PROTEIN COMPOSITION OF MYELIN OF THE PERIPHERAL NERVOUS SYSTEM

Abstract— Myelin was purified from the peripheral nervous system (PNS) of several species. The protein composition of these preparations was examined by discontinuous polyacrylamide gel electrophoresis in buffers containing sodium lauryl sulphate. Proteins characteristic of all samples include, in order of increasing mobility: a series of high molecular weight proteins, the major peripheral nerve protein (P₀), two uncharacterized proteins, and two basic proteins (P₁ and P₂). Quantitative results, obtained by densitometry of gels stained with Fast Green showed differences in protein distribution, both between species, and from different types of nerves obtained from the same animal. The relative amounts of P₁ and P₂ proteins were the most variable; e.g. myelin from guinea-pig sciatic nerve had little or no P₂ protein, whereas 15 per cent of the myelin protein of beef posterior intradural root was Pz protein. P₀, P₁ and P₂ proteins from rabbit sciatic nerve and P₀ and P₂ proteins from beef dorsal and ventral intradural roots were purified and their amino acid compositions were determined. Our results indicated that the P₁ protein is very similar in size and amino acid composition to the basic protein of central nervous system myelin, whereas the P₀ and P₂ proteins are unique to the PNS.     

MYELIN SYNTHESIS IN VITRO: A COMPARATIVE STUDY OF CENTRAL AND PERIPHERAL NERVOUS TISSUE

Abstract— Brain, spinal cord and sciatic nerve from rats at different ages were incubated for 2 h in a medium containing [¹⁴C]acetate and [¹⁴C]leucine as the precursors for synthesis of lipids and proteins. Myelin was purified from the incubated tissues and the specific and total radioactivites of myelin lipids and protein were determined. The uptake of radioactive precursors decreased with increasing age up to 6 months of postnatal age, the decrease following the same pattern for the three types of myelin. After age 6 months the uptake of the protein and lipid precursors reached a plateau that persisted up to 18 months, the oldest postnatal age studied. The amount of myelin isolated and the total myelin lipids extracted from both the central and peripheral nervous systems increased continuously from age 25 days to 18 months after birth. Consequently we suggest that myelination is a process that continues during the whole life of the rat.
The metabolic activity of peripheral nerve myelin was higher than myelin from the CNS at all ages studied. Although myelination in the sciatic nerve begins before that in brain and spinal cord, the three types of myelin apparently reach maturity at the same age. Lecithin exhibited the highest metabolic activity of the individual myelin lipids at all ages in both the central and peripheral nervous system. The metabolic activity of cholesterol in myelin from the 25-day-old rats was similar to that of lecithin but decreased to very low levels in myelin from the 18-month-old rats.     

Basic proteins of rodent peripheral nerve myelin: immunochemical identification of the 21.5K, 18.5K, 17K, 14K, and P2 proteins

Abstract: Proteins in peripheral nervous system and central nervous system myelin and homogenates of sciatic nerve and brain from young and adult mice and rats were characterized with affinity-purified anti-P₂ and anti-myelin basic protein sera after electrophoretic transfer from sodium dodecyl sulfate-polyacrylamide gels to nitrocellulose sheets. Using this method we have identified a component of rodent peripheral nervous system myelin as P₂ protein. Peripheral nervous system myelin also showed the presence of four basic proteins in addition to P₂ protein. These were found to be analogous to the 14, 17, 18.5, and 21.5K species found in the central nervous system myelin. A number of high-molecular-weight proteins were also detected with anti-myelin basic protein serum in peripheral nervous system, as well as central nervous system myelin. In addition, we report the presence of a high-molecular-weight P₂ cross-reactive protein in rodent brain stem homogenates, but not in central nervous system myelin.     

