Reversible changes in myelin structure and electrical activity during anesthesia in vivo

X-ray diffraction patterns have been recorded from sciatic nerve myelin by means of dynamic X-ray diffraction either from frogs, during the early stages of anesthesia in vivo induced by n-pentane inhalation, and from frog and rat sciatic nerves isolated immediately after the animal was anesthetized. This approach has enabled to resolve minor changes in myelin structure that occur during anesthesia which were found to be similar in frogs and mammals. The X-ray patterns show a reversible slight decrease in intensity of the even reflections during anesthesia. The electron density profiles from myelin of anesthetized and recovered nerves revealed that the unit membrane structure is practically identical in both circumstances. However, during anesthesia myelin membrane pairs move toward the cytoplasmic side becoming more closely packed by 1.6 A. Physiological activity was estimated during the recovery process: compound action potential recovered its maximal amplitude before myelin recovered its native structure. On the contrary, the conduction velocity seemed to be closely related to the structural recovery. This work provides evidence that early stages of anesthesia by n-pentane in vivo does not change membrane bilayer structure but perturbs the surface interactions between adjacent membrane pairs.     

Essentiality of ubiquinone for choline oxidation in rat liver mitochondria.

Rat liver mitochondria treated extensively with n-pentane are incapable of oxidizing choline. Choline oxidation is more sensitive than is succinate oxidation to serial n-pentane extraction of mitochondria. The ability to oxidize choline is restored by the addition of ubiquinone-2 or ubiquinone-10 to the oxidase assay medium.     

Electron transport in Paracoccus halodenitrificans and the role of ubiquinone

The membrane-bound NADH oxidase of Paracoccus halodenitrificans was inhibited by dicoumarol, 2-n-heptyl-4-hydroxy-quinoline-N-oxide (HQNO), and exposure to ultraviolet light (at 366 nm). When the membranes were extracted with n-pentane, NADH oxidase activity was lost. Partial restoration was achieved by adding the ubiquinone fraction extracted from the membranes. Succinate oxidation was not inhibited by dicoumarol or HQNO, but was affected by ultraviolet irradiation or n-pentane extraction. However, the addition of the ubiquinone fraction to the membranes extracted with n-pentane did not restore enzyme activity. These observations suggested that NADH and succinate were not oxidized through a common ubiquinone pool.     

The effects of n-pentane on voltage-clamped squid nerve sodium currents. A reinterpretation using kinetics of ordered systems

The sodium-current voltage-clamp data of Haydon and Kimura obtained on squid nerves treated with n-pentane (J. Physiol. 312 (1981) 57) are fitted with a previously described model (K.A. Rubinson, J. Physiol. 281 (1978) 14P; Biophys. Chem. 15 (1982) 245). The apparently complex action of the perturbant can be interpreted as due to a shift in shielding of the applied potential jumps, a change in channel conductivity, and an increase in the rate constant of channel shutoff. The shift in shielding due to n-pentane is found to be quantitatively the same for variables describing both kinetic and equilibrium quantities, which are independent. The transmembrane sodium potential remains unchanged, however.     

Inverse relationship of ethane or n-pentane and malondialdehyde formed during lipid peroxidation in rat liver microsomes with different oxygen concentrations

When we incubated rat liver microsomes with ferrous ions and an NADPH-regenerating system, ethane and n-pentane formation increased correspondingly with decreasing concentrations of oxygen in the atmosphere above the incubation, whereas malondialdehyde increased with increasing oxygen concentrations up to a plateau. At very low oxygen concentrations - 100% helium as atmosphere, but presumably traces of oxygen were present in the microsomes - ethane and n-pentane formation were maximal and dependent on the concentrations of ferrous ions, in the case of ethane, a peak being reached at about 20 microM Fe2+, whereas n-pentane continuously increased with increasing concentrations of Fe2+. It is suggested that the inverse relationship of ethane or n-pentane and malondialdehyde is due to two different reaction sequences of microsomal lipid peroxidation with different oxygen sensitivities.     

