Characterization of Basic Proteins from Goldfish Myelin

Abstract: Myelin basic protein (MBP) from common goldfish ( Carassius auratus ) myelin was extracted with dilute mineral acid. Immunological cross-reactivity of the goldfish MBP, with polyclonal antisera raised against bovine MBP, suggested that the goldfish protein has epitopes for these antibodies. It also reacted with a monoclonal antibody specific for a seven amino acid epitope (130–137) conserved in the MBP of most mammalian species. To characterize the charge heterogeneity of this protein, we iodinated the protein with ¹²⁵I and chromatographed it on a carboxymethyl cellulose-52 column together with a nonlabeled acid soluble fraction prepared from human white matter as a carrier protein. All of the goldfish protein was recovered in the unbound fraction, demonstrating that it was less cationic than the carrier protein (human MBP). We have also examined the urea alkaline gel profile of the goldfish MBP together with the human C-1, C-2, C-3, C-4, and C-8 components. The results from these experiments indicated that this MBP extracted from goldfish brain myelin lacked the microhet-erogeneity that is associated with MBPs from higher vertebrates. The MBPs from goldfish myelin were separated into their isoforms by reversed-phase HPLC. Amino acid compositions were determined for both the 17- and 14-kDa goldfish proteins. Amino acid analysis revealed similarities with the compositions of other MBPs; however, the serine content in both the 17- and 14-kDa proteins was higher than that of the human C-1, the mouse C-1 protein, and the shark proteins. The HPLC-purified 14-kDa goldfish protein was chemically cleaved with CNBr for partial sequence analysis. Even from the limited sequence obtained, the sequence ATAST was found in goldfish, which is also present in human, rabbit, and guinea pig MBPs.     

Effect of Lipid Peroxidation on the Accessibility of Dansyl Chloride Labeling to Lipids and Proteins of Bovine Myelin

In our previous studies we have demonstrated that bovine myelin appears highly susceptible to oxidative damage to both its lipid and protein composition. In order to determine whether these alterations would affect the accessibility of myelin components to a fluorescent probe, we have performed various labeling experiments using dansyl chloride. Results from labeling of purified bovine myelin treated with or without cumene hydroperoxide show that basic protein from treated myelin incorporated more dansyl chloride than basic protein from untreated myelin. This increase of labeling could be prevented by the addition of the antioxdant agent, butylated hydroxytoluene. This evidence suggests that lipid peroxidation may play an important role in the pathogenesis of inflammatory demyelinating diseases.     

Modification of Dopamine Transporter Function: Effect of Reactive Oxygen Species and Dopamine

Abstract: Dopamine can oxidize to form reactive oxygen species and quinones, and we have previously shown that dopamine quinones bind covalently to cysteinyl residues on striatal proteins. The dopamine transporter is one of the proteins at risk for this modification, because it has a high affinity for dopamine and contains several cysteinyl residues. Therefore, we tested whether dopamine transport in rat striatal synaptosomes could be affected by generators of reactive oxygen species, including dopamine. Uptake of [³H]dopamine (250 n M ) was inhibited by ascorbate (0.85 m M ; −44%), and this inhibition was prevented by the iron chelator diethylenetriaminepentaacetic acid (1 m M ), suggesting that ascorbate was acting as a prooxidant in the presence of iron. Preincubation with xanthine (500 µ M ) and xanthine oxidase (50 mU/ml) also reduced [³H]dopamine uptake (−76%). Preincubation with dopamine (100 µ M ) caused a 60% inhibition of subsequent [³H]dopamine uptake. This dopamine-induced inhibition was attenuated by diethylenetriaminepentaacetic acid (1 m M ), which can prevent iron-catalyzed oxidation of dopamine during the preincubation, but was unaffected by the monoamine oxidase inhibitor pargyline (10 µ M ). None of these incubations caused a loss of membrane integrity as indicated by lactate dehydrogenase release. These findings suggest that reactive oxygen species and possibly dopamine quinones can modify dopamine transport function.     

