarities to rat B-50: phosphorylation by rat brain protein kinase C, microheterogeneity observed after isoelectric focusing, and possibly degradation by endogenous proteolysis. Cross-reaction of proteins in brain homogenates of other mammalian species and of chicken was demonstrated: the M_r of the proteins ranged from 47,000 to 53,000. We conclude that (1) the cross-reacting bovine protein is a "B-50 protein," and (2) the M _r of the "B-50 protein" varies from species to species.     

METABOLISM OF HIGHLY BASIC PROTEINS OF RAT BRAIN DURING POSTNATAL DEVELOPMENT

Abstract— (1) The encephalitogenic basic protein obtained from adult rat brain by treatment with 0·03 N-HCl was demonstrable in the brain on the 10th day after birth. It showed a marked increase in quantity during the phase of active myelination.
(2) The proteins extracted under similar conditions from 5-day old rat brain contained several highly basic proteins other than the encephalitogenic basic protein. These basic proteins, which were electrophoretically similar to highly basic proteins extracted similarly from adult rat liver, are histones.
(3) For metabolic studies the entire group of highly basic proteins in the acid extract was obtained after one-step adsorption of other proteins on DEAE-cellulose equilibrated at pH 9·8
(4) After injection of [¹⁴C]lysine the fractions containing highly basic proteins, water soluble non-basic proteins and other tissue proteins of the brain showed higher relative specific radioactivities during the period 1–10 days after birth than during later stages of postnatal development. The fraction containing proteolipid protein, another myelin protein, showed a low relative specific radioactivity throughout the whole period of postnatal development. The relative specific radioactivity of proteolipid protein was somewhat higher in young than in adult rat brain.     

PROTEIN SYNTHESIS IN THE BRAIN OF OCTOPUS VULGARIS, LAM

Abstract— The process of protein synthesis in the brain of Octopus vulgaris Lam has been examined after systemic administration of [³H]leucine and upon incubation of the tissue in sea water containing the radioactive precursor. After injection of [³H]leucine in the branchial heart, the radioactivity of the TCA-soluble fractions of the three main brain divisions reached a maximum in about 30 min and decreased thereafter, while incorporation into the protein fractions was complete in approx. 2 h. Per unit wet weight the radioactivity of brain proteins was higher than that of most other organs. In vitro the rate of incorporation of [³H]leucine in the protein fraction of the optic lobe remained low for more than 1 h, but increased several fold thereafter. Preincubation of the tissue in sea water abolished the lag period. Similar effects were observed in the vertical lobe as well as in the optic lobe of young and adult octopuses but not in the white body, a non-nervous organ. The process of protein synthesis in the optic lobe is markedly inhibited by puromycin, cycloheximide and chloramphenicol. Electrophoretic analysis on polyacrylamide gels indicated that the soluble proteins labelled in vitro and in vivo are similar.     

Subcellular location of polypeptides that react with anti-Sm and anti-RNP antibodies

Whole nuclear and cytoplasmic fractions from HeLa cells were analyzed in protein gel blots probed with either monoclonal anti-Sm or polyclonal anti-(U1)RNP antibodies. The cells were fractionated by a nonaqueous procedure, to minimize proteolysis and artifactual leakage of nuclear components to the cytoplasmic fraction. Unexpectedly, more reactive proteins were detected in the nucleus than shown earlier in partially purified small nuclear ribonucleoprotein particles (snRNPs). In addition, reactive polypeptides were now found in the cytoplasm. These results are discussed in reference to the possibility that the nucleus and cytoplasm of adult somatic human cells may have a more complex than anticipated set of populations of polypeptides bearing Sm or RNP antigenic determinants, including some proteins that might not be in snRNP form.     