Mineralization of methyl tert-butyl ether and other gasoline oxygenates by Pseudomonads using short n-alkanes as growth source

Biodegradation of methyl tert-butyl ether (MTBE) by cometabolism has shown to produce recalcitrant metabolic intermediates that often accumulate. In this work, a consortium containing Pseudomonads was studied for its ability to fully degrade oxygenates by cometabolism. This consortium mineralized MTBE and TBA with C3-C7 n-alkanes. The highest degradation rates for MTBE (75 +/- 5 mg g(protein) (-1) h(-1)) and TBA (86.9 +/- 7.3 mg g(protein) (-1) h(-1)) were obtained with n-pentane and n-propane, respectively. When incubated with radiolabeled MTBE and n-pentane, it converted more than 96% of the added MTBE to (14)C-CO(2). Furthermore, the consortium degraded tert-amyl methyl ether, tert-butyl alcohol (TBA), tert-amyl alcohol, ethyl tert-butyl ether (ETBE) when n-pentane was used as growth source. Three Pseudomonads were isolated but only two showed independent MTBE degradation activity. The maximum degradation rates were 101 and 182 mg g(protein) (-1) h(-1) for Pseudomonas aeruginosa and Pseudomonas citronellolis, respectively. The highest specific affinity (a degrees (MTBE)) value of 4.39 l g(protein) (-1) h(-1) was obtained for Pseudomonas aeruginosa and complete mineralization was attained with a MTBE: n-pentane ratio (w/w) of 0.7. This is the first time that Pseudomonads have been reported to fully mineralize MTBE by cometabolic degradation.     

Myelin isolation: comparison of sedimentation and flotation techniques.

Brains from young (20 day old) and adult rats were used to compare myelin yields obtained by sedimentation and flotation techniques. The flotation method consistently gave approx 70% higher yields of myelin than the sedimentation method. Both myelin preparations have virtually identical protein composition as assessed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Electrophoretic analysis revealed substantial concentrations of myelin proteins in the non-myelin particulate fraction obtained by the sedimentation but not by the flotation method. The study indicates that the paradigm of the sedimentation method results in a significant loss of myelin during isolation, and that this loss can be avoided or minimized by employing the flotation method.     

Eucalyptus camaldulensis: volatiles from immature flowers and high production of 1,8-cineole and beta-pinene by in vitro cultures

Calli of Eucalyptus camaldulensis Dehn were induced, for the first time, from immature flowers and stamens and established in the presence of 2,4-D and BA, under dark and light conditions. Immature flowers, of the same type used for callus induction, were submitted to hydrodistillation while the induced calli were extracted with n-pentane. The constituents of the n-pentane extracts and of the hydrodistillate were identified by GC-MS. The main constituents of the hydrodistillate from immature flowers were 1,8-cineole (34.7%), beta-pinene (7.7%), and spathulenol (9.5%). The n-pentane extract from calli developed from stamens consisted only of alkanes, alkenes and alcohols, while that of calli developed from immature flowers consisted mainly of monoterpenes (92.08-96.56%). The main monoterpenes produced in these calli, cultured in darkness and under light conditions, were 1,8-cineole, 62.70 and 69.26% as well as beta-pinene, 27.09 and the 25.31%, respectively.     

Protein kinases associated with peripheral nerve myelin. 1. Phosphorylation of endogenous myelin proteins and exogenous substrates.

