Isolation and some chemical properties of oligodendroglia from calf brain

Abstract— The method of Norton and Poduslo (1970) for isolating brain cells has been adapted for the isolation of oligodendroglia from the white matter of calf brain. The cells were obtained in greater than 90 per cent purity, and in a yield of 11 × 10⁶ cells/g of white matter. This number of cells represented a recovery of 11 per cent of the total cells in the tissue and therefore a considerably higher recovery of the original number of oligodendroglia. The average cell contained 5, 2 pg of DNA, 2–0 pg of RNA and 6, 7 pg of lipid. The lipid comprised cholesterol, galactolipid (both cerebroside and sulphatide) and phospholipid in the molar ratio of 1:0, 45:2, 3. Gangliosides were present in a concentration similar to that found in isolated rat neurons, The myelin-specific enzyme, 2′, 3′-cyclic nucleotide 3′-phosphohydrolase, was present at a level nearly equal to that in myelin, and eight-fold higher than the levels in rat neurons or astrocytes. The isolated oligodendroglia differed considerably from isolated astrocytes in size, morphology and chemical composition.     

UDP-Galactose:Ceramide Galactosyl Transferase of Isolated Oligodendroglia

Abstract: The activity of UDP-galactose:ceramide galactosyl transferase (CGalT) has been studied in isolated oligodendroglia from bovine brain white matter and myelinating rat brain. The specific activity and activity per mg DNA are 4- and 10-fold higher in rat oligodendroglia compared with neuronal perikarya from rat brain, and is higher in oligodendroglia from myelinating rat brain compared with bovine oligodendroglia. In membranes isolated from oligodendroglia, the specific activity decreased in the order endoplasmic reticulum > plasma membrane > myelin.     

Isolation and characterization of bovine brain myelin distribution of 5′-nucleotidase

Myelin was isolated from bovine brain by several published procedures and modifications of these procedures. High activity of the myelin marker (2,3-cyclic nucleotide 3-phosphohydrolase) and low activity of contaminants markers in white matter homogenates in respect to cerebral cortex showed the white matter to be better than the cerebral cortex or the whole brain for myelin isolation. A procedure is described for the preparation of purified myelin from bovine white matter which yielded a content of protein (40%), myelin marker (51%), and 5-nucleotidase (25%) in purified myelin higher than by any used method. Acetylcholinesterase or succinate dehydrogenase was lower than 7% of its activity in the white matter homogenate, and monoamine oxidase and NADPH: cytochrome c reductase were not recovered in myelin fraction. Morphologically, myelin fraction was shown to mainly consist of multilamellar membranes of different sizes. Sodium dodecyl sulphate polyacrylamide gel electrophoresis of myelin fraction showed a characteristic protein pattern of myelin. When our procedure was applied to frozen white matter, lower protein (32%) and myelin marker (34%) and similar 5-nucleotidase activity (24%) were recovered in myelin, increasing its recovery in denser fractions of white matter.     

THE CHARACTERIZATION OF SPHINGOLIPIDS OF OLIGODENDROGLIA FROM CALF BRAIN

Abstract— Purified oligodendroglia isolated from bovine brain white matter were found to contain, in addition to galactosylceramide, sulfatide and sphingomyelin, significant quantities of glucosylcerai-mide, dihexosylceramide and esterified galactosylceramide. These sphingolipids were isolated and quan-titated and their fatty acid and long chain base patterns compared with those from sphingolipids isolated from bovine myelin, white matter and gray matter.
The minor glycosphingolipids, glucosylceramide, dihexosylceramide and esterified galactosylceramide, constituted a higher percentage of glial lipids than of myelin lipids. Glucosylceramide accounted for 12% of the total glial monohexosylceramide fraction and 0.8% of total lipids; dihexosylceramide was 0.9% of total glial lipids. Both of these lipids had small quantities of α-hydroxy fatty acids. The unsubstituted fatty acids of glucosylceramide were mostly short chain (16 and 18 carbons) and were different from those of the dihexosylceramides which were a mixture of short and long chain. The hydroxy acids of each of these lipids were, however, similar and resembled those of galactosylceramide.
The fatty acid patterns of galactosylceramide, sulfatide and sphingomyelin from glial cells resembled those of the corresponding lipids from myelin and white matter. The amide-linked acids of esterified galactosylceramide contained both unsubstituted and α-hydroxy chains. Their patterns were not identical to those of galactosylceramide, but were similar in all brain fractions.
With the exception of sphingomyelin and dihexosylceramide, which contained small amounts of C₂₀-sphingosine, all sphingolipids analyzed contained mostly sphingosine and dihydrosphingosine.
We conclude that the distribution of sphingolipids in the oligodendroglia is characteristic, but the lipophilic residues of these lipids are not cell-specific.     