Phosphorylation and Fucosylation of Myelin Protein In Vitro by Sciatic Nerve from Developing Rats

Abstract: Proteins of the paniculate fraction of sciatic nerve of rats ranging from 1 to 55 days of age were analyzed by polyacrylamide gel electrophoresis. The major myelin protein, P₀, could not be detected at 1 day of age, but by 10 days it comprised from 15 to 20% of the particulate protein, the same proportion as in adult rats. Growth of nerve continued throughout the period studied. Rat sciatic nerves were incubated with [³²P]orthophosphate or [³H]fucose. Particulate matter proteins from sciatic nerve (and in certain cases proteins of myelin purified from sciatic nerve) were separated by polyacrylamide disc gel electrophoresis and the distribution of protein and of radioactivity along the gels was determined. [³²P]Phosphate appeared to label all myelin proteins. Labeling with fucose was more specific; myelin basic proteins were not fucosylated. A developmental study showed that sciatic nerves from 2-day-old rats could incorporate radioactive fucose and [³²P]-phosphate into several proteins at the P₀ region of polyacrylamide gels. Specific radioactivity of [³H]fucose in P₀ protein was highest in preparations from 5-day-old rats and declined by 80% over the next 5 days as it was diluted by accumulating myelin. The specific radioactivity of incorporated [³²P] phosphate was high at the early age points and declined as a result of the accumulation of compact myelin. The results indicate an association of fucosylation and/or phosphorylation with some step in the formation of myelin.     

COMPARISON OF THE FATTY ACIDS OF LIPIDS OF SUBCELLULAR BRAIN FRACTIONS

Abstract— Rat brain grey and white matter were fractionated to yield myelin, nerve terminal, synaptic vesicle, nerve terminal 'ghost', and microsomal fractions of white and grey matter. Ester-type glycolipids were found in all fractions except myelin, while cerebrosides occurred in significant concentrations only in myelin and white microsomes. Comparison of the fatty acid profile of the ethanolamine- and serine-containing phospholipids showed marked differences between myelin and the particles from grey matter, while the microsomes of white matter were of intermediate composition. Docosahexaenoic acid, a minor acid in myelin, was a major fatty acid in microsomes of grey and white matter. The fatty acid composition of sphingomyelin was distinctly different in the fractions derived from grey and white matter, clustering about stearate and nervonate in the latter, but only about stearate in the grey. Marked differences in the positional distribution of fatty acids were seen within phosphatidyl choline from myelin and nerve terminals. Ribonucleic acid was found in nerve terminal and synaptic vesicle fractions. The sphingosine found in the ganglioside from microsomes of both grey and white matter was similar with respect to distribution of the C₁₈ and C₂₀ homologues.
The possibility is discussed that microsomes furnish characteristic lipids for the synthesis or renewal of specific membranes, and that these lipids are accumulated somewhat before being released.     

Free Fatty Acid Composition of Human and Rat Peripheral Nerve

Abstract: The free fatty acid (FFA) composition of peripheral nerve resembles that of erythrocytes but the composition of both is different from that of brain and other tissues. Approximately 75% of FFAs of nerve and erythrocytes are saturated and <5% are polyunsaturated whereas in brain and other tissues, 30-45% of FFAs are saturated and 25-50% are polyunsaturated. Approximately 10-15% of the total FFA of nerve have very long chain lengths [C₂₄, C₂₆, C₂₈, and C₃₀]. The presence of these very long-chain FFAs in endoneurium cannot be accounted for by the retention of erythrocytes or by lipid degradation. During Wallerian degeneration a significant increase of 18:1, associated with a decrease of saturated FFAs, was found in rat sciatic endoneurium, but normal values were approached when fiber regeneration was well under way. The FFA composition with chain length ≥C₂₆ were not, however, significantly altered with degeneration or repair of nerves. The metabolic significance of this striking difference between nerve and brain FFA composition is unknown but may reflect different functional properties.     