When highly purified myelin from rat sciatic nerve was incubated with [gamma-32P]ATP, protein components of the membrane were phosphorylated indicating the presence of both the substrate (receptor protein) and an endogenous kinase in the membrane. Polyacrylamide gel electrophoresis of the phosphorylated membrane proteins followed by scintillation counting of gel slices and autoradiography showed that the polypeptides of molecular weights 28000, 23000 and 19000 were phosphorylated, and 32P from [gamma-32P]ATP having been incorporated into serine residues of the substrate proteins. Phosphorylation of purified myelin was Mg2+-dependent, was optimal at pH 6.5 and was not stimulated by adenosine 3',5'-monophosphate. We found that proteins other than those in myelin, such as phosvitin, casein, protamine and histones, can also act as a substrate for the membrane associated kinase. Muscle protein kinase inhibitor had no effect on the endogenous phosphorylation of myelin proteins or on the phosphorylation of phosvitin by peripheral nerve myelin protein kinase. However, the phosphorylation of histone by peripheral nerve myelin protein kinase was inhibited by the protein kinase inhibitor. After washing the membrane with 150 mM KCl the protein kinase that utilizes histone as substrate was found in the supernatant. In contrast, the endogenous phosphorylation of membrane proteins or the phosphorylation of phosvitin by the membrane associated kinase was not affected by washing. From these findings we conclude that at least two protein kinase systems exist in purified peripheral nerve myelin. One system is not inhibited by muscle kinase inhibitor, is tightly bound to the membrane and utilizes as its receptor proteins either exogenous phosvitin or endogenous membrane proteins. The second system is inhibited by muscle kinase inhibitor, is removable from the membrane and utilizes histones as its receptor proteins.     

Hypotheses regarding myelination derived from comparisons of myelin subfractions.

Patterns of myelin-associated proteins and glycoproteins in subfractions of central nervous system myelin and changes in these during development have been reviewed. Several hypotheses are put forward regarding classification of these proteins as structural components of myelin, as components of the membranes from which myelin is derived or as molecules present to play a role in myelin formation rather than as true components of compact myelin. 2′, 3′-Cyclic nucleotide 3′-phosphohydrolase is considered to fit into this last category and two different hypothesis are proposed for its role. The major myelin glycoprotein is postulated to serve a function in recognition of axons by oligodendrocytes, a function not needed in the peripheral nervous system where Schwann cells and axons develop in close contact.     

Poster Sessions BP03: Myelin,Demyelination and Diseases of Myelin. Myelin and myelination in PLP‐null mice

The myelin proteolipid protein (PLP) is the major structural protein of CNS myelin, accounting for approximately half of total myelin protein. We studied synthesis and accumulation of myelin components for two months postnatally in PLP‐null mice and age‐matched controls. Accumulation of myelin, as assayed by levels of whole brain cerebroside and myelin basic protein, was normal in the knockout mice. The rate of cerebroside synthesis in the knockout mice was also normal. Myelin was isolated at several ages during development, using a standard subcellular fractionation protocol. The yield of ‘purified myelin’ isolated from a large particle (crude mitochondrial) fraction was reduced in PLP‐null mice, but increased amounts of ‘myelin’ were obtained in the small particle (crude microsomal) fraction. This ‘myelin’ in the crude microsomal fraction was identified as such by flotation on 0.85 m sucrose and the myelin‐characteristic 2 : 1 molar ratio of cholesterol to cerebroside. This suggests myelin from PLP‐null mice is physically more fragile than normal myelin, and that during tissue dispersion, much more PLP‐null myelin is fragmented into small vesicles than is the case for normal myelin. Three hours after intracranial injection of tritiated acetate into PLP‐null mice, cerebroside in myelin isolated from the large particle fraction was at a similar specific radioactivity to that isolated from the small particle (crude microsomal) fraction, suggesting that the most recently deposited PLP‐null myelin is not preferentially unstable. The increased fragility evident during tissue dispersion is indicative of an underlying structural abnormality in PLP‐null myelin. Whether this inherent structural instability affects myelin metabolism is under investigation. Acknowledgements: Supported by USPHS & NMSS grants.     

Gel filtration of myelin using 2,2,2-trichloroethanol as the solvent.

The use of 2,2,2-trichloroethanol as a solvent for myelin from both the central and peripheral nervous systems is described. Concentrated, optically clear solutions of lyophilized myelin in this solvent are stable for weeks. The preparation of highly concentrated myelin proteins by gel filtration in trichloroethanol is described.     