Subcellular and anatomical distribution in rat brain of glycoproteins that contain mannose-rich heteropolysaccharide chains

Mannose-rich glycopeptides derived from brain glycoproteins were obtained by proteolysis of bovine brain tissue or subcellular fractions derived from rat brain tissue. The dialyzable mannose-rich glycopeptides were isolated by colum electrophoresis and gel flitration. These glycopeptides contained, on the average, six mannose and two N-acetylglucosamine residues with variable amounts of fucose and galactose. Over 50% of the mannose-rich glycopeptides of rat brain were localized in the microsomal and synaptosomal fractions; myelin and the soluble fraction contained lesser amounts. None was recovered from the mitochondria. The amount, per mg protein, of mannose-rich oligosaccharide chains in the myelin exceeded the concentration found in the microsomal and synaptosomal fractions. The concentration of mannose-rich glycopeptides derived from glycoproteins was 50% higher in white matter than in gray. On the other hand, the non-dialyzable and acidic sialoglycopeptides showed a three-fold enrichment in gray matter compared to white. The relatively lower ratio of sialoglycopeptides to mannose-rich glycopeptides observed in white matter (2.5) compared to gray matter (6.9) is reflected in the lower value for the ratio in myelin (1.1) compared to synpatosomes (2.1). Although glycoproteins that contain mannose-rich oligosaccharide chains are present in the nerve cell and its terminals, these glycoproteins appear to be relatively enriched in myelin and/or glial membranes.     

Antigenic characterization of flavivirus structural proteins separated by isoelectric focusing.

Isoelectrofocusing of nonionic-detergent-disrupted flaviviruses separated the envelope glycoprotein of 53,000 to 58,000 daltons and the nucleocapsid protein of 14,000 daltons. The envelope protein and nucleocapsid protein were isolated at isoelectric points of pI 7.8 and 10.3, respectively. The antigenic determinants of St. Louis encephalitis, Japanese encephalitis, and dengue virus envelope and nucleocapsid proteins were examined by solid-phase competition radioimmunoassay. By the appropriate selection of antiserum and competing proteins, it was possible to distinguish type-specific, complex-reactive and flavivirus group-reactive antigenic determinants. The envelope glycoproteins of St. Louis encephalitis, Japanese encephalitis, and dengue viruses were found to contain each of these three classes of antigenic determinants. Most of the determinants on the envelope protein were type specific, some were complex reactive, and a small fraction were flavivirus group reactive. The nucleocapsid protein contained only flavivirus group-reactive antigenic determinants.     

A Soluble Phospholipase of Toxoplasma gondii Associated with Host Cell Penetration

We previously reported that phospholipase increases host cell penetration by Toxoplasma gondii . Here we show that calcium-dependent phospholipase A (PLA) activity is found in the supernatant of sonically disrupted T. gondii . When fractions of disrupted T. gondii were incubated with host cells, the release of fatty acids and lysolipids was detected. Fractions of sonically disrupted T. gondii with PLA activity increased T. gondii host cell penetration in a bioassay. In addition, a protein of approximately 20 kDa was detected by immunoblot of T. gondii antigens with horse antiserum to snake venom, the major antibody of which recognizes PLA₂. Incubation of T. gondii with exogenous PLA₂ resulted in increased solubility of a rhoptry protein. This protein, which we previously characterized as involved with enhanced parasite invasion of host cells and which is recognized by monoclonal antibody Tg49, was detected in increased amounts in supernatant fractions of extracellular parasites treated with PLA₂. Whereas without PLA₂ treatment, it is only slightly soluble under physiological conditions. This raises the possibility that PLA may be implicated in the release of rhoptry proteins.     

Tryptic Peptide Mapping Studies on the Regulatory Subunits of Type II Protein Kinases from Cerebral Cortex and Heart. Evidence for Overall Structural Divergence and Differences in the Autophosphorylation and cAMP-binding Domains

