Ganglioside Changes in Brain in Chronic Relapsing Experimental Allergic Encephalomyelitis Induced in the Lewis Rat

Chronic relapsing experimental allergic encephalomyelitis (CREAE) was induced in Lewis rats by inoculation with guinea-pig myelin and complete Freund's adjuvant followed by treatment with low-dose cyclosporin A. Rats were sacrified at different phases of the disease (just before the onset of clinical signs, during the first clinical episode of CREAE and during the first recovery). Gangliosides were extracted from the brain, analysed after purification by HPTLC fractionation and quantified densitometrically. An increase of GM1, the main rat myelin ganglioside, and a decrease of GT1b, suggested to play a role in mediating the interactions between oligodendroglia and axons, were observed during the development of the CREAE. These findings indicating significant ganglioside changes in CREAE give further support to the concept concerning the involvement of gangliosides in autoimmune demyelination.     

Role of Myelin-Associated Neuraminidase in the Ganglioside Metabolism of Rat Brain Myelin

The role of myelin-associated neuraminidase in ganglioside metabolism was examined using rats of ages ranging from 17 to 97 days. The neuraminidase activity directed toward the ganglioside GM3 in the total myelin fraction was high during the period of active myelination and, thereafter, decreased rapidly to the adult level. The ganglioside composition became simpler during development with an increasing amount of GM1 and decreasing percentages of di- and polysialogangliosides. The decrease in the proportion of GD1a was most prominent, whereas relative amounts of GD1b and GT1b increased transiently before reducing to the adult levels. The heavy myelin subfraction contained higher percentages of di- and polysialo-species compared to the light myelin fraction at young and adult ages. The in vitro incubation of myelin of young rats under an optimal condition for neuraminidase action produced a profile of ganglioside changes similar to that observed in in vivo development. These results strongly suggest that myelin-associated neuraminidase may play a pivotal role in the developmental changes in the ganglioside composition of rat brain myelin.     

Formation and turnover of myelin ganglioside

—In young adult rats, the formation and turnover of G_M1-ganglioside in myelin were compared with the formation and turnover of G_M1-ganglioside in whole brain and of total lipids in whole brain and myelin, after injection of d-[1-¹⁴C]glucosamine. During the first 24 hr after injection, the specific activity of G_M1-ganglioside in myelin was less than 25 per cent of that of G_M1-ganglioside in whole brain. The specific activity of ganglioside in whole brain was maximal at 24 hr and then declined steadily during the next 3 months, whereas the specific activity of G_M1-ganglioside in myelin continued to increase and did not reach a peak until about one month after injection, by which time its specific activity had increased five-fold. Consequently, the specific activity of G_M1-ganglioside in myelin was 50 per cent higher than ganglioside in whole brain after one month. These differences in the formation and turnover of G_M1-ganglioside in myelin and of whole brain are similar to those of other lipids of myelin and of whole brain, indicating that the metabolic activity of myelin ganglioside is similar to myelin lipids, but differs from whole brain lipids or whole brain gangliosides. These data provide additional evidence that ganglioside in myelin is an intrinsic constituent of the myelin sheath. G_T1 (G₁), G_D1b, (G₂), G_D1a (G₃), G_M1 (G₄), G_M2 (G₅), G_M3 (G₆).     

Myelin Gangliosides in Developing Rats: The Influence of Maternal Ethanol Consumption

Abstract: The present study examined myelin gangliosides in the developing offspring of rats that were pair-fed control or ethanol liquid diets prior to and during gestation. Between 17 and 31 days of age, we observed an increase in the proportion of G_M1 in myelin (from 15% to 38% of ganglioside sialic acid) and a decrease in the proportion of G_T1b (from 26% to 4%). G_M4 was detected at all ages examined. Between 17 and 31 days of age, there was an increase in the proportion of N -acetylman-nosamine-derived radioactivity associated with G_M1 (from 16% to 22%) and G_M4 (from 5% to 13%), and a decrease in that associated with G_T1b (from 24% to 4%). Small, but sygnificant (p < 0.05), developmentally related differences were found in G_D2 and G_D3. Detection of G_M4 in myelin of young rats in the present study appears to depend on the use of nonpartitioning methods of ganglioside extraction. Although the distribution of myelin gangliosides and radioactivity was near-normal in ethanol-treated pups, there was a consistent decrease in the proportion and radioactivity associated with the major myelin ganglioside, G_M1.     