The PO Protein of Chick Sciatic Nerve Myelin: Purification and Partial Characterization

Abstract: The PO protein of the myelin of chick sciatic nerve was isolated and purified by propanoic acid extraction of peripheral nervous system (PNS) myelin, delipidation, Sepharose CL-6B chromatography in the presence of sodium dodecyl sulfate (SDS), and preparative SDS-polyacrylamide gel electro-phoresis (PAGE). Approximately 15% of the PO protein in the sciatic nerve myelin was recovered in a homogeneous state. The purified protein monomer has an apparent molecular weight of 32.1K as determined by gel electrophoresis. The PO protein undergoes extensive aggregation during exhaustive dialysis and freeze-drying and yields stable dimers, trimers, and tetramers. The aggregation of the PO protein after freeze-drying is independent of the presence of a reducing agent (2-mercaptoethanol) in the solubilizing medium. The PO protein is a glycoprotein. The amino acid composition of the chick PO protein indicates a definite species difference when compared with mammalian PO proteins although the NH₂-terminal isoleucine residue seems to have been retained during evolution.     

Connexin43 Is Another Gap Junction Protein in the Peripheral Nervous System

Abstract: That many cells express more than one connexin (Cx) led us to examine whether Cxs other than Cx32 are expressed in the PNS. In addition to Cx32 mRNA, Cx43 and Cx26 mRNAs were detected in rat sciatic nerve by northern blot analysis. Cx43 mRNA, but not Cx26 mRNA, was expressed in both the primary Schwann cell culture and immortalized Schwann cell line (T93). The steady-state levels of the Cx43 mRNA in the primary Schwann cell culture increased 2.0-fold with 100 µ M forskolin, whereas that of P₀ increased 7.0-fold. Immunoreactivity to Cx43 was detected on western blots of cultured Schwann cells, T93 cells, and sciatic nerves but not on blots of PNS myelin. Immunohistochemical study using human peripheral nerves revealed that anti-Cx43 antibody stained cytoplasm around nucleus of Schwann cells but not myelin, confirming western blot results. Although P₀ expression was markedly decreased by crush injury of the sciatic nerves, Cx43 expression showed no apparent change. Developmental profiles showed that Cx43 expression in the sciatic nerve increased rapidly after birth, peaked at about postnatal day 6, and then decreased gradually to a low level. In adult rats, the Cx43 mRNA value was much lower than that of Cx32. These findings suggest that Cx43 is localized in Schwann cell bodies and that, compared with P₀, its expression is less influenced by axonal contact and cyclic AMP levels. The high expression on postnatal day 6 indicates that Cx43 may be related to PNS myelination. Cx43 is another gap junction, but its function appears to differ from that of Cx32, as judged by the differences in their localization and developmental profiles.     

ACCELERATION OF CHOLINE UPTAKE AFTER DEPOLARIZATION-INDUCED ACETYLCHOLINE RELEASE IN RAT CORTICAL SYNAPTOSOMES

Abstract— Activation of nerve elements in vivo and in vitro is associated with an increased rate of choline uptake by a Na⁺-dependent high affinity transport system. Following the methodology of B arker (1976), rat cortical synaptosomes were depolarized (37°C, 10min) by 25mM-KCl in the presence of CaCl₂ (1 mM) or other divalent cations. After reisolation by centrifugation, the rate of ³H-choline uptake (1.25μM) was measured by Millipore filtration. KCl treatment alone failed to accelerate the rate of uptake in the reisolated synaptosomes. CaCl₂, BaC1₂ or SrCl₂ (but not MgCl₂ or MnCl₂) were necessary (1 mM) to observe the KCl induced acceleration. Moreover, RbCl, but not LiCl or CsCl, also produced the calcium-dependent rate enhancement in the reisolated synaptosomes. The conditions mediating the enhanced rate of choline uptake correlated strongly with those associated with neurotransmitter release. To test this possibility, synaptosomal acetylcholine content was measured in response to the various salt treatments. Treatment with KCI (25 mM) and CaCl₂ (1 mM), but not KCl alone, reduced the synaptosomal acetylcholine content from 154 to 113pmol/mg protein. The respective rates of choline uptake increased about 60%. The increased rate was reversed by incubation with 50 μM-choline followed by synaptosome reisolation. This procedure also normalized the acetylcholine content. In summary, the rate of choline uptake by the high affinity choline uptake system is inversely related to the synaptosomal acetylcholine content.     