Development of macroglial cells in rat cerebellum. II. An in situ immunohistochemical study of oligodendroglial lineage from precursor to mature myelinating cell

Using immunofluorescence with a panel of antibodies that recognize antigens expressed by oligodendroglia, the myelin-producing cells of the CNS, at different stages of differentiation from precursor to mature cell, we have investigated the development of cells of this lineage in cryostat sections of rat cerebellum. Our results are consistent with the view that glial precursors, identified by their expression of the ganglioside GD3, arise in the subependymal layers of the 4th ventricle and migrate to their final position in the cerebellum via the superior medullary velum, and to some extent the peduncles. As the cells reach their final destination they make the transition to recognizable galactocerebroside (GC)-expressing oligodendroglia, via a GD3+/GC+ intermediate. The myelin-associated protein 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP) appears at the same time as GC, whereas myelin basic protein (MBP) is expressed 2-3 days after GC and CNP, immediately prior to myelin formation. A very clear progression of oligodendroglial differentiation was observed from the SMV into the base of the cerebellum, up into the white matter (WM) tracts of the folia, and then away from this central white matter into the granule cell and Purkinje cell layers, and finally the molecular layer. The time delay between the expression of GC, CNP and MBP was the same for oligodendroglia in all of these layers, suggesting the presence of an intrinsic clock controlling the initial expression of these myelin components. The early appearance of CNP in oligodendroglia suggests a role for this protein in the early stages of myelinogenesis.     

Levels of sulfatide synthesis distinguish oligodendroglia in different stages of maturation

In the central nervous system, oligodendroglia elaborate extensive quantities of membranes to form the multilamellar myelin sheath. Whether the production of extensive networks of processes by oligodendroglia in culture is a similar type of phenomenon as the formation of myelin is an unanswered question. Rat oligodendroglia, prepared by a modification of a differential shaking and plating method, elaborate extensive processes in culture. In contrast, bovine oligodendroglia, obtained by a bulk-isolation method, produce whorls of membrane lamellae, adjacent to the cell soma. The incorporation of various radiolabeled substrates into specific lipids was compared with the two cell types. It was found that rat oligodendroglia do produce myelin specific lipids, but at a lower level than bovine oligodendroglia which are actively synthesizing myelin lipids, especially cerebrosides, from a variety of substrates. Interestingly sulfatides are produced at a higher level in the cells not producing myelin, rat oligodendroglia. Other lipids that are associated with myelination (cerebrosides with -hydroxy fatty acids and phosphatidylinositides) are produced at higher levels in bovine oligodendroglia. Thus it appears that the extension of processes by oligodendroglia in culture is a different phenomenon than the production of myelin membranes and requires lower levels of myelin lipids.     

STALOSYLGALACTOSYL CERAMTDE AS A SPECIFIC MARKER FOR HUMAN MYELIN AND OLIGODENDROGLIAL PERIKARYA: GANGLIOSIDES OF HUMAN MYELIN, OLIGODENDROGLIA AND NEURONS