Studies on autoimmune encephalomyelitis in the guinea pig--III. A comparative study of two autoantigens of central nervous system myelin.

Abstract— A new CNS myelin autoantigen(s) (referred to as M2), different from the encephalitogenic basic protein (BP), can be detected with guinea-pig demyelinating and complement fixing (CF) sera raised against guinea pig CNS tissue or myelin (Lebar et al., 1976). M2 and BP were present in mouse, rat, rabbit, bovine and human CNS tissues when tested with guinea-pig homologous specific antisera; they were not present in non-CNS tissues. Both autoantigens were also detected in newborn guinea-pig myelin and myelin-like fractions. The CF activity of myelin with demyelinating (anti-M2) sera was not altered by trypsin; however, absorption experiments showed that M2 was partly trypsin sensitive. Both antibodies against the trypsin sensitive and the trypsin resistant determinants of M2 were demyelinating. Both determinants of M2 were preselit in mouse, rat, rabbit, bovine‘and human CNS tissues and in guinea-pig newborn myelin. CF BP activity of myelin was partially or even totally abolished by trypsin, but the persistent encephali-togenicity of trypsin-treated myelin could be attributed to non-CF encephalitogenic peptides from BP. In accordance with recent work our results tend to support an inner localization of BP in myelin; M2, on the other hand, would be a surface antigen(s).     

Detection of myelination using a novel histological probe.

Current methods for myelin staining in tissue sections include both histological and immunohistochemical techniques. Fluorescence immunohistochemistry, which uses antibodies against myelin components such as myelin basic protein, is often used because of the convenience for multiple labeling. To facilitate studies on myelin, this paper describes a quick and easy method for direct myelin staining in rodent and human tissues using novel near-infrared myelin (NIM) dyes that are comparable to other well-characterized histochemical reagents. The near-infrared fluorescence spectra of these probes allow fluorescent staining of tissue sections in multiple channels using visible light fluorophores commonly used in immunocytochemistry. These dyes have been used successfully to detect normal myelin structure and myelin loss in a mouse model of demyelination disease.     

Membrane structure in isolated and intact myelins.

The biochemical composition of myelin and the topology of its constituent lipids and proteins are typically studied using membranes that have been isolated from whole, intact tissue using procedures involving hypotonic shock and sucrose density gradient centrifugation. To what extent, however, are the structure and intermembrane interactions of isolated myelin similar to those of intact myelin? We have previously reported that intact and isolated myelins do not always show identical myelin periods, indicating a difference in membrane-membrane interactions. The present study addresses the possibility that this is due to altered membrane structure. Because x-ray scattering from isolated myelin sometimes consists of overlapping Bragg reflections or is continuous, we developed nonlinear least squares procedures for analyzing the total intensity distribution after film scaling, background subtraction, and Lorentz correction. We calculated electron density profiles of isolated myelin for comparison with membrane profiles from intact myelin. The change in the width of the extracellular space and the relative invariance of the cytoplasmic space as a function of pH and ionic strength that we previously found for intact nerve was largely paralleled by isolated myelin. There were two exceptions: isolated CNS myelin was resistant to swelling under all conditions, and isolated PNS myelin in hypotonic saline showed indefinite swelling at the extracellular apposition. However, electron density profiles of isolated myelins, calculated to 30 A resolution, did not show any major change in structure compared with intact myelin that could account for the differences in interactions.     

The intrinsic fluorescence of isolated central-nervous-system myelin-sheath preparations.

The intrinsic fluorescence characteristics of tyrosine and tryptophan residues in the proteins of isolated central-nervous-system myelin were investigated to gain information concerning the location of these residues within the intact membrane system. Tryptophan fluorescence from isolated myelin has an emission maximum at 325 nm that appears to arise from at least two different populations of tryptophan residues. Further evidence for heterogeneity of tryptophan location in the membrane is obtained from quenching studies with chloroform and acrylamide. It is speculated that one tryptophan population is hydrophobically situated and may be derived from the proteolipid protein of myelin, whereas the other tryptophan population is located at the membrane surface and may arise from the extrinsic basic protein. A significant tyrosine fluorescence is detected from isolated myelin, indicating that some of these residues are not quenched by structural interactions within the lipid--protein membrane system. Studies with freeze-dried resuspended myelin suggest that the structural arrangement of protein components in the dried rehydrated membrane system differs significantly from that of the freshly isolated myelin membrane.     