STUDIES ON THE CDP-ETHANOLAMINE-1,2-DIGLYCERIDE ETHANOLAMINEPHOSPHOTRANSFERASE OF RAT BRAIN

Abstract— The ethanolaminephosphotransferase (EC 2.7.8.1) of rat brain is found largely in the microsomal fraction and is active towards both diacyl glycerol and alkenyl acyl glycerol. Manganese ions were found to be more effective activators of the enzyme than magnesium ions at low concentrations. The K_m for CDP-ethanolamine was found to be about 2.5 × 10⁻⁴ M in the presence of either lipid acceptor and the K _m for the two lipid acceptors about 1.6 × 10⁻³ M. Under the most favourable conditions rates of 270 nmol phosphatidylethanolamine and 70 nmol ethanolamine plasmalogen/mg microsomal protein/h at 39°C were obtained. The effect of temperature on the reaction rate depended on whether diacyl glycerol or alkenyl acyl glycerol was the lipid acceptor. Although diacyl glycerol inhibited the formation of ethanolamine plasmalogen the inhibition was not a simple competitive one. In terms of microsomal protein the activity was maximal during the period of active myelination but at3 days and 150 days of ageitwasat least 50 percent of this maximal activity.     

THE EFFECTS OF UNDERNUTRITION ON THE PROTEINS OF OPTIC AND SCIATIC NERVES DURING DEVELOPMENT

Abstract— Polyacrylamide gel electrophoresis has been used to assess the appearance of some optic and sciatic nerve proteins in normal developing rats and in undernourished rats. Of the myelin proteins, the'Wolfgram'proteolipid is already present about the time myelination begins. The basic myelin proteins appear later, first in sciatic and then in optic nerve. A non-myelin basic protein, assumed to be a histone, is present at high levels in both nerves before myelination begins. There is no apparent effect of undernutrition on the appearance and amount of myelin proteins at 12, 16 and 22 days of age. The'histone'protein is reduced in optic and sciatic nerves at times corresponding roughly to the transition periods from cellular proliferation to myelin formation. The possibilities are discussed that myelin basic proteins are synthesized as compact myelin formation occurs, and that there may be retarded cellular proliferation in nerves of undernourished rats.     

Does calcium ameliorate the negative effect of NaCl on melon root water transport by regulating aquaporin activity?

The hydraulic conductance ( L ₀) of detached, exuding root systems from melon ( Cucumis melo cv. Amarillo oro) was measured. All plants received a half-strength Hoagland nutrient solution, and plants stressed either solely with NaCl (50 mM) or with NaCl (50 mM) following treatment (2 d) with CaCl₂ (10 mM) were compared with controls and CaCl₂-treated (10 mM) plants. The L ₀ of NaCl-treated plants was markedly decreased when compared to control and CaCl₂-treated plants, but the decrease was smaller when NaCl was added to plants previously treated with CaCl₂. A similar effect was observed when the flux of Ca²⁺ into the xylem and the Ca²⁺ concentration in the plasma membrane of the root cells were determined. In control, CaCl₂- and NaCl + CaCl₂-treated plants, HgCl₂ treatment (50 μM) caused a sharp decline in L ₀ to values similar to those of NaCl-stressed roots, but L ₀ was restored by treatment with 5 mM DTT. However, in NaCl roots only a slight effect of Hg²⁺ and DTT were observed. The effect of all treatments on L ₀ was similar to that on osmotic water permeability ( P _f) of individual protoplasts isolated from roots. The results suggest that NaCl decreased the passage of water through the membrane and roots by reducing the activity of Hg-sensitive water channels. The ameliorative effect of Ca²⁺ on NaCl stress could be related to water-channel function.     

CHANGES IN THE OSMIOPHILIA OF MYELIN AND LIPID CONTENT IN THE KITTEN OPTIC NERVE

Myelin osmiophilia has been shown to develop significantly later than myelin staining by Luxol fast blue and Sudan black, in the developing kitten optic nerve. These histological changes are accompanied by alterations in the lipid composition of the optic nerve. Although myelination commences at about 10 days post partum in the nerve the appearance of cerebrosides is unexpectedly delayed. Changes in fatty acid chain length and lipid composition of optic nerve are consistent with the suggestion that ‘early’ myelin may be unchanged glial plasma membrane.     