Gangliosides were isolated from human brain myelin, oligodendroglia, and neurons. Quantitative analysis revealed the following ganglioside contents: myelin, 2.0; neurons, 1.3; and oligodendroglia, 0.35 μg ganglioside sialic acid per mg protein. Myclin had a relatively simple ganglioside pattern with G_M4 and G_M1 as the predominant ganglioside species. The ganglioside pattern of oligodendroglia was quite complex and it resembled that of whole white matter rather than that of myelin. A high concentration of G_M4 was found in oligodendroglial fractions in addition to G_M1, G_D1a, G_D1b, and G_T1b. The usually- minor brain gangliosides G_M3, G_M2, and G_M3 were also enriched in oligodendroglia. The neuronal ganglioside pattern was generally similar to the pattern of whole gray matter. Both neurons and whole gray matter contained very low amounts of G_M4. These results indicate that G_M4 is specifically localized in myelin and oligodendroglia of the CNS. Evidence is also presented that myelin, but not oligodendroglia, is the major reservoir of human white matter G_M1 and G_M4.     

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.     

DEVELOPMENTAL AND AGING CHANGES IN PROTEIN CONCENTRATION AND 2'',3''-CYCLIC NUCLEOSIDEMONOPHOSPHATE PHOSPHODIESTERASE ACTIVITY (EC 3.1.4.16) IN HUMAN CEREBRAL WHITE AND GRAY MATTER AND SPINAL CORD

Abstract— The concentration of protein as assayed by the Lowry method and the specific activity of 2′.3’-cyclic nucleosidemonophosphate phosphodiesterase (CNP), an enzyme characteristic of the myelin sheath, were determined in human CNS tissues obtained at autopsy from subjects ranging in age from 26 weeks gestation to 83 y. CNP activity in cerebral white matter samples was very low until approx 2 months of age when it increased rapidly, reaching near-adult levels by 2 y of age. CNP activity in adult (15–60 y) cerebral white matter was 8.1 ± 1.0 μmol/min/mg protein (mean ±s.d. ). The protein concentration of cerebral white matter increased from 64 mg/g wet tissue at 26 weeks gestation to adult levels (118.5 ± 10.0 mg/g wet tissue) by 16–18 months. CNP activity in cerebral gray matter was initially very low and showed only a small increase during development to adult values of approx 1.4 μmol/min/mg protein. In spinal cord, adult values (3.7 ± 0.56 μmol/min/mg protein) were found shortly after birth. The increase in CNP activity to near-adult values occurred earlier in cross-sections of cervical spinal cord than in cerebral white matter. The increase in spinal cord protein concentration showed a similar trend (adult values = 103.1 ± 9.5 mg/g wet tissue). The white matter protein concentration decreased significantly with age over the 15–83 y interval examined but the CNP specific activity in white matter did not. The protein concentration of the 61–83 y group was 8% lower than that of the 15–60 y group. The spinal cord protein concentration decreased significantly and the spinal cord CNP specific acitivity increased significantly with increasing time between death and sample freezing. The sex of the individual had no significant effect on any of the variables examined. The developmental curves obtained for these tissues are consistent with the hypothesis that CNP is an intrinsic myelin component in human CNS myelin. The marked increase in CNP activity in white matter coincides with the period of rapid myelin deposition as determined by other parameters. CNP activity may be useful as an index of myelination in human CNS tissues.     

Comparison of different myelin isolation methods by use of nonequilibriumpH gradient gel electrophoresis

Myelin was isolated from bovine white matter by five published procedures and several modifications of two of them. Comparison of the protein profiles of the preparations by nonequilibrium pH gradient gel electrophoresis, revealed clear differences in myelin protein content and composition between preparations obtained by different methods. In isolation methods where the medium contained salts, some of the myelin proteins were solubilized, the phenomenon being most pronounced in long-period isolations in buffered CsCl solution.     

Production of Monoclonal Antibody to 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase from Bovine Cerebral White Matter

Lewis rats were immunized with partially purified 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) from bovine cerebral white matter and the spleen cells were fused with cell of a mouse myeloma cell line (SP-2). The production of monoclonal antibody was detected by enzyme-linked immunoadsorbent assay, immunohistochemical staining of bovine cerebrum, Western blotting analysis, and CNPase binding assay. Monoclonal antibody that specifically binds CNPase molecules was obtained. However, the antibody did not suppress the enzyme activity. Western blotting analysis demonstrated that the monoclonal antibody binds both CNa (Wla) and CNb (Wlb). The monoclonal antibody was identified as being of the IgG2c subclass. Immunohistochemical examination revealed that the myelin sheath in the CNS was heavily stained with the monoclonal antibody in several species (bovine, mouse, rat, and human). In contrast, peripheral nervous system myelin was not stained even in bovine tissue. These results suggest that the monoclonal antibody obtained in the present study specifically recognizes the CNPase molecules in the CNS.     

