SPINAL CORD LIPIDS AND MYELIN COMPOSITION IN BORDER DISEASE (HYPOMYELINOGENESIS CONGENITA) OF LAMBS

Spinal cords from clinically affected newborn lambs, each with muscular spasms (‘shaking’) and a ‘hairy’ birth coat, were found to be deficient in DNA and to contain less myelin and various lipid components, suggesting retarded CNS development equivalent to about 124 days conceptual age. Cerebrosides were notably deficient in whole cord and isolated myelin and contained more saturated and less unsaturated fatty acids than normal. The rate of cerebroside synthesis assayed in vitro was enhanced and taken with the very low tissue concentrations this indicated faster cerebroside turnover and a less stable myelin in the spinal cords of lambs affected with Border Disease. Marked decreases in plasmalogen concentrations, the redistribution of phospholipid fractions, the presence of about 8 per cent cholesterol in the esterified form and the characteristic fatty acid composition of these esters strongly suggest that degeneration is concomitant with myelin immaturity. Hypocupraemia, low concentrations of copper in the cerebrum and increased concentrations in spinal cord myelin are additional features of the clinical disease. The latter result may be related to myelin immaturity.     

CONGENITAL HYPOMYELINOGENESIS (BORDER DISEASE) OF LAMBS: POSTNATAL NEUROCHEMICAL RECOVERY IN THE CENTRAL NERVOUS SYSTEM

Abstract— In a neurochemical study of experimental Border Disease in lambs it was found that the fresh weights of four parts of the CNS (cerebrum, cerebellum, brain stem and spinal cord) from clinically affected lambs were significantly smaller than those of controls at birth but by 20 weeks of age the cerebrum, cerebellum and brain stem had reached near normal weights. The spinal cord was still considerably smaller, however. Clinical symptoms of the disease (muscular spasms and'hairy'birthcoat) had disappeared during this period, accompanied by a regression in the neurochemical abnormalities seen at birth. Thus the deficiency of myelin lipids was partially made up by the rapid deposition of cerebrosides and by 20 weeks differences in the fatty acid composition of this lipid fraction were no longer apparent. Myelin degeneration as indicated by the presence of elevated levels of esterified cholesterol was apparently absent at 20 weeks of age and this was parallelled by a fall in the level of'anti-myelin'antibodies in the sera of affected lambs. The altered distribution of copper in spinal cord myelin seen at birth had also become nearly normal at the end of the period.     

NEUROCHEMISTRY OF THE SPINAL CORD IN CONGENITAL TREMOR OF PIGLETS (TYPE AII), A SPINAL DYSMYELTMOGENESIS OF INFECTIOUS ORIGIN

Abstract— In piglets affected with congenital tremor type AII the CNS was not morphologically underdeveloped; spinal cord weight, total DNA content and fat-free dry matter differed little from control values. However the total lipid extractable from affected spinal cords was only about 63% of values established for normal newborn piglets. In particular, the cerebroside content (a myelin-specific lipid) was reduced to about 30% of the 'normal' value. This was parallelled by the results of an in vitro assay of cerebroside synthesis from [³H]galactose which indicated a metabolic impairment. The altered fatty acid profile of isolatcd cerebrosides further suggested a derangement of fatty acid synthesis. Unlike the spinal cords of normal newborn piglets, tissues from affected piglets contained significant amounts of cholesterol esters carrying the characteristic fatty acids associated with demyelination. This implied that the reduced quantities of possibly abnormal myelin were unstable. Abnormal swollen oligodendrocytes were commonly present in the spinal cords of affected piglets and this was consistcnt with the observed impairment of myelin formation.     

NEUROCHEMISTRY OF THE SPINAL CORD IN EXPERIMENTAL BORDER DISEASE (HYPOMYELINOGENESIS CONGENITA) OF LAMBS

Abstract— The total lipid, cholesterol (free and esterified), cerebroside, phospholipid and fat-free dry matter contents were estimated in spinal cords of lambs affected with experimentally produced Border Disease. Comparisons were made with a healthy control group and with a group of lambs obtained from vaccinated ewes.
Clinically affected lambs showing tremors ('shaking'), a'hairy'birthcoat or both were found to possess one or two myelin lipid abnormalities. These were a generalised deficiency of myelin lipids (notably cerebroside) and the presence of abnormal quantities of esterified cholesterol. The former was particularly associated with the birthcoat defect and the latter with the neurological signs.
Previous exposure of the ewes to the infective agent (vaccination 28 days before mating) appeared to give considerable protection against the degenerative lipid changes and against 'shaking'but less against myelin dysgenesis and'hairiness'.     