Changes in the metabolism of glial fibrillary acid protein (GFAP) during chronic relapsing experimental allergic encephalomyelitis in the strain 13 guinea-pig

Spinal cords were removed from strain 13 guinea pigs in various stages of chronic relapsing experimental allergic encephalomyelitis (CREAE). Levels of glial fibrillary acidic protein (GFAP) in cord extracts were determined by radioimmunoassay and protein synthesis was monitored by incubating tissue prisms with [³⁵S]methionine. Analysis of cytoskeletal enriched preparations from these incubations by SDS-polyacrylamide electrophoresis and fluorography permitted evaluation of the metabolism of discrete polypeptides; the identity of a labelled band at 51,000 daltons as GFAP was confirmed by immunoprecipitation with a specific antibody. Total protein synthesis increased 4-fold during the acute phase of CREAE but fell to control values with clinical recovery, while over the same period GFAP synthesis increased by 6–7-fold and remained elevated in the post-acute phase at about 200% of control values. During this time there was no increase in the GFAP content of the cord indicating an increased turnover of this protein rather than net synthesis. In later stages of CREAE however, GFAP levels were raised, correlating with a further increase in the incorporation of precursor into GFAP, this being most pronounced in animals in clinical relapse.     

Myelination in rat brain: method of myelin isolation

Abstract— A procedure is described for the preparation from rat brain of myelin having the same degree of purity at all ages. Such a procedure is essential for the study of myelin composition during development. Microsomal contamination was successfully eliminated by adjusting the method to maintain a constant amount of brain per unit volume in the initial density gradient step, and by including two osmotic shocks and two low-speed centrifugation steps. Myelin prepared in this way from animals ranging from 15 days to 14months of age had a total ATPase activity of 0.3-2.0 μmol of P_i.h^?1.mg^?1 dry wt of myelin, representing 0.1-1.2 per cent recovery of the total homogenate activity; a Na⁺, K⁺- ATPase activity of 0.1-1.6 μfnol of P_i.h^?1.mg^?1 dry wt, representing 0.04-1.5 per cent recovery; a nucleic acid content of 0.2-0.7 per cent of myelin dry wt, representing 0.2-2.0 per cent recovery; and a ganglioside NANA content of 0.04-0.07 per cent of myelin dry wt. representing 0.2-4.6 per cent recovery. The myelin prepared from 20-day animals had the highest content of the first three constituents; otherwise the values of the four constituents were relatively constant per unit weight of myelin. The amounts of nucleic acid and ganglioside recovered in the myelin fractions increased with increasing age and myelin yield.     

Effect of Malnutrition and Subsequent Rehabilitation on the Development of Mouse Brain Myelin

Abstract: Malnutrition in mice from birth resulted in myelin of brain having higher than normal molar proportions of cholesterol and phospholipids relative to a molar unit of cerebroside + sulphatide. This was found at all ages between 20 and 60 days, and the molar ratio of these lipids in older animals was comparable to that in the younger controls. The phospholipid and the ganglioside patterns were also immature for age. The phospholipid composition was characterized by lower molar proportions of ethanolamine phosphoglyceride (EPG) and sphingomyelin (SPh) and higher proportion of choline phosphoglyceride (CPG), and the ganglioside pattern was characterized by higher molar proportions of the disialogangliosides G_Dla and G_Dlb and markedly lower proportion of the monosialoganglioside G_M1. Malnutrition imposed from 30 days of age did not affect the contents of the major lipids (and so their molar ratio), but within the phospholipids there was a small but significant deficit of SPh, which was compensated by a higher content of CPG. The ganglioside pattern was as if the animals were malnourished from birth. Nutritional rehabilitation up to 60 days of age subsequent to malnutrition for the first 30 days fully corrected the ganglioside pattern, but not the molar ratio, of the major lipids (because of persistent deficit in cerebroside + sulphatide) and the composition of the phospholipids (because of small but significant deficit of SPh). The results indicate that malnutrition instituted at any time during the entire programme of myelination can affect one or other aspect of myelin development, and nutritional rehabilitation of animals malnourished in early life cannot fully correct this developmental gap.     

Myelin Gangliosides in Vertebrates

Abstract: A phylogenetic survey of brain myelin ganglioside patterns and concentrations has been carried out on 16 vertebrate species. Gangliosides were isolated from purified myelin and found to vary in concentration from 25 μg of sialic acid per 100 mg of myeh for goldfish to a value of 395 for turkey. The latter species had approximately equivalent amounts of G_M1 and G_M4 as the two major gangliosides. The 11 mammals studied all had G_M1 as the major ganglioside, with variable amounts of G_M4; rhesus monkey and human had 20-25% G_M4, whereas the others had less than 10%. Amphibia and fish myelin contained the least total ganglioside, with patterns that showed relatively little G_M1 and no detectable G_M4. Alligator myelin was unique in having a total concentration as high as the avian species, but a pattern with predominantly diand trisialo gangliosides.     