Morphometric Analysis of Normal, Mutant, and Transgenic CNS: Correlation of Myelin Basic Protein Expression to Myelinogenesis

The neurological mutant mice shiverer (shi) and myelin deficient (shimld) lack a functional gene for the myelin basic proteins (MBP), have virtually no myelin in their CNS, shiver, seize, and die early. Mutant mice homozygous for an MBP transgene have MBP mRNA and MBP in net amounts approximately 25% of normal, have compact myelin, do not shiver or seize, and live normal life spans. We bred mice with various combinations of the normal, transgenic, shi, and shimld genes to produce mice that expressed MBP mRNA at levels of 0, 5, 12.5, 17.5, 50, 62.5, and 100% of normal. The CNS of these mice were analyzed for MBP content, tissue localization of MBP, degree of myelination, axon size, and myelin thickness. MBP protein content correlated with predicted MBP gene expression. Immunocytochemical staining localized MBP to white matter in normal and transgenic shi mice with an intensity of staining comparable to the degree of MBP gene expression. An increase in the percentage of myelinated axons and the thickness of myelin correlated with increased gene expression up to 50% of normal. The percentage of myelinated axons and myelin thickness remained constant at expression levels greater than 50%. The presence of axons loosely wrapped with oligodendrocytic membrane in mice expressing lower amounts of MBP mRNA and protein suggested that the oligodendroglia produced sufficient MBP to elicit axon wrapping but not enough to form compact myelin. Mean axon circumference of myelinated axons was greater than axon circumference of unmyelinated axons at each level of gene expression, further evidence that oligodendroglial cells preferentially myelinate axons of larger caliber.(ABSTRACT TRUNCATED AT 250 WORDS)     

Preservation of Oligodendroglial Cytoplasm in Cryopreservative-Pretreated Frozen White Matter

Abstract: Various cryoprotective agents [glycerol, dimethylsulphoxide, polyvinylpyrrolidone (PVP 40)], all dissolved in Krebs phosphate medium were tested for their effects on cytoplasmic preservation in oligodendroglia isolated from bovine white matter stored at -30°C. Of these agents, only PVP 40 (15% wt/vol) produced a significant improvement in recovery of oligodendroglial cytoplasm compared with untreated frozen brain. Cells isolated after PVP 40 pretreatment contained levels of membrane-bound enzymes similar to those found in cells isolated from fresh white matter. There was, however, some loss of soluble protein. Studies of galactocerebroside synthesis in neuronal and oligodendroglial perikarya have shown that the glial cells contain ceramide galactosyltransferase at much higher specific activity than the neurones.     

The Bulk Isolation of Oligodendroglia from Whole Rat Forebrain: A New Procedure Using Physiologic Media

Abstract: A method for the isolation of oligodendroglia from undissected rat forebrain is described. The method has been applied to brains from 10-, 30- and 60-day-old rats. The procedure uses a balanced salt solution at pH 7.2 throughout. Tissue is briefly exposed to trypsin and DNase and dissociated and the cells are purified on a discontinuous sucrose gradient. The isolates were composed of 90% phase-bright rounded cells having diameters after fixation of 7-12 μm. The contamination was primarily by red blood cells and phase-dark nuclei. Neurons and astroglia were lysed by the procedure. The method is reproducible and should be applicable to other ages of rat or to other species. The cells have been examined by light and electron microscopy and analyzed for protein and nucleic acids. None of the cell parameters measured, including total protein (58 pg/cell), varied significantly with age. With this new method it should be possible to carry out studies on the development and metabolism of oligodendroglia in small laboratory animals.     