Laser Mediated Production of Reactive Oxygen and Nitrogen Species; Implications for Therapy

Laser therapy has gained wide acceptance applications to many medical disciplines. The side effect-effects from laser therapy involve the potential for interaction with cellular and extracellular matrix molecules to generate reactive oxygen species and reactive nitrogen species which in turn can initiate lipid peroxidation, protein damage or DNA modification. These issues are addressed in this short overview in the context of experimental models of laser-induced thrombosis.     

Inhibition of Glutamate Transport in Synaptosomes by Dopamine Oxidation and Reactive Oxygen Species

Abstract: Dopamine can form reactive oxygen species and other reactive metabolites that can modify proteins and other cellular constituents. In this study, we tested the effect of dopamine oxidation products, other generators of reactive oxygen species, and a sulfhydryl modifier on the function of glutamate transporter proteins. We also compared any effects with those on the dopamine transporter, a protein whose function we had previously shown to be inhibited by dopamine oxidation. Preincubation with the generators of reactive oxygen species, ascorbate (0.85 m M ) or xanthine (500 µ M ) plus xanthine oxidase (25 mU/ml), inhibited the uptake of [³H]glutamate (10 µ M ) into rat striatal synaptosomes (−54 and −74%, respectively). The sulfhydryl-modifying agent N -ethylmaleimide (50–500 µ M ) also led to a dose-dependent inhibition of [³H]glutamate uptake. Preincubation with dopamine (100 µ M ) under oxidizing conditions inhibited [³H]glutamate uptake by 25%. Exposure of synaptosomes to increasing amounts of dopamine quinone by enzymatically oxidizing dopamine with tyrosinase (2–50 U/ml) further inhibited [³H]glutamate uptake, an effect prevented by the addition of glutathione. The effects of free radical generators and dopamine oxidation on [³H]glutamate uptake were similar to the effects on [³H]dopamine uptake (250 n M ). Our findings suggest that reactive oxygen species and dopamine oxidation products can modify glutamate transport function, which may have implications for neurodegenerative processes such as ischemia, methamphetamine-induced toxicity, and Parkinson's disease.     

Studies on Subcellular Fractions Which Are Involved in Myelin Assembly: Labeling of Myelin Proteins by a Double Radioisotope Approach Indicates Developmental Relationships

The question of developmental relationships amongst myelin-related membranes in subfractions of myelinating mouse brain (15 days) was investigated by a time-staggered double isotope protocol using [3H]leucine and [14C]leucine. Preliminary results are interpreted and discussed in the context of a mathematical conceptualization of pulse-labeling kinetic analyses of myelin proteins in subcellular membrane compartments. Differences in ratio of the two leucine labels among proteins of myelin-containing subfractions are interpreted as confirming metabolic differences relating to various stages of development rather than precursor-product relationships. The incorporation into myelin of 14K, 17K, and 18.5K basic proteins (MBPs) occurs with relatively short delay times, following their synthesis (less than 5 min), and seems to occur simultaneously into all compartments. The 21.5K MBP and the proteolipid protein, on the other hand, require 10-14 min and 14-20 min, respectively. A scheme is presented to illustrate the probable assignment of subfractions to various myelin "compartments" during myelination, and to serve as a working hypothesis for studies on precursor-product relationships.     

NMDA Receptor Activation Produces Concurrent Generation of Nitric Oxide and Reactive Oxygen Species: Implications for Cell Death