Abstract: Regulatory subunits of type II cAMP-dependent protein kinases (RII) (EC 2.7.1.37) from bovine brain and heart exhibit similar physicochemical and functional properties in vitro . However, the two forms of RII are markedly different in their (a) antigenic determinants, (b) cell and tissue distribution, and (c) subcellular localization. This suggests that each of these cAMP-binding proteins may possess some unique structural features. To assess the degree of overall divergence between the primary structures of brain RII and heart RII, tryptic peptides derived from the two proteins were mapped by reverse phase HPLC on a C₁₈ column. When the column effluent was monitored at 280 nm, 15 peptides were found only in the heart RII digest, while 5 other peptides were obtained only from brain RII. More complex HPLC profiles were observed by following peptide absorbance at 210 nm, but a similar level of diversity was apparent: 13 brain-RII-specific and 15 heart-RII-specific tryptic peptides were identified and resolved with a gradient (0–50%) of acetonitrile in 0.1% trifluoroacetic acid. In complementary experiments, classical two-dimensional mapping analyses revealed that several ³²P-labeled tryptic fragments derived from autophosphorylated and photoaffinity-labeled brain RII were separate and distinct from the ³²P-peptides isolated from similarly treated heart RII. The HPLC mapping data document a structural basis for the immunological disparity between brain RII and heart RII and suggest that the two cAMP-binding proteins are different proteins rather than interconvertible forms of a single protein. The two-dimensional maps further indicate that significant structural dissimilarities between brain RII and heart RII also occur within the functionally conserved autophosphorylation and cAMP-binding domains.     

Glutamate-binding membrane proteins from human platelets]

Solubilization of the total membrane fraction of human platelets in a 2% solution of sodium deoxycholate and subsequent affinity chromatography on glutamate agarose resulted in two protein fractions possessing a glutamate-binding activity. As can be evidenced from radioligand binding data, the first fraction contains two types of binding sites (Kd1 = 1 microM, Bmax 1 = 100 pmol/mg of protein; Kd2 = 9.3 microMm Bmax2 = 395 pmol/mg of protein). The second fraction has only one type of binding sites (Kd = 1 microM, Bmax = = 110 pmol/mg of protein). SDS-PAAG electrophoresis revealed the presence in the first fraction of proteins with Mr of 14, 24, 56 and 155 kDa, whereas the second fraction was found to contain 14, 46, 71 and 155 kDa proteins. Solid phase immunoenzymatic analysis using poly- and monoclonal specific antibodies against mammalian brain glutamate-binding proteins revealed a marked immunochemical similarity of the isolated protein fractions with human brain synaptic membrane glutamate-binding proteins.     

Proteins ADP-ribosylated in Nuclei and Plasma Membrane Vesicles Isolated from Sea Urchin Embryos at Various Stages of Early Development

The ADP-ribosylations of proteins in nuclei, plasma membrane vesicles, mitochondria, microsome vesicles and the soluble fraction of sea urchin embryos isolated at various stages of development were examined by measuring the radioactivities of proteins after exposure of these subcellular fractions to [adenosine-¹⁴C]NAD or [adenylate-³²P]NAD. ADP-ribosylation of proteins was detected only in the nuclear and plasma membrane fractions. In the nuclear fraction, the rate of ADP-ribosylation of the histone fraction did not change appreciably during early development. In the TCA-insoluble protein fraction of the nuclei, the rate of ADP-ribosylation increased from fertilization to the morula stage, then decreased and again increased from the mesenchyme blastula to the late gastrula stage. After exposure of the nuclear fraction to [adenylate-³²P]NAD, a protein band with a molecular weight of 90 kDa was detected by SDS-polyacrylamide gel electrophoresis and radioautography at all stages examined. Its labeling intensity indicated that its ADP-ribosylation is higher at the morula and late gastrula stages than at other stages. In the plasma membrane fraction, proteins with molecular weights of 22 and 68 kDa were ADP-ribosylated and their rates of ADP-ribosylation hardly changed during early development.     