DEVELOPMENTAL PATTERNS OF GANGLIOSIDES AND OF PHOSPHOLIPIDS IN CHICK RETINA AND BRAIN

Abstract— The changes in phospholipids and gangliosides during ontogenesis of chick retina have been compared with those in brain. Three phases of accumulation of ganglioside NeuNAc in the retina were detected. In contrast, brain NeuNAc rapidly increased during embryonic life until hatching, followed by a slower increase up to the adult stage. The phospholipid changes in retina and in brain occur in a-similar manner to the variations observed for gangliosides, however in retina the changes of phospholipid content are less marked than in brain, during embryonic life. There were marked changes in the retina and brain ganglioside patterns with age. G _{d 3} and G _{d 1b} decreased rapidly in per cent; correspondingly, G _{d 1a} increased during embryonic life and became the major ganglioside in place of G _{d 3}. There was a similarity between ganglioside patterns of chick retina and brain. Except for some slight variations during embryonic life, the retinal phospholipid pattern did not change noticeably.     

Alterations of Inositol Lipid Metabolism of Rat Sciatic Nerve in Streptozotocin-Induced Diabetes

Abstract: The composition and metabolism of rat sciatic nerve phospholipids were studied 20 weeks after induction of chronic diabetes by intraperitoneal injection of streptozotocin (50 mg/kg). On a wet weight basis the nerves from the diabetic animals showed a 7% decrease in total phospholipid from that of controls and a relative decrease in phosphatidylinositol. Incubations of isolated sciatic nerves of diabetic rats in a medium containing [³³P]orthophosphate gave decreased labeling of phosphatidylinositol and substantial changes in the labeling pattern of phosphatidylinositol phosphate and 4,5-bisphosphate from that of controls. The ratio of label in these polyphosphoinositides decreased from 2.5 for normal nerve to about 1.0 for diabetic nerve within a 2-h incubation period. These metabolic alterations were not observed in acutely diabetic animals 5 days after streptozotocin (100 mg/kg) administration. Because polyphosphoinositides may be involved in the control of membrane permeability during axonal conduction, alterations in their relative amounts or turnover rates could be related to the physiological changes of early diabetic neuropathy.     

A MICRO-SCALE PROCEDURE FOR THE PREPARATION OF SUBCELLULAR FRACTIONS FROM INDIVIDUAL AUTONOMIC GANGLIA

Abstract— A microscale modification for the preparation of subcellular fractions employing milligram and submilligram amounts of neuronal tissue (brain nuclei and autonomic ganglia) is described.
Electron microscope characterization and enzymic studies were carried out on the six subcellular fractions of sympathetic ganglia of cat thus prepared.
The synaptosomal preparations obtained from individual ganglia were poorer in their nerve ending content than those obtained from brain by previous investigators. The highest RSA for AChE was found in layer L₂ which was rich in membranes and vesicle components. ChAc activity was also highly concentrated in layers L₂ and L₃ (membranes, nerve ending-like particles, mitochondria and 'ghosts'). MAO activity was particularly high in the layers L₄ and L₅ which contained a large number of mitochondria. Layer L₁ (membrane fragments) and particularly layer L₆ which contained mainly collagen fibres, were low in activity of all three enzymes.
After preganglionic denervation, both ChAc and AChE activities were significantly reduced in the purest nerve ending fraction, L₃ while MAO activity was practically unchanged.     

Myelination process in the rat sciatic nerve during regeneration and development: Molecular species composition and acyl group biosynthesis of choline-, ethanolamine-, and serine-glycerophospholipids of myelin fractions