Abstract: The ability of glutamate to stimulate generation of intracellular oxidant species was determined by microfluorescence in cerebellar granule cells loaded with the oxidant-sensitive fluorescent dye 2,7-dichlorofluorescin (DCF). Exposure of cells to glutamate (10 µM) produced a rapid generation of oxidants that was blocked ～70% by MK-801 (a noncompetitive NMDA-receptor antagonist). To determine if nitric oxide (NO) or reactive oxygen species (ROS) contributed to the oxidation of DCF, cells were treated with compounds that altered their generation. NO production was inhibited with N^G-nitro-l -arginine methyl ester (l -NAME) (nitric oxide synthase inhibitor) and reduced hemoglobin (NO scavenger). Alternatively, cells were incubated with superoxide dismutase (SOD) and catalase, which selectively metabolize O₂^?· andH₂O₂. Concurrent inhibition of O₂^?· and NO production nearly abolished intracellular oxidant generation. Pretreatment of cells with either chelerythrine (1 µM, protein kinase C inhibitor) or quinacrine (5 µM, phospholipase A₂ inhibitor) before addition of glutamate also blocked oxidation of DCF. Generation of oxidants by glutamate was significantly reduced by incubating the cells in Ca²⁺-free buffer. In cytotoxicity studies, a positive correlation was observed between glutamate-induced death and oxidant generation. Glutamate-induced cytotoxicity was blocked by MK-801 and attenuated by treatment with l -NAME, chelerythrine, SOD, or quinacrine. It is concluded that glutamate induces concurrent generation of NO and ROS by activation of both NMDA receptors and non-NMDA receptors through a Ca²⁺-mediated process. Activation of NO synthase and phospholipaseA₂ contribute significantly to this response. It is proposed that simultaneous generation of NO and ROS results in formation of peroxynitrite, which initiates the cellular damage.     

Membrane peroxidation: Inhibiting effects of water- soluble antioxidants on phospholipids of different charge types

Quantitative kinetic methods of autoxidation are used to determine the antioxidant activities of two water-soluble antioxidants of the chromanol type, 6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid (Trolox) and 6-hydroxy-2,5,7,8- tetramethyl-2-N,N,N-trimethylethanaminium methylbenzene-sulfonate (MDL 73404), during free radical peroxidation of phospholipid membranes of different charge types. The stoichiometric factor (n) for peroxyl radical trapping for both Trolox and MDL 73404 was found to be 2. Trolox was found to partition partially, approximately 20%, into the lipid phase of liposomes. The antioxidant activity of Trolox during peroxidation of membranes determined by measurements of the absolute rate constant for inhibition of oxygen uptake,k_inh, was found to vary with the membrane surface charge that is controlled by variation in pH. When peroxidation is initiated in the lipid phase by azo-bis-2,4-dimethylvaleronitrile (ADVN), using a typical zwitterionic liposome, dilinoleoylphosphatidyl choline (DLPC), the k_inh was found to be 2.98 × 10³ M⁻¹s⁻¹. The k_inh of Trolox increased approximately 2-fold for membranes that have positive surface, including DLPC at pH 4, DLPC containing stearylamine at pH 7, and for a membrane of dimyristoylphosphatidic acid containing linoleic acid (DMPA/LA). Conversely, Trolox does not inhibit peroxidation of negatively charged dilinoleoylphosphatidyl glycerol (DLPG) at pH 7–11. Studies made of the positively charged MDL 73404 show that its antioxidant activity using DLPC and DLPG is pH dependent. Trolox inhibits the peroxidations of DLPC initiated in the aqueous phase by azo-bis(2-amidinopropane·HCl)(ABAP) at pH 4 or 7. However, Trolox does not inhibit the peroxidation of DLPG at pH 7. The different antioxidant activities of Trolox and MDL 73404 are rationalized in terms of a peroxyl-radical diffusion model and specific charge interactions between antioxidants and membrane surface.     

Cytotoxicity-Associated Effects of Reactive Oxygen Species on Endothelin-1 Secretion by Pulmonary Endothelial Cells