Histochemical study of the myelin-associated carbohydrates.

Myelin-associated carbohydrates were studied by means of histochemical techniques in the central nervous system of birds and mammals. Polianions in the surface of myelin and in interfascicular oligodendroglia were detected using histochemical techniques. Glycoproteins were studied by means of concanavalin A. The Con-A-PO-DAB sequence was used. Concanavalin-A-binding sites were detected in oligodendroglia and on the myelin surface. Similar results were observed in both birds and mammals. The processes of the interfascicular oligodendroglia also contain carbohydrates. A close association between the carbohydrates of these glial processes and the myelin surface carbohydrates was demonstrated, and their probable identity is assumed.     

The need for speed. II. Myelin in calanoid copepods

Speed of nerve impulse conduction is greatly increased by myelin, a multi-layered membranous sheath surrounding axons. Myelinated axons are ubiquitous among the vertebrates, but relatively rare among invertebrates. Electron microscopy of calanoid copepods using rapid cryofixation techniques revealed the widespread presence of myelinated axons. Myelin sheaths of up to 60 layers were found around both sensory and motor axons of the first antenna and interneurons of the ventral nerve cord. Except at nodes, individual lamellae appeared to be continuous and circular, without seams, as opposed to the spiral structure of vertebrate and annelid myelin. The highly organized myelin was characterized by the complete exclusion of cytoplasm from the intracellular spaces of the cell generating it. In regions of compaction, extracytoplasmic space was also eliminated. Focal or fenestration nodes, rather than circumferential ones, were locally common. Myelin lamellae terminated in stepwise fashion at these nodes, appearing to fuse with the axolemma or adjacent myelin lamellae. As with vertebrate myelin, copepod sheaths are designed to minimize both resistive and capacitive current flow through the internodal membrane, greatly speeding nerve impulse conduction. Copepod myelin differs from that of any other group described, while sharing features of every group. Accepted: 8 January 2000     

Biochemical maturation of human central nervous system myelin.

—A developmental study of the lipid and protein composition of human CNS myelin was undertaken. The relative concentrations of the major lipid classes, cholesterol, glycolipids and phospholipids exhibited little change except for a modest decrease in the concentration of the phospholipids. In contrast to the total phospholipids, marked variations in the relative concentrations of individual phospholipids were found. Sphingomyelin increased over two-fold, and phosphatidyl choline decreased to almost half its original concentration. While the concentration of total myelin protein remained constant during maturation, variations in the concentrations of individual proteins were observed. Basic protein constituted 8·5 per cent of the total myelin proteins in the newborn brain and increased to about 30 per cent of the protein in the older ages. The concentrations of proteolipid protein and DM-20 seemed to increase with age, while the relative amounts of high molecular weight proteins decreased. The presence of myelin basic protein in newborn human brain was confirmed by electrophoretic studies involving several different polyacrylamide gel systems and by immunodiffusion experiments which showed a reaction of identity between a constituent present in the fraction containing the presumptive myelin basic protein and authentic myelin basic protein isolated from adult human brain.     

On the spontaneous adherence of myelin basic protein to T lymphocytes.

We have applied a double tagging system in order to study whether purified myelin basic protein is able to adhere to normal human peripheral T lymphocytes without the need to purify cells. Evaluation of myelin basic protein adherence to peripheral blood mononuclear cells was determined with biotinylated myelin basic protein and fluoresceinated avidin, and lymphocyte population was identified by the corresponding phycoerythrinated monoclonal antibody. The observed adherence of myelin basic protein to T lymphocytes was found to depend on protein conformation.