Immunochemical evidence of phosphorylation of a new 23K basic protein in rat brain myelin

Myelin from developing rat brain (8–44 day-old rat) was incubated in vitro with [-³²P]ATP to determine how many basic proteins were phosphorylated. Myelin proteins were separated by polyacrylamide gel electrophoresis and transferred to nitrocellulose sheets. The nitrocellulose sheets were stained with antisera to human basic protein by the immunoblot technique. Five basic proteins with molecular weights of 23K, 21.5K, 18.5K, 17K, and 14K were distinctly immunostained. These basic proteins were found to be phosphorylated when the same nitrocellulose sheets were exposed to x-ray film. The in vitro phosphorylation of 23K and 21.5K basic proteins appear to decrease with maturation of the brain. The result of this study suggests that intense phosphorylation of various forms of basic proteins, in particular 23K and 21.5K basic proteins, during the initial stages of myelin formation, may play a pivotal role in the compaction of myelin membrane.     

The distribution of myelin basic protein in subcellular fractions of developing Jimpy mouse brain.

Abstract— The amount of myelin basic protein in jimpy mutants and unaffected littermates was measured by radioimmunoassay during the period of most active myelination (11-21 days). This protein was examined in whole brain homogenates and in four subcellular fractions (nuclear, 900 g pellet; heavy membrane, 11,500 g pellet; microsomal, 100,000 g pellet; and cytosol, 100,000g supernatant solution). At all ages examined, the mutants, which have very little myelin in the CNS, had only about 2% the amount of basic protein found in controls. As expected, the amount of myelin basic protein increased 4-fold in the control animals during the developmental period studied. This was not the case in the jimpy mutants, where little increase in the whole brain basic protein was observed. In the jimpy mutants, all of the fractions had significantly less basic protein than control fractions, except the cytosol, where the amounts of basic protein were similar in controls and mutants. These results are discussed with respect to possible mechanisms of myelination and the site of the genetic lesion.     

Expression of myelin basic protein gene in the developing rat brain as revealed by in situ hybridization

The developmental program controlling the expression of myelin basic protein (MBP) gene was studied in the rat using the technique of in situ hybridization. A 35S-labeled cDNA clone of mouse MBP encoding an amino acid sequence present in all four of the major forms of rodent MBP was used. The probe hybridized to the tracts of white matter with different intensities, depending on the age of the animal and the region of the brain examined. In the medulla oblongata, maximal hybridization was found in 5- and 7-day-old rats and was confined to the tectospinal tracts, fibers of the seventh cranial nerve, and the spinocerebellar tracts. By 12 days the amount of MBP mRNA had decreased in these areas. In the cerebrum, the greatest amount of MBP mRNA was observed in 17-day-old rats in the radiations of the corpus callosum. Thereafter, the levels decreased but could still be observed in the adult animals. Thus, using this technique, we have been able to demonstrate that the level of MBP-specific mRNA correlates closely with the development of myelin in different regions of the brain.     

Immunochemical comparisons among myelin basic proteins.

1. The relationships among myelin encephalitogenic or basic proteins were immunochemically examined. 2. Rabbit antisera to myelin basic proteins isolated from chicken, rabbit, bovine, guinea-pig, and human brain specimens were prepared. By quantitative microcomplement fixation these rabbit antisera were used to measure cross-reactions among the myelin basic proteins of the turtle, chicken, rat, rabbit, cow, pig, sheep, dog, guinea-pig, monkey and human. 3. A spectrum of cross-reactivities was detected even though some cross-reactivity persisted across major phylogenetic barriers. Varying, but sometimes marked, differences existed in reactivities of the small and large basic proteins of the rat. Reciprocity of cross-reactivities among basic proteins was inconstant. 4. This study demonstrates the range of immunochemical cross-reactivities among myelin basic proteins and the sensitivity of quantitative microcomplement fixation in assessing such antigenic or conformational differences.     

Synthesis of myelin basic proteins in the developing mouse brain.