In Vitro Synthesis of Human Brain Proteins Including Tubulin and Actin by Purified Postmortem Polysomes

Abstract: Polysomes were prepared from human brain tissue 2-6 h postmortem; the polysomes were active in a cell-free protein synthesis system containing rabbit reticulocyte factors. Protein synthesis was totally dependent upon added MgCl₂, ATP, the reticulocyte factor fraction, and the human polysome fraction. Human brain proteins synthesized in the presence of L-[³⁵S]methionine were analyzed by one- and two-dimensional polyacrylamide gel electrophoresis. Over 250 proteins were synthesized and they extended in size up to 250,000 d; many of the most abundant native human brain proteins were synthesized, including tubulin and actin. It was shown that human brain α and β tubulin and actin isomers synthesized in vitro from human postmortem polysomes have the same apparent molecular weights and isoelectric points as the corresponding proteins synthesized by rat polysomes from fresh cortices. The corresponding tubulin and actin synthesized by human and rat brain polysomes also yield the same radioactive methionine-containing peptides after digestion with Staphylococcus aureus V8 protease. These analyses indicate that postmortem polysomes contain active messenger RNA which can direct the partial and/or complete synthesis of actin and tubulin subunits and other human brain proteins.     

Immunochemical studies of the mannans of Saccharomyces cerevisiae X2180-1A-5 and Saccharomyces cerevisiae 4484-24D-1 mutant strains, with special reference to their phosphate content.

The mannans from Saccharomyces cerevisiae mutant strains X2180-1A-5 and 4484-24D-1, both of which were shown to contain small amounts of phosphate (less than 0.2%), were fractionated on a column of diethylaminoethyl-Sephadex into five subfractions designated as fractions I to V. These subfractions contain different amounts of phosphate, ranging from 0.03 to 0.09 (strain X2180-1A-5) and from 0.01 to 0.17% (strain 4484-24D-1). Fractions I to IV from strain X2180-1A-5 showed nearly identical precipitin activities against the homologous anti-whole cell serum, whereas fraction V, containing the largest amount of phosphate and protein among this mannan subfraction series, showed unexpectedly weaker precipitin activity than those of the other fractions. A synthetic mannan consisting or consecutive alpha-1 leads to 6-linked D-mannopyranosyl residues was found to be cross-reactive with all the mannan subfractions of strain X2180-1A-5 against anti-X2180-1A-5 serum. On the other hand, antibody-precipitating activities of the mannan subfractions of the latter strain were proportional to their phosphate content, although the increments of precipitated antibody nitrogen among the subfractions were quite small. However, fraction V of this mannan subfraction series, containing the largest amounts of phosphate and protein, showed lower precipitin activity than did the other four fractions. These findings indicate that mannans containing no phosphate or relatively small amounts of phosphate, such as those investigated in the present study, are less heterogeneous in the densities of the branching moieties than are highly phosphorylated mannans. These findings suggest that the transfer step of mannosyl-1-phosphate into the precursor(s) of the wild-type strain mannans during the biosynthetic process corresponds to the key reaction responsible for the anionic heterogeneity due to the density heterogeneity of the antigenic determinants.     

RAPID TRANSPORT OF FUCOSYL GLYCOPROTEINS TO NERVE ENDINGS IN MOUSE BRAIN

Abstract— Mice were injected intracerebrally with mixtures of [³H]fucose and [¹⁴C]gluco-samine, and incorporation into macromolecules in various subcellular fractions of brain was studied at 1, 2, 3 and 4 h after administration of the precursors. There was a lag of several hours between the incorporation of [³H]fucose into the glycoproteins of the whole brain fractions and of that into the soluble and particulate glycoproteins of the nerve ending fractions. In contrast, no lag was observed between the incorporation of [¹⁴C]glucosamine into the macromolecules of the whole brain fractions and of that into the soluble macro-molecules of the nerve ending fraction. We conclude that fucosyl glycoproteins of the nerve ending fraction were synthesized in the nerve cell bodies and transported to nerve endings by rapid axoplasmic transport, whereas a substantial proportion of the glucosamine in the soluble macromolecules of the nerve ending fraction was incorporated by the nerve endings themselves. In addition, our evidence indicates that cyclobeximide inhibited fucose incorporation into brain glycoproteins by inhibiting the synthesis of acceptor proteins rather than fucosyl transferase.