Lipid class analysis of the central nervous system of myelin-deficient Wistar rats

Brains and spinal cords of myelin-deficient (md) and littermate control rats were analyzed serially for myelin lipids during the period from 13 to 32 days of age. The glycolipids of md rat brains were severely reduced and remained so during the period of study; brain cholesterol and phospholipids increased moderately but never reached the values for control brains. Deficiency of all three lipid classes was marked in the spinal cord and did not change with age. Among the glycolipids of md rats, deficiency was more severe in cerebrosides than sulfatides. The pronounced reduction of cerebrosides in the early stages of myelination suggests that abnormal synthesis of these glycolipids may be the most important biochemical anomaly responsible for myelin deficiency.--Csiza, C.K. Lipid class analysis of the central nervous system of myelin-deficient Wistar rats.     

Biochemical Abnormalities in Spinal Cord Myelin and CNS Homogenates in Heterozygotes Affected by the Shiverer Mutation

Myelin was purified from the spinal cords of normal mice and mice heterozygous for the shiverer mutation, and measurements were made of the major myelin proteins and lipids and the specific activities of three myelin-associated enzymes. The myelin purified from the spinal cords of the heterozygotes (shi/+) was deficient by 30-40% in yield and had an apparently unique composition. In particular, when compared with normal mouse spinal cord myelin, there were more high-molecular-weight protein, less myelin basic protein, a higher protein-to-lipid ratio, and higher specific activities of 2',3'-cyclic nucleotide-3'-phosphohydrolase (EC 3.1.4.37) and carbonic anhydrase (EC 4.2.1.1) in the myelin purified from the shi/+ animals. These abnormalities were reflected in the composition of shi/+ whole spinal cord, where the protein-to-lipid ratio was intermediate between the respective values for +/+ and shi/shi spinal cords. Whole brains from shi/+ mice showed deficiencies in galactocerebroside and galactocerebroside sulfate and an increase in total phospholipid, and the lipid composition in the brains of the shi/shi mice was similar to that reported for another dysmyelinating mutant, quaking. The findings provide the first values for the lipids in normal mouse spinal cord myelin and show that heterozygotes are affected by the shiverer mutation. The observations imply that there can be considerable deviation from the normal CNS myelin content and composition without apparent qualitative morphological abnormalities or loss of function and that the amount of myelin basic protein available during myelination may influence the incorporation of other constituents into the myelin membranes.(ABSTRACT TRUNCATED AT 250 WORDS)     

Central nervous system lipid alterations in rats with experimental allergic encephalomyelitis and its suppression by immunosuppressive drugs

Rats with experimental allergic encephalomyelitis (EAE) induced with myelin or spinal cord show decreases in the content of sulphatides and cerebrosides and increases in the level of esterified cholesterol in the CNS. In this work it is shown that brain sulphatide changes can be obtained by injection of mixtures containing glycosphingolipids. Alterations in the content of cerebrosides occur when the injection mixture contains cerebrosides. The alterations of sulphatides and cholesterol ester induced by injection of spinal cord could be suppressed by treatment with immunosuppressive drugs (dexamethasone, cyclophosphamide and 6-mercaptopurine) able to prevent clinical signs of EAE.     

FATTY ACID COMPOSITION OF CEREBROSIDES IN MICROSOMES AND MYELIN OF MOUSE BRAIN

Abstract— The fatty acid composition of cerebrosides isolated from myelin and from light and heavy microsomes of adult mouse brain was determined. 2-Hydroxy fatty acids represented 80 per cent of the fatty acids in myelin cerebrosides and approximately 55 per cent of the fatty acids in both light and heavy microsomes. In myelin, the majority of the fatty acids, both normal and hydroxy, were of chain length > C-20; in microsomes, shorter chain acids (C-16 to C-20) predominated.     