Mice ranging in age from 14 to 39 days were injected intracerebrally with [³H]lysine and rates of incorporation of the isotope were measured into total trichloroacetic acid-precipitable protein and purified myelin basic proteins (MBPs). MBPs were isolated by O-(carboxymethyl)-cellulose chromatography of pH 3 extracts prepared from chloroform-methanol insoluble residues of whole brains. The MBPs prepared in this fashion were further separated by polyacrylamide gel electrophoresis. The gels were sliced and the radioactivity incorporated into each of the two proteins was determined. Analysis of the rates of synthesis of the two basic proteins (using a 2-h labeling period) as a function of age revealed that synthesis of both proteins appeared to peak at about 18 days of age in the mouse. These data suggest that the maximum rate of MBP synthesis coincides with the age of maximal myelin deposition in the mouse. Furthermore the relative rates of synthesis of L and S changed considerably over the developmental period examined. It was observed that the ratio of the rates of synthesis of the small:large basic protein (S/L) increased by approximately 50% between 2 and 4 weeks and declined thereafter. Throughout the developmental period examined, however, the small basic protein appeared to be synthesized at a greater rate than the large protein. The latter data are consistent with previous observations by us and other workers that mouse and rat myelin becomes increasingly enriched in the small relative to the large basic protein with maturation of the membrane.     

Direct measurement of inositol in bovine myelin basic protein.

Myelin basic protein has been isolated from bovine central-nervous-system myelin by four methods, none of which exposes the protein to acid. After purification the inositol content of both hydrolysed and unhydrolysed protein was quantified by g.c.-m.s. Basic protein prepared by all methods contained less than 4 mol % of inositol. It is concluded, contrary to a previous proposal, that covalent binding to phosphoinositides does not represent a general mechanism for attachment of this cytoplasmically-oriented protein to its membrane.     

Phosphoprotein phosphatases for myelin basic protein in myelin and cytosol fractions of brain.

Phosphoprotein phosphatase (phosphoprotein phosphohydrolase EC 3.1.3.16) activity for myelin basic protein was found to be present in the myelin fraction of rat brain. The enzyme activity was in a latent form and solubilized by 0.2% Triton X-100 treatment with about 50% increase of activity. The cytosol fraction from bovine brain also had phosphoprotein phosphatase activity for myelin basic protein, which was resolved into at least two peaks of activity on DEAE-cellulose column chromatography. Myelin basic protein was the best substrate for both the solubilized myelin fraction and the cytosol enzymes among the substrate proteins tested. The Km values of the solubilized myelin fraction were 4.2 muM for myelin basic protein, 7.4 muM for arginine-rich histone, 8.0 muM for histone mixture and 14.3 muM for protamine, respectively.     

Amino acid sequence of the smaller basic protein from rat brain myelin

1. The complete amino acid sequence of the smaller basic protein from rat brain myelin was determined. This protein differs from myelin basic proteins of other species in having a deletion of a polypeptide of 40 amino acid residues from the centre of the molecule. 2. A detailed comparison is made of the constant and variable regions in a group of myelin basic proteins from six species. 3. An arginine residue in the rat protein was found to be partially methylated. The ratio of methylated to unmethylated arginine at this position differed from that found for the human basic protein. 4. Three tryptic peptides were isolated in more than one form. The differences between the two forms of each peptide are discussed in relation to the electrophoretic heterogeneity of myelin basic proteins, which is known to occur at alkaline pH values. 5. Detailed evidence for the amino acid sequence of the protein has been deposited as Supplementary Publication SUP 50029 at the British Library (Lending Division) (formerly the National Lending Library for Science and Technology), Boston Spa, Yorks. LS23 7BQ, U.K., from whom copies may be obtained on the terms given in Biochem. J. (1973) 131, 5.     

Purification of myelin basic protein from bovine brain

Myelin basic protein (MBP) is a commonly used substrate for in vitro determination of numerous protein kinase activities. Herein we describe a rapid method for isolating relatively large amounts of MBP from bovine brain with a purity greater than that currently available from commercial sources. Lipids were first extracted from the CNS tissue by homogenization in sec-butanol. Washes under neutral and mildly basic conditions were employed to remove neutral and acidic proteins from the defatted residue. MBP was subsequently extracted under acidic conditions and further purified by chromatography on CM Sephadex C-25. Potential contaminating enzyme activities were destroyed by heart treatment. This method typically yields a recovery of 1.0-1.5 mg MBP per gram of starting material with a purity of greater than 95%. The MBP prepared in this manner was suitable for determination of kinase activities by both solution and the "in gel" kinase assay systems.     