D-aspartic acid in purified myelin and myelin basic protein

The presence of the biologically uncommon D-isomer of aspartic acid in the white matter of human brains has been reported previously from this laboratory (1). We now report that the level of D-aspartate in human brains is higher in purified myelin than in white matter and is even higher in the myelin basic protein fraction. There also appears to be a difference in the level of D-aspartate found in human brain as compared to bovine brain, possibly a species or age-related difference.     

The composition of the myelin proteins of the central nervous system

Abstract— The amino acid composition of human, monkey and bovine centrum ovale myelin, of bovine optic nerve myelin, and of bovine spinal cord white matter myelin has been determined. In general, the amino acid patterns of the centrum ovale myelin of these species and the optic nerve myelin are identical. Differences are noted when these are compared to the spinal cord white matter myelin. It is shown that the amino acid composition of myelin cannot be duplicated by any combination of the Folch–Lees proteolipid protein and the basic protein fraction of myelin. It is necessary to postulate the existence of a third protein fraction that is rich in dicarboxylic amino acids.     

Induction of cerebroside synthesis in oligodendroglia

Oligodendroglia function to produce myelin membranes which surround axons, enhancing saltatory conduction. Myelin consists of a multitude of condensed membranes which are rich in lipids with the major glycolipids, cerebrosides, being 25% of the total lipid. Thus a fully differentiated oligodendroglial cell that is producing myelin membranes would be actively synthesizing cerebrosides. Our laboratory has prepared and analyzed oligodendroglia from mature bovine brain, from neonatal rat brain, and from actively myelinating rat brain. Our studies suggest that the rat oligodendroglia in our culture systems are less differentiated than bovine cells in that they produce lower levels of cerebrosides. Addition of glucocorticoids, thyroid hormone, or retinoic acid all increased synthesis of cerebrosides in rat oligodendroglia. Ketone bodies were also somewhat stimulatory. Having no effect or causing dedifferentiation of the cells were 5-azacytidine and phorbol esters. Thus induction of cerebroside synthesis in oligodendroglia is complex and may involve many factors.     

Isolation of 2'',3''-Cyclic Nucleotide 3''-Phosphodiesterase from Human Brain

Abstract: The enzyme 2',3'-cyclic nucleotide 3'-phosphodiesterase (EC 3.1.4.37) has been isolated from an acetone powder of human subcortical white matter. The yield was about 11 mg from 28 g of powder and a specific activity of 213 unitdmg protein was obtained using 2',3'-cyclic CMP as the substrate. A major protein band of molecular weight approx. 96,000 was found by gel electrophoresis under nonreducing conditions. However, two distinct protein bands of molecular weight 46,000 ± 1400 and 48,000 ± 1400 were observed when the protein sample was reduced with 10 mM-dithiothreitol and subjected to electrophoresis in more restrictive 12-15% polyacrylamide-SDS gels. This molecular weight is lower than that previously reported for the bovine enzyme. Antibodies against the purified human enzyme have been raised in New Zealand white rabbits.     

Soluble and bound acid protease activity of myelin from bovine cerebral white matter and spinal cord

Isolated myelin of bovine spinal cord was found to degrade exogenous myelin basic protein (MBP) at pH 4.4. Electrophoretic peptide patterns were consistent with limited proteolysis of MBP. Some of the proteolytic activity was soluble at increased ionic strength, some remained bound, withstanding extraction at 37°C for up to 12 hr. While being measurable with exogenous MBP, bound protease degraded neither bound MBP nor any other major intrinsic myelin protein. Both soluble and bound protease activity was completely inhibited by pepstatin A. The patterns of limited proteolysis of MBP they produced were identical. Myelin of cerebral white matter also exhibited soluble and bound acid protease activity which was likewise inhibited by pepstatin A. Protease activity of spinal cord and cerebral myelin is therefore suggested to be due to a cathepsin D-like endopeptidase, present in a loosely and tightly bound form. Both forms increased by 50 to 80% in activity when myelin was isolated from mixtures of white and cortical gray matter. While increased soluble activity of myelin is consistent with binding of cathepsin D of lysosomal origin during the isolation of myelin the tightly bound form might point to a principal mechanism through which exogenous proteins may become attached to the myelin sheath in vivo.