BIPHASIC MYELINATION AND THE FATTY ACID COMPOSITION OF CEREBROSIDES AND CHOLESTEROL ESTERS IN THE DEVELOPING CENTRAL NERVOUS SYSTEM OF THE DOMESTIC PIG

Abstract— The chemical composition of four parts of the CNS (cerebrum, cerebellum, brain stem and spinal cord) was determined in 107 pigs at 11 stages of fetal and postnatal development and also in 6 adults. In cerebrum, cerebellum and brain stem, but not in spinal cord, the rate of increase in weight and the rates of change in lipid content slowed down for a period of about 10 days before and after birth. Cholesterol esters and desmosterol were only found in progressively decreasing amounts during the fetal stages of development and together with DNA these were exceptions to the general increases in the tissue concentrations and total amounts of other components during the period studied.
The onset of myelination, as measured by calculated daily increases in tissue contents of cerebroside took place between 70 and 80 days conceptual age and there were two peaks of activity, the first occurring 2 weeks before and the second 3 weeks after birth. Unlike the rate curve for total spinal cord weight the biphasic accumulation of DNA was not synchronous with myelin lipid accretion and the earlier prenatal DNA peak probably denotes proliferation of oligodendrocytes. The two phases of myelination are discussed in relation to an observed generalized pause in development immediately before and after birth.
Fatty acid analysis of cerebrosides indicated that, in spinal cord, chain elongation and desaturation are associated with myelination and continue with increasing activity until maturity. Consequently there was a progressive decrease in the proportion of saturated fatty acids. The fatty acid components of cholesterol esters in the developing pig were shown to be similar to those found during development in the CNS of other species but different from those found in demyelinating conditions.     

NEUROCHEMISTRY OF THE SPINAL CORD IN BRITISH SADDLEBACK PIGLETS AFFECTED WITH CONGENITAL TREMOR, TYPE A-IV, A SECOND FORM OF HEREDITARY CEREBROSPINAL HYPOMYELINOGENESIS

Congenital tremor, type A-IV is an inherited abnormality of British Saddleback piglets characterized by the presence of poorly myelinated axons throughout the CNS. This is reflected by a general lowering of the spinal cord lipid content to about half control values. In particular, cerebroside and plasmalogen levels are markedly reduced. Changes in the fatty acid composition of total lipid extracts and two isolated cerebroside fractions suggest that there is a metabolic defect in which fatty acid chain elongation, desaturation and hydroxylation are sub-optimal. Cholesterol esters accumulate, make up about 30 per cent of total sterols and contain more than 90 per cent of C16 and C18 fatty acids. These may have arisen through the breakdown of cerebrosides containing abnormal proportions of these acids. Slightly increased levels of acid hydrolase activity appear to confirm that abnormal or immature myelin is disposed of by enhanced macrophagic activity. Differences between this and type A-III, the sex-linked inherited form of cerebrospinal hypomyelinogenesis are discussed and comparisons made with two forms of murine leuko-dystrophy.     

THE EFFECT OF HYPOCHOLESTEREMIC AGENTS ON MYELINOGENESIS

Abstract— Three drugs known to inhibit biosynthesis of cholesterol, Clofibrate, 20, 25-diazacholesterol and AY-9944 were administered by stomach intubation to suckling rats. At weaning the rats were killed and subcellular fractions, including myelin, were prepared from the brains and spinal cords and analysed for sterol content. Central nervous tissue fractions from Clofibrate-treated rats showed some decrease in total sterols, but the sterol species were qualitatively normal. AY-9944 given to rats caused high amounts of 7-dehydro-cholesterol to accumulate in all brain and spinal cord fractions with the highest amounts (32–38 percent of total sterols) in myelin. In diazasterol-treated rats desmosterol reached 48 per cent of the sterols of myelin. A group of rats was allowed to survive after the final drug intake (21 days) and their brain and spinal cord sterol content followed up to 60 days. At 30 days the proportion of dehydrocholesterol or desmosterol comprised over half the total myelin sterol. By 60 days of age the 7-dehydrocholesterol had almost completely disappeared from all fractions while substantial amounts of desmosterol were retained in myelin. Myelination was retarded by treatment with AY-9944 and 20, 25-diazasterol, possibly by the limited amount of sterols available. The metabolism of the abnormal myelin constituents in drug-treated animals is discussed in relation to the molecular structure of the myelin membrane.     