In this study bovine pulmonary artery endothelial cells (BPAEC) were used as a model system to investigate the effects of the hypoxanthine–xanthine oxidase (HXXO) oxygen radical donor system on ET-1 secretion into pulmonary vasculature. Incubation of BPAEC with HXXO for 4 h caused a significant reduction in ET-1 secretion, which was significantly offset by allopurinol or catalase, but not by Cu/Zn superoxide dismutase (SOD). ET-1 secretion was also reduced by H₂O₂, and this effect was again significantly offset by catalase. XO alone also reduced ET-1 secretion, but to a significantly lesser degree than did HXXO, and this effect was not offset by allopurinol, catalase, or SOD. None of the oxidant treatments were associated with a loss of immunoreactive ET-1 from endothelial cell medium containing synthetic peptide. The HXXO- and H₂O₂-mediated reductions in ET-1 secretion were accompanied by evidence of reduced cell viability. This loss of viability was absent when cells were treated with HXXO + catalase, allopurinol, or mercaptopropionyl glycine, but not when SOD was present. We conclude that under conditions of oxidative stress, the pulmonary vascular endothelium responds by secreting less ET-1. This may be relevant to its vasodilator functions in the pulmonary vasculature, which would therefore be compromised when the endothelium is exposed to oxidant stress.     

活性氧簇对蛋白尿的影响

蛋白尿不仅反映肾小球损伤,而且是一个独立的导致肾脏病变进展的主要因素,任何能够使蛋白尿减少的治疗干预都有利于减慢肾脏疾病的进展,遗传性蛋白尿性肾病是由于基因突变所致,获得性肾病大量蛋白尿成因目前尚未阐明。免疫异常,炎症介质及氧化应激反应均可导致肾损伤。氧自由基是肾损伤的主要介质,它作为强氧化剂是造成蛋白尿的重要原因之一。活性氧分子(ROS)可以通过降解肾小球乙酰肝素硫酸盐、肾小球基底膜Ⅳ型胶原富含赖氨酸的NCl区域发生交联、损伤足细胞破坏肾小球滤过屏障及与其他活性因子作用增强血清蛋白的渗透性等作用,造成蛋白尿。本文就近年来人们对活性氧造成蛋白尿的机制的研究做一综述,便于帮助医务工作者更好的了解和治疗蛋白尿性肾病。     

Selective Degeneration of Oligodendrocytes Mediated by Reactive Oxygen Species

The mechanism underlying demyelination in inflammatory canine distemper encephalitis is uncertain. Macrophages and their secretory products are thought to play an important effector role in this lesion. Recently, we have shown that anti-canine distemper virus antibodies, known to occur in chronic inflammatory lesions, stimulate macrophages leading to the secretion of reactive oxygen species (ROS). To investigate whether ROS could be involved in demyelination, dog glial cell cultures were exposed to xanthine/xanthine oxidase (X/XO), a system capable of generating O,. This treatment resulted in a specific time-dependent degeneration and loss of oligodendrocytes, the myelin producing cells of the central nervous system. Initial degeneration was not associated with a decrease in viability of oligodendrocytes as judged by trypan blue and propidium iodide exclusion. Astrocytes and brain macrophages were not affected morphologically by this treatment. Further, an evaluation of the effect of several ROS scavengers, transition metal chelators and inhibitors of poly (ADP-ribose) polymerase suggests that a metal dependent formation of OH or a similar highly oxidizing species could be responsible for the observed selective damage to oligodendrocytes.     

Study of the Interaction of the Myelin Monomeric GTP-Binding Proteins with Other Brain Proteins

Abstract: Although several monomeric GTP-binding proteins have been found in myelin, the signaling pathways in which they operate are not known. To define these signaling pathways we searched for specific target proteins that interact with the myelin monomeric GTP-binding proteins. A blot overlay approach was used. Bovine white matter homogenate, myelin, and oligodendrocyte proteins were separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and blotted onto nitrocellulose membranes. The presence of proteins that interact with the myelin GTP-binding proteins was explored by incubating those blots with an enriched fraction of 22- and 25-kDa myelin GTP-binding proteins labeled with radioactive guanine nucleotides. When the GTP-binding proteins were in the inactive state (GDP-bound) they interacted with 28-, 47-, and 58-kDa oligodendrocyte polypeptides. Only the 28-kDa protein was present in myelin. In the active state (GTP-bound), they interacted only with a 47-kDa protein in myelin but with 31-, 38-, 47-, 58-, 60-, 68-, and 71-kDa proteins in oligodendrocytes and total homogenate. Under these experimental conditions the 28-kDa protein did not interact with the GTP-binding proteins. The fact that the myelin GTP-binding proteins in the active state formed complexes with a different set of proteins than when in the inactive state is a strong indication that these proteins are effector proteins. With the exception of the 31- and 38-kDa proteins that were detected only in the cytoplasmic fraction, these polypeptides were detected in the cytosolic fraction and total membrane fraction. The 25-kDa GTP-binding protein was present in all the complexes. Immunoblot analysis indicated that the 28-kDa polypeptide is RhoGDI, an effector protein that is known to regulate the activation and movement of several GTP-binding proteins between different cellular compartments. Thus, this study opens the way to identify the macromolecules participating in the myelin signaling pathway involving monomeric GTP-binding proteins.     