GANGLIOSIDES IN DEVELOPING MOUSE BRAIN MYELIN

Abstract— Gangliosides were isolated from myelin prepared from mouse brains of different ages (23 to 490 days). Quantitative estimation of lipid-bound sialic acid levels indicated a gradual increase from 560 μg/g of myelin at 23 days to about 1200 μg/g of myelin at older ages. The major ganglioside in all myelin preparations was the monosialoganglioside G₄ (G_M1). However, considerable amounts of di- and trisialo species also were found in myelin from young animals. In contrast to human myelin in which the monosialoganglioside, sialosylgalactosylceramide (G₇) was highly enriched (L edeen et al. , 1973), a much smaller enrichment of this ganglioside was noticed in mouse brain myelin. Ganglioside G₇ was not detectable in myelin until the animals were 35 days old, and showed a slight increase with increasing age after that. The results strongly indicated that the concentration of G₇ in myelin is species specific and age dependent. The study also demonstrated that the ganglioside accretion in developing mouse brain myelin was attributable to the enrichment of monosialogangliosides G₄ (G_M1), G₅ (G_M2) and G₇ at the expense of polysialogangliosides.     

Subcellular Fractionation of Rat Sciatic Nerve and Specific Localization of Ganglioside LM1 in Rat Nerve Myelin

Subcellular fractionation of rat sciatic nerve was developed to determine the specific localization of gangliosides in the nerve membrane fractions. Myelin, microsomal, and a plasma membrane-like fraction were isolated and purified by sucrose density gradient centrifugation. These subfractions were characterized by electron microscopy, marker enzyme assays, and their protein and lipid profile. In rat sciatic nerve myelin, 90 mol% of the total gangliosides were monosialogangliosides. LM1 (sialosyl-lactoneotetraosylceramide) (61 mol%) and GM3 (21%) were the major gangliosides of the rat nerve myelin. Two other neolacto series of gangliosides, viz., sialosyl-lactoneonorhexaosylceramide and sialosyl-lactoneooctaosylceramide, were also localized mostly in the myelin fraction. GM1 was only a minor (less than 2%) ganglioside in myelin. The ganglioside patterns of the microsomal and plasma membrane-like fractions were similar with minor quantitative differences and were entirely different from that of myelin. Monosialogangliosides were approximately 70-75 mol% of the total in these fractions. The major gangliosides of the microsomal and plasma membrane-like fractions were GM3 (approximately 40%) and GM1 (approximately 20%). LM1 in these fractions was minimal (less than approximately 5%). Significant amounts of GM3 with N-glycolylneuraminic acid (approximately 10%) and GM1b (4-14%) were also identified in the microsomal and plasma membrane-like fractions but not in myelin. These and the higher lactoneo series of gangliosides have not been previously reported to be present in the rat nervous system. Almost exclusive localization of LM1 in myelin in rat peripheral nervous system is consistent with our previous observation that deposition of LM1 in the nerve with age was very similar to that of myelin marker lipids cerebrosides and sulfatides.     

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.     

Age-Related Changes in the Ceramide Composition of the Major Gangliosides Present in Rat Brain Subcellular Fractions Enriched in Plasma Membranes of Neuronal and Myelin Origin

Abstract: Age-related changes of the ceramide composition of gangliosides were studied in the synaptosomal and myelin fractions from rat brain, carrying plasma membranes of neuronal and glial origin, respectively. The five major gangliosides (GM1, GD1 a, GD1 b, GT1 b, and GQ1 b) present in these fractions were separated and quantitated by normal-phase HPLC. Each ganglioside was then fractionated by reverse-phase HPLC into the molecular species carrying a single long-chain base (LCB). The largely preponderant LCBs in the synaptosomal and myelin fractions were the C18:1 and C20:1. The content of C20.1 LCB, generally low at 1 month, increased with age in all analyzed gangliosides and in all subcellular fractions and was greater in the "b series" than in the "a series" gangliosides. Remarkably, GM1 was the only ganglioside where the proportion of LCB 20:1 was higher in the synaptosomal fraction than in the myelin fraction. The fatty acid composition of the C18:1 or C20:1 LCB species of the different gangliosides in the synaptosomal and myelin fractions did not undergo appreciable changes with age. Stearic acid was largely predominant in all the gangliosides of the synaptosomal fraction, more in the C18:1 than in the C20:1 LCB species (80–90% vs. 60–70%). The gangliosides of the myelin fraction were characterized by a lower content of 18:0 and a much higher content of 16:0 and 18:1 fatty acids than those of the synaptosomal fraction. Thus, the ceramide composition is different in the gangliosides of neuronal and myelin origin and appears to be subjected to an age-related control.     