Expression of myelin protein genes in the developing brain

The major myelin proteins fall into two classes, the basic proteins and the proteolipid proteins. In mice, five forms of the myelin basic protein (MBP) have been identified with apparent molecular masses of 21.5 kD, 18.5 kD, 17 kD and 14 kD. The 17 kD MBP variant consists of two molecular forms with similar molecular masses but different amino acid sequences. Cell-free translation studies and analyses of MBP cDNAs have shown that each of the MBP variants is encoded by a separate mRNA of approximately 2 000 bp. The five mouse MBP mRNAs appear to be derived by alternative splicing of exons 2, 5, and 6 of the MBP gene. cDNAs encoding four forms of MBP have been isolated from a human fetal spinal cord library. The mRNAs corresponding to these cDNAs are probably derived by alternative splicing of exons 2 and 5 of the human MBP gene. Proteolipid protein (PLP) cDNAs have been isolated from several species and used to establish that the size of the major PLP mRNA is approximately 3 kb. Multiple size classes of the PLP mRNAs exist in mice and rats whereas the 3 kb mRNA is the predominant form in the developing human spinal cord. In normal mice, maximal expression of the PLP gene lags behind that of the MBP gene by several days. Studies on dysmyelinating mutants have determined some of the molecular defects with respect to these two classes of myelin proteins. For example, there is a deletion of a portion of the MBP gene in the shiverer mutant. In the quaking mutant, the expression of both classes of myelin proteins is significantly reduced prior to 3 weeks. However, after 3 weeks, MBP expression approaches normal levels but the newly synthesized protein fails to be incorporated into myelin. In the jimpy mutant, although the expression of both classes of proteins is reduced, PLP expression is most severely affected.     

Processing techniques for the demonstration of myelin basic protein in paraffin-embedded optic nerve: an immunoperoxidase study of the developing albino rat

A comparison was made of the effects of various fixation and processing conditions upon the antigenicity of myelin basic protein (MBP) in sections of paraffin-embedded optic nerve from the developing albino rat as judged by the unlabeled peroxidase-antiperoxidase technique. The fixatives used were: Perfix, 4% and 2% buffered paraformaldehyde (pH 7.4), 10% buffered formalin (pH 7.4); Bouin's, Clark's, and Carnoy's fixatives, and 20% formalin in a solution of HgCl2 that had been saturated at 1 degrees C. Perfix appeared to be the best fixative for the preservation of morphology and MBP antigenicity during the early stages of myelinogenesis but was not satisfactory during the later stages. The buffered aldehydes were slightly more destructive of MBP antigenicity than was Perfix, but they produced satisfactory results following the first postnatal week. Bouin's fixative was similar in effect to the buffered aldehydes, but nonspecific background staining was higher. HgCl2/formalin, Clark's and Carnoy's fixatives were unsuitable. No differences were noted in staining between material processed for embedding using 5, 30, or 60 min schedules.     

Developmental regulation of myelin basic protein expression in mouse brain

Developmental regulation of myelin basic protein expression in mouse brain has been examined by comparing the myelin basic protein coding potential of mRNA in vitro with the accumulation of myelin basic protein-related polypeptides in vivo. In vitro translation of mRNA isolated from mouse brain generated eight myelin basic protein-related polypeptides with apparent molecular weights of 34K, 30K, 29K, 26K, 21.5K, 18.5K, 17K, and 14K. A similar set of eight myelin basic protein-related polypeptides with corresponding molecular weights was identified in vivo when total brain proteins were analyzed by immunoblotting. Each of the myelin basic protein-related polypeptides shows a characteristic developmental profile in terms of mRNA level and rate of accumulation implying a complex developmental program of myelin basic protein gene expression with regulation and modulation at several different biosynthetic levels.     