A Rapid Method for Purification of Myelin Basic Protein

A rapid procedure for purification of myelin basic protein has been developed. White matter is delipidated with 2-butanol, and the residue is extracted at pH 7.5 and 8.5. Myelin basic protein is solubilized by extraction in acetate buffer, pH 4.5. The entire procedure requires less than 4 h, and gives homogeneous protein essentially free of protease activity. This procedure can be scaled down to process milligram amounts of white matter; thus it can be very useful for purification of myelin basic protein from very limited amounts of human white matter obtained during surgery.     

Presence of the Plasma Membrane Proteolipid (Plasmolipin) in Myelin

Plasma membrane proteolipid (plasmolipin), which was originally isolated from kidney membranes, has also been shown to be present in brain. In this study, we examined the distribution of plasmolipin in brain regions, myelin, and oligodendroglial membranes. Immunoblot analysis of different brain regions revealed that plasmolipin levels were higher in regions rich in white matter. Plasmolipin was also detected in myelin, myelin subfractions, and oligodendroglial membranes. Immunocytochemical analysis of the cerebellum revealed that plasmolipin was localized in the myelinated tracts. Plasmolipin levels in myelin were enriched during five successive cycles of myelin purification, similar to the enrichment of myelin proteolipid apoprotein (PLP) and myelin basic protein (MBP). In contrast, levels of Na+,K(+)-ATPase and a 70-kDa protein were decreased. When myelin or white matter was extracted with chloroform/methanol, it contained, in addition to PLP, a significant amount of plasmolipin. Quantitative immunoblot analysis suggested that plasmolipin constitutes in the range of 2.2-4.8% of total myelin protein. Plasmolipin, purified from kidney membranes, was detected by silver stain on gels at 18 kDa and did not show immunological cross-reactivity with either PLP or MBP. Thus, it is concluded that plasmolipin is present in myelin, possibly as a component of the oligodendroglial plasma membrane, but is structurally and immunologically different from the previously characterized myelin proteolipids.     

Cell-Free Synthesis of Myelin Basic Proteins in Normal and Dysmyelinating Mutant Mice

Total polyribosomes were isolated from the brains of 16-20 day C57BL/6 mice, four neurological mutants (qk/qk, shi/shi, mld/mld, and jp/Y), and four heterozygote or littermate controls (qk/+, shil/+, mld, and jp littermates) and translated in a homologous, cell-free system. No differences were observed among the nine genotypes in either the yield of polysomes (32.2 +/- 0.6 A260/g brain) or in the incorporation of [35S]methionine into trichloroacetic acid-precipitable protein. However, when the four myelin basic proteins (BPs) were isolated from the translation mixtures little incorporation of [35S]methionine into the BPs was noted in those assays directed by polysomes from mld/mld or from shi/shi animals. Compared with C57BL/6 polysomes, mld littermate and shi/+ polysomes incorporated approximately half the levels of label into the four BPs while qk/+ and qk/qk incorporated normal and close-to-normal levels. Polysomes from jp littermates and jp/Y brains synthesized 66% and less than 15% of the levels of the 14K BP compared with C57BL/6 polysomes. Incorporation of label into the other three BPs was normal with jp littermate polysomes and about half the control levels with jp/Y polysomes. The data indicate that shi/shi and mld/mld mutants either produce altered BPs not recognized by our antibody or synthesize very low levels of BP. The data provide additional support for the notion that the qk/qk mutant synthesizes much higher levels of MBP than are incorporated into myelin. They also indicate that in the jimpy mutant the synthesis of the four BPs is affected to differing extents; thus, the mutant cannot be easily characterized as either an "assembly" or "synthesis" defect.     