Turnover of myelin lipids in aging brain

Turnover rates of myelin membrane components in mouse brains were determined by a method using stable isotope-labeling and mass spectrometry. The half-replacement times based on incorporation rates of newly synthesized molecules for young adult mice were 359 days for cholesterol, 20 days for phosphatidylcholine, 25 days for phosphatidylethanolamine, 94 days for cerebroside and 102 days for ganglioside GM1. The turnover rates of half-lives of myelin components were calculated from the decay curves of initially labeled molecules, and they were about the same as the half-replacement times. Individual components were thus revealed to be metabolized at different rates, and their turnover rates were differently affected by aging. As was observed with phospholipids, myelin pools appeared to be compartmentalized into rapidly and slowly exchanging pools. The turnover rates of cerebroside and GM1 decreased between the young and adult periods and slightly increased in senescence. The latter phenomenon may indicate an enhanced myelin turnover in senescence. The present study reveals the dynamic aspects of myelin membrane turnover during the life span of mouse.     

Serum ganglioside patterns in multiple sclerosis

The relative distribution of gangliosides was determined in the serum of 37 patients with multiple sclerosis (MS) and of 30 healthy subjects. There was a significant increase of GM1 and GD1a, and a decrease of GM3 proportion in the serum of relapsing-remitting MS patients (RRMS) during their first MS attack. The RRMS patients in relapse with a long duration of the disease had a significant decrease of GM1 and an increase of GD1a portion in the serum. An increase of GD1a, one of the major brain neuron ganglioside fraction, suggested the neuron injury in the early and with a long duration RRMS. The finding of an increase of GM1, the main human myelin ganglioside, during the first MS attack in RRMS patients confirms previous evidence for the possible involvement of gangliosides in the early pathological course of demyelination in MS.     

Heterosis for brain myelin content in mice

Biochemical evidence of heterosis (hybrid vigor) for brain myelin content is presented. The concentrations of cerebroside and G_M1 ganglioside, two glycolipids known to be abundant in myelin, were higher in the brains of (C57BL/6J × DBA/2J) F₁ hybrids than in the brains of either parental strain. Furthermore, brain water content, which is known to be inversely related to myelin content, was lower in the F₁ hybrids, especially during the most active period of myelin synthesis. Heterosis was not observed, however, for total brain ganglioside concentration. Additionally, the results do not substantiate a direct developmental-genetic relationship between brain myelin content and susceptibility to audiogenic seizures.     

Further Characterization of a Myelin-Associated Neuraminidase: Properties and Substrate Specificity

A neuraminidase activity in myelin isolated from adult rat brains was examined. The enzyme activity in myelin was first compared with that in microsomes using N-acetylneuramin(alpha 2----3)lactitol (NL) as a substrate. In contrast to the microsomal neuraminidase which exhibited a sharp pH dependency for its activity, the myelin enzyme gave a very shallow pH activity curve over a range between 3.6 and 5.9. The myelin enzyme was more stable to heat denaturation (65 degrees C) than the microsomal enzyme. Inhibition studies with a competitive inhibitor, 2,3-dehydro-2-deoxy-N-acetylneuraminic acid, showed the Ki value for the myelin neuraminidase to be about one-fifth of that for the microsomal enzyme (1.3 X 10(-6) M versus 6.3 X 10(-6) M). The apparent Km values for the myelin and the microsomal enzyme were 1.3 X 10(-4) M and 4.3 X 10(-4) M, respectively. An enzyme preparation that was practically devoid of myelin lipids was then prepared and its substrate specificity examined. The "delipidated enzyme" could hydrolyze fetuin, NL, and ganglioside substrates, including GM1 and GM2. When the delipidated enzyme was exposed to high temperature (55 degrees C) or low pH (pH 2.54), the neuraminidase activities toward NL and GM3 decreased at nearly the same rate. Both fetuin and 2,3-dehydro-2-deoxy-N-acetylneuraminic acid inhibited NL and GM3 hydrolysis. With 2,3-dehydro-2-deoxy-N-acetylneuraminic acid, inhibition of NL was greater than that of GM3; however, the Ki values for each substrate were almost identical. GM3 and GM1 also competitively inhibited the hydrolysis of NL and NL similarly inhibited GM3 hydrolysis by the enzyme. These results indicate that rat brain myelin has intrinsic neuraminidase activities toward nonganglioside as well as ganglioside substrates, and that these two enzyme activities are likely catalyzed by a single enzyme entity.     