Effect of phenylalanine on protein synthesis in the developing rat brain

1. Inhibition of the rate of incorporation of [(35)S]methionine into protein by phenylalanine was more effective in 18-day-old than in 8-day-old or adult rat brain. 2. Among the subcellular fractions incorporation of [(35)S]methionine into myelin proteins was most inhibited in 18-day-old rat brain. 3. Transport of [(35)S]methionine and [(14)C]leucine into the brain acid-soluble pool was significantly decreased in 18-day-old rats by phenylalanine (2mg/g body wt.). The decrease of the two amino acids in the acid-soluble pool equalled the inhibition of their rate of incorporation into the protein. 4. Under identical conditions, entry of [(14)C]glycine into the brain acid-soluble pool and incorporation into protein and uptake of [(14)C]acetate into lipid was not affected by phenylalanine. 5. It is proposed that decreased myelin synthesis seen in hyperphenylalaninaemia or phenylketonuria may be due to alteration of the free amino acid pool in the brain during the vulnerable period of brain development. Amyelination may be one of many causes of mental retardation seen in phenylketonuria.     

Phosphorylation sites of bovine brain myelin basic protein phosphorylated with Ca2+-calmodulin-dependent protein kinase from rat brain

The phosphorylation sites of myelin basic protein from bovine brain were determined after phosphorylation with Ca2+-calmodulin-dependent protein kinase. Four phosphorylated peptides were selectively and rapidly separated by reversed-phase high-performance liquid chromatography. Partial sequencing of the phosphorylated peptides by automated Edman degradation revealed that Ca2+-calmodulin-dependent protein kinase phosphorylated serine-16, serine-70, and threonine-95 specifically, as well as serine-115, which is located on the experimental allergic encephalitogenic determinant of the protein. Of the four amino acid sequences determined, two sequences surrounding phosphorylated amino acids, -Lys-Tyr-Leu-Ala-Ser(P)16-Ala- and -Arg-Phe-Ser(P)115-Trp-Gly-, have both sides of each phosphoserine residue occupied by hydrophobic amino acids, and a basic amino acid, arginine or lysine, is located at the position 2 or 4 residues amino-terminal to the phosphoserine residue. In contrast, the two other sequences surrounding phosphorylated amino acids, -Tyr-Gly-Ser(P)70-Leu-Pro-Glu-Lys- and -Ile-Val-Thr(P)95-Pro-Arg-, have a basic amino acid at the position 2 or 4 residues carboxyl-terminal to the phosphoamino acid residue.     

Phosphorylation in vivo of four basic proteins of rat brain myelin

When rat brain myelin was examined by sodium dodecyl sulphate/polyacrylamideslab-gel electrophoresis followed by fluorography of the stained gel, it was found that a host of proteins of rat brain myelin were labelled 2, 4 and 24h after the intracerebral injection of H₃³²PO₄. Among those labelled were proteins migrating to the positions of myelin-associated glycoprotein, Wolfgram proteins, proteolipid protein, DM-20 and basic proteins. The four basic proteins with mol.wts. 21000, 18000 (large basic protein), 17000 and 14000 (small basic protein) were shown to be phosphorylated after electrophoresis in both acid-urea- and sodium dodecyl sulphate-containing gel systems followed by fluorography. The four basic proteins imparted bluish-green colour, after staining with Amido Black, which is characteristic of myelin basic proteins. The four basic proteins were purified to homogeneity. Fluorography of the purified basic proteins after re-electrophoresis revealed the presence of phosphorylated high-molecular-weight `polymers' associated with each basic protein. The amino acid compositions of the phosphorylated large basic protein and small basic proteins are compatible with the amino acid sequences. Proteins with mol.wts. 21000 and 17000 gave the expected amino acid composition of myelin basic proteins. Radiolabelled phosphoserine and phosphothreonine were identified after partial acid hydrolysis of the four purified basic proteins. The [³²P]phosphate–protein bond in the basic protein was stable at an acidic pH but was readily hydrolysed at alkaline pH, as would be expected of phosphoester bonds involving both serine and threonine residues. Double-immunodiffusion analysis demonstrated that the four phosphorylated proteins showed complete homology when diffused against antiserum to a mixture of small and large basic proteins. Since the four basic proteins of rat brain myelin were phosphorylated both in vivo and in vitro it is postulated that the same protein kinase is responsible for their phosphorylation in both conditions.