The Lipid Composition of Urodele Myelin Which Lacks Hydroxycerebroside and Hydroxysulfatide

The concentrations of cerebrosides and sulfatides were measured in the nervous systems of urodeles and related orders with a high performance liquid chromatographic technique. The peripheral and central nervous systems of all three urodele species, Necturus maculosis (mud puppy, a salamander), Notophthalmus viridescens (eastern red spot newt), and Desmognathus ochropheus (mountain salamander), were found to be completely devoid of alpha-hydroxy fatty acid-containing cerebrosides and sulfatides. All species of reptiles and fish classes close to urodeles contain these galactolipids. The levels of nonhydroxy fatty acid-containing cerebrosides and sulfatides are essentially similar in both urodeles and reptiles. Myelin isolated from Necturus spinal cord had a specific density of 1.07, lighter than mammalian myelin. Except for the absence of hydroxycerebrosides and hydroxysulfatides, the lipid composition of Necturus spinal cord myelin is essentially similar to that of frog and rat myelin. The fatty acids of nonhydroxycerebrosides are rich in monounsaturated homologs of C22-C25, and the sphingoid base consists of both sphinganine and sphingosine. Electron microscopic examination of the sciatic nerve showed that the general structure and interlamellar distances of salamander and newt myelin are identical to those of frog, chameleon, and rat. Necturus myelin, therefore, can be used as a model for the study of the functional and structural role of hydroxygalactolipids.     

Manifestations of the neurotoxicity of the organochlorine pesticide dilor during the postnatal period in the rat

When pregnant rats are administered chlororganic pesticide dilor, certain ultrastructural changes are observed in neurocytes and in myelin fibers, in the spinal cord, that demonstrates some disorders in cellular and tissue metabolism. In the newborn spinal cords a retarded differentiation is observed against the background of an intense cellular metabolism. By means of the electron paramagnetic resonance technique, an increasing concentration of free radicals in the brains and spinal cords of the pregnant animals and in their one-month-old offsprings is demonstrated. The investigation on fatty acid composition of lipids in pregnant test animals demonstrates a decrease in cholysterine, steroids and some fatty acids in myelin fractions and in synaptosomic membranes.     

CHANGES OCCURRING IN THE CHEMICAL COMPOSITION OF THE CENTRAL NERVOUS SYSTEM DURING FOETAL AND POST-NATAL DEVELOPMENT OF THE SHEEP

(1) The chemical composition of the CNS (separated into cerebrum, cerebellum, brain stem and spinal cord) was determined in sheep during foetal and post-natal development and in adults. (2) The spinal cord differed from the remainder of the CNS in growing more after the period studied (50-day-old foetuses to 5-week-old lambs) than before it. This was largely attributable to lipid accumulation. (3) Chemical growth (accumulation of DNA, protein and lipid) proceeded linearly in spinal cord, logarithmically in cerebrum and cerebellum while in brain stem growth was described by a sigmoid function. (4) Fat-free dry matter, protein, total lipid, cholesterol and phospholipid concentrations increased progressively in all parts of the CNS but DNA concentrations changed little. In the cerebrum alone there was an increase in DNA concentration during maturation suggesting an increased cell population. Cholesterol was present predominantly in the free form but esters were detected in foetal tissues from 70 up to 120 days gestation. (5) Cerebroside, the characteristic lipid of myelin, increased in concentration soon after 85 days of gestation, up to which point very low values were recorded, the rate varying according to the region of the CNS examined. Rates of increase in total regional cerebroside content were used to identify periods of myelination and the results suggest that there are two periods of peak activity, one about 20 days before birth and the other at 10-20 days after birth. (6) The composition of lipids added during the two phases of myelination and during maturation were characteristically different. In the spinal cord, lipid analyses best reflect changes in myelin composition.     