Myelin Gangliosides of Human Peripheral Nervous System: An Enrichment of GM1 in the Motor Nerve Myelin Isolated from Cauda Equina

Myelins of the PNS were isolated from human motor and sensory nerves of cauda equina, and their ganglioside compositions were compared. The predominant ganglioside in the human PNS myelins, both from motor and sensory nerves, was LM1 (sialosylneolactotetraosylceramide). Sialosyl-nLc6Cer and disialosyl-nLc4Cer, GD3, GM3, and GD1b were detected as common components of the two nerve myelins. Furthermore, it was revealed that the motor nerve myelin contained GM1 (about 15% of total gangliosides), whereas sensory nerve myelin contained only a trace amount of GM1 (less than 5%), by TLC analyses together with TLC immunostaining using anti-GM1 antibody. As for the disialoganglioside fraction, the content of GD1a, as well as that of GM1, differed in motor and sensory nerves. Thus, the different contents of the ganglioseries gangliosides in human motor and sensory nerve myelins were demonstrated.     

Chronic relapsing experimental allergic encephalomyelitis. Cytotoxicity effected by a class II restricted T cell line specific for an encephalitogenic epitope

We have examined the possibility that Ag-specific CTL responses may play a role in the pathogenesis of CREAE by using an effector T cell line (LN400) specifically reactive to the SJL encephalitogenic epitope defined by myelin basic protein MBP residues(90-101). The LN400 cell line was capable of adoptively transferring CREAE to naive SJL mice and proliferated specifically to synthetic peptides corresponding to MBP residues(90-101) and an N-acetylated analogue of this epitope, as well as MBP. Moreover, the cell line generated Ag-specific CTL responses only against syngeneic targets that had been pulsed with these Ag. Targets pulsed with irrelevant Ag were not lysed. These CTL responses were MHC restricted to H-2s and were inhibited if targets were preincubated with mAb specific for relevant class II Ag. No inhibition was seen if targets were preincubated with mAb specific for class I Ag, indicating that the CTL responses generated by this L3T4+ Lyt-2.2- cell lines were class II restricted. Studies designed to detect nonspecific CTL through a bystander mechanism failed to demonstrate significant lysis of bystander targets by this Ag-specific cell line. These findings have relevance in defining potential mechanisms of disease induction in this model autoimmune disease.     

Myelin Gangliosides: An Unusual Pattern in the Avian Central Nervous System

Abstract: Gangliosides were isolated from purified myelin obtained from brain and spinal cord of mature chickens and pigeons. Total concentrations were approximately two- to fivefold greater than for previously reported mammalian species, and their patterns also differed in containing significantly more sialosylgalactosylceramide (G_M4). The latter comprised one-third to one-fourth of total myelin ganglioside, approximately equivalent to G_M1 (II³NeuNAc-GgOse₄Cer). As in mammals, G_M4 of avian CNS appeared to be localized in myelin. Fatty acids of this ganglioside included both the hydroxy- and unsubstituted types. and, long-chain bases were almost entirely C₁₈. Ganglioside G_M1 split into two closely migrating bands on TLC, the slower of which resembled mammalian G_M1 in having stearate as the main fatty acid with a measurable amount (10%) of C₂₀-sphingosine; the faster band had predominantly longer-chain fatty acids and very little C₂₀-sphingosine.     

The content and composition of gangliosides in brain subcellular fractions of the frog Rana temporaria

Ganglioside distribution in various frog brain subcellular fractions (myelin, microsomes, mitochondria, synaptosomes, plasma membranes of nerve endings and synaptic vesicles) was investigated. The synaptosomes and plasma membranes of nerve endings were found to be the main places of ganglioside localization, ganglioside concentration being 2.42 and 1.79 times higher than that in homogenates. Gangliosides were shown to be present in synaptic vesicles. The characteristic features of gangliosides from frog brain and its subcellular fractions are the predominance of polysialogangliosides with 3-5 sialic acid residues (up to 57.4%), low content of monosialogangliosides (not more than 7%) and the presence of disialogangliosides with short carbohydrate chain. The increase of ganglioside content per one nerve cell during phylogenetic development of vertebrates is discussed.