The content of alkenyl-acyl, alkyl-acyl and diacyl types of the three major myelin glycerophospholipids such as PtdCho, PtdEtn and PtdSer was determined in myelin fractions prepared from sciatic nerve segments of rats at 12, 25 and 45 days after birth, and of adult rats (6-month-old) 90 days after crush injury. The biosynthesis and metabolic heterogeneity of lipid classes and types were also studied by incubation with [1-¹⁴C] acetate of nerve segments of young rats at different ages as well as crushed and sham-operated control nerve segments of adult rats. The analysis of composition and positional distribution in major individual molecular species extracted from light myelin and myelin-related fraction suggest that the metabolism of alkenyl-acyl-glycerophosphorylethanolamines and unsaturated species of PtdCho and PtdSer may not be regulated in the same manner during peripheral nerve myelination of developing rat and remyelination of regenerating nerve in the adult animal. The¹⁴C-radioactivity incorporation into lipid classes and alkyl and acyl moieties of the three major phospholipids of sciatic nerve segments during the developmental period investigated revealed that Schwann cells were capable of synthesizing acyl-linked fatty acids in both myelin fractions at a decreasing rate and with different patterns during development. In regenerating sciatic nerve of adult animals the labeling of myelin lipid classes and types of remyelinating nerve segment distal to the crush site was markedly higher than that of sham-operated normal one; however, the magnitude and the pattern of the specific radioactivity never approached those observed during active myelination of the nerve in young animals. These observations show that the remyelinating process of injured nerve during regeneration seems not to recapitulate nerve myelin ensheathment occurring during development.Abbreviations used PtdEtn Phosphatidylethanolamine - PtdCho Phosphatidylcholine - PtdSer Phosphatidylserine - GPE Glycero(3)phosphoethanolamine - GPC Glycero(3)phosphocholine - GPS Glycero(3)phosphoserine - DG-acetates 1,2-diradyl-3-acetyl-sn-glycerols - HPLC High performance liquid chromatography - TLC Thin-layer chromatography - BHT 2,6-di-tert-butyl-4-methylphenol     

Ultrastructural Localization of P2 Protein in Actively Myelinating Rat Schwann Cells

Abstract: The myelin specific protein, P₂, was localized immunocytochemically in electron micrographs of 4-day-old rat peripheral nerve by a preembedding technique. P₂ staining was restricted to Schwann cells that had established a one-to-one relationship with an axon. P₂ antiserum produced a diffuse staining throughout the entire cytosol of myelinating Schwann cells. In addition, the cytoplasmic side of Schwann cell plasma membranes and the membranes of cytoplasmic organelles that were exposed to cytosol were stained by P₂ antiserum. This cytoplasmic localization of P₂ protein is similar to that described for soluble or peripheral membrane proteins that are synthesized on free ribosomes. P₂ antiserum stained the cytoplasmic side of Schwann cell membranes that formed single or multiple loose myelin spirals around an axon. In the region of the outer mesaxon, P₂ antiserum stained the major dense line of compact myelin. These results demonstrate that P₂ protein is located on the cytoplasmic side of compact myelin membranes and are consistent with biochemical studies demonstrating P₂ to be a peripheral membrane protein.     

PHOSPHOINOSITIDE KINASES IN CHICK BRAIN AND SCIATIC NERVE, A DEVELOPMENTAL STUDY

Phosphatidylinositol kinase and diphosphoinositide kinase activities were measured in homogenates of brain and sciatic nerve of developing chick embryos and chicks. Characteristics of the chick nervous system enzymes were similar to those reported for rat brain. Diphosphoinositide kinase was inhibited by high concentrations of ATP and by low concentrations of triphosphoinositide. Both activities were greatly enhanced by the non-ionic detergent, Cutscum, and the ratio of detergent to protein in the reaction mixture was important. Optimum phosphatidylinositol kinase activity required a ratio of 7 : 1 for both tissues. The optimum ratio for diphosphoinositide kinase was 3:1 for nerve homogenates and 0.6:1 for brain. Cutscum increased the concentration of diphosphoinositide that is required for maximum diphosphoinositide kinase activity. Developmental changes were the same for both kinase activities, which were low in unmyelinated brain and sciatic nerve. The activities correlated with the concentration of polyphosphoinositides in chick brain where they increased 4-5 fold during the period of active myelination and remained high in the mature brain. The kinase activities correlated with the rate of triphosphoinositide deposition in sciatic nerve. Following a 2-3 fold increase during the initial phase of myelination the activities declined to values as low as those of embryonic nerve.