Activation of Myelin Protein Kinase by Diacylglycerol and 4β-Phorbol 12-Myristate 13-Acetate

In an effort to gain a more complete understanding of the regulation of myelin basic protein phosphorylation, we have been interested in defining further the mode of regulation of the myelin protein kinase involved in this posttranslational modification. Here we report the partial purification of a protein kinase from rat brain myelin. By gel filtration, it was determined that the molecular weight of this enzyme was in the range of 70-80 X 10(3) daltons Furthermore, it was established that at low calcium concentrations, this enzyme was markedly activated by phosphatidylserine in combination with either 4 beta-phorbol 12-myristate 13-acetate or diolein. The enzyme was not affected by cyclic AMP or by calcium, alone or in combination with calmodulin. On the basis of these findings this enzyme can be identified as a protein kinase C-like enzyme.     

Myelin-Deficient Rat: Analysis of Myelin Proteins

Myelin basic protein (BP), proteolipid protein (PLP), myelin-associated glycoprotein (MAG), and 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNPase) activity were quantitated in the brains and spinal cords of normal and myelin-deficient (md) rats at 8, 12, 18, and 25 days of age. The levels of BP, MAG, and CNP in 25-day-old md brain were 1.1, 1.8, and 11% of those in controls, respectively. In spinal cord, the levels were higher, at 9, 15, and 12% of control values, respectively. Although BP content in the mutant rats was a lower percentage of the control level than MAG and CNPase contents at all ages, the absolute level of BP increased steadily between 8 and 25 days of age in both brain and spinal cord, whereas there was little change in the amounts of MAG and CNPase during this period. Immunoblotting analysis did not reveal an increased apparent Mr for MAG, as has been observed in quaking and trembler mice. There was little difference in the relative distributions of the 14K, 17K, 18.5K, and 21.5K forms of BP between control and md rat spinal cord homogenates at the ages examined. PLP content was reduced more than that of the other proteins in the md mutants, because it could not be detected by a technique capable of detecting 0.2% of the control brain level and 0.1% of control spinal cord level. This suggests that the expression of PLP may be preferentially affected in the md mutation.     

Measurement of Reactive Oxygen Species in the Culture Media Using Acridan Lumigen PS-3 Assay

Reactive oxygen species (ROS) are generated continuously during aerobic metabolism. ROS are highly reactive molecules and in excessive amounts, can lead to protein and DNA oxidation, protein cross-linking, and cell death. Cell-culture models provide a valuable tool in understanding the mechanisms that lead to cell death. Accumulation of ROS within cells and/or their release into the culture media are highly cell type-specific. The ability to estimate ROS levels in the culture media is an important step in understanding the mechanisms contributing to disease processes. In this paper, we describe the optimization of a simple method to estimate ROS levels in the culture media using the Acridan Lumigen PS-3 reagent provided in the Amersham ECL Plus kit (GE Healthcare, UK). We have shown that the Acridan Lumigen PS-3 assay generates ROS-specific chemiluminescence in fresh as well as media stored at −20°C, in as little as 10–20 μl of samples. The method was able to detect the dose (of stimulants)- and time (acute and chronic)-dependent changes in ROS levels in media collected from various cell types. Our results suggest that the kit reagents, PBS buffer, and various media did not contribute significantly to the overall chemiluminescence generated in the assay; however, we suggest that the unused medium specific for each cell type should be used as blanks and final readings of test samples normalized against these readings. As this method uses commonly available laboratory equipment and commercially available reagents, we believe this assay is convenient, economical, and specific in estimating ROS released extracellularly into the culture media.