Phospholipids of normal and experimentally injured spinal cord of the miniature pig

Experimental spinal cord trauma was produced in 3-month-old SS-1 minature pigs by dropping a 25 g weight from a height of 20 cm upon the exposed spinal cord. The histological lesion consisted of edema and hemorrhage. Phospholipid concentration and composition, cholesterol concentration and phospholipid fatty acid composition were determined in whole spinal cord 3 hours after injury, and in spinal cord myelin 5 hours after injury. Three hours after injury phospholipid and cholesterol concentration were decreased by about 14% in the whole spinal cord. Trauma had no effect on the phospholipid composition of whole spinal cord and myelin. Fatty acid composition of myelin also did not change after injury, and changed very slightly in the whole spinal cord. It is concluded that edema following spinal cord trauma is much more extensive than previously assumed. Furthermore, peroxidation of membrane lipid fatty acids does not appear to be a significant factor in spinal cord pathology 3 hours after injury.     

Partial deficiencies in the myelin proteins of developing mice heterozygous for the shiverer mutation

The central nervous system of the shiverer mouse is known to be severely deficient in myelin. Animals heterozygous for this autosomal-recessive mutation were crossed, and the myelin proteins were examined in the brains and spinal cords of shiverers and unaffected littermates among the offspring. In the brains and spinal cords of nine of the 14 unaffected littermates examined, the quantities of the myelin basic and proteolipid proteins were lower than normal. Furthermore, in the brains of heterozygotes 33 to ～ 150 days old, the myelin basic and proteolipid proteins were reduced in amount, compared to wild-type controls; the myelin basic protein was also present in subnormal amounts in the spinal cords from heterozygous animals at the ages of 17 to 150 days. More severe reductions in the quantities of the myelin proteins were observed in central nervous system tissue from homozygous shiverer mice, and the quantity of the myelin proteolipid protein in the central nervous system of the shiverer mouse, expressed as a ratio to the control value at each age, underwent a developmental decline. In heterozygotes, as well as shiverers, the peripheral nerves were also deficient in the P₁ and P_r proteins, which are the same as the basic proteins in rodent central nervous system myelin. The findings regarding heterozygotes suggest that the defective primary gene product in the shiverer mouse could be the myelin basic protein itself or a protein required for a rate-limiting step in the processing of the myelin basic protein.     

ANTI-WHOLE WHITE MATTER SERUM INHIBITS INCORPORATION OF GLUCOSE AND GALACTOSE INTO THE LIPIDS OF MYELINATING SPINAL CORD CULTURES

Myelin formation was inhibited in fetal mouse spinal cord cultures in the presence of serum from rabbits with experimental allergic encephalomyelitis produced by inoculation of whole bovine spinal cord white matter in complete Freund's adjuvant. Controls were exposed to decomplemented serum. Replacement of serum in inhibited cultures on the 18th day in vitro (DIV) with control serum (disinhibited) resulted in the appearance of visible myelin within 2–3 days. From 20 to 23 DIV, d -[U-¹⁴C]glucose or d -[U-¹⁴C]galactose was present in all media. Total protein, DNA, gangliosides and galactolipids were reduced by 21% in inhibited cultures, and activity of 2′,3′-cyclic nucleotide 3′-phosphohydrolase was reduced by 50%. There was little reduction in the incorporation of glucose carbon (21–23 DIV) into several lipid classes examined. Labelling of cerebrosides by galactose carbon in inhibited cultures was only 12% of that of controls while there was no reduction in the labelling of neutral lipid–cholesterol and the glycerophosphatides. Galactolipid labelling by [¹⁴C]galactose in the disinhibited cultures was intermediate between inhibited and control cultures. Differences in the effects of inhibiting medium on the incorporation of glucose and galactose carbon indicate that ceramide synthesis is less affected than is galactose incorporation to form cerebroside.     

Lipid content in brain and spinal cord during experimental allergic encephalomyelitis in rats

Abstract— The content of cerebrosides, sulphatides, gangliosides, cholesterol and phospholipids was evaluated in the brain and spinal cord of rats during the acute and recovery stages of experimental allergic encephalomyelitis (EAE). During the acute stage there was a significant decrease of sulphatides and gangliosides in spinal cord; in brain, only sulphatides were diminished. In the recovery stage, cerebrosides and gangliosides were decreased in the brain, whereas the lipid content of the spinal cord was similar to that in control animals. Cholesterol esters were detected in the brain and spinal cord during both periods. The results show that the changes are not the same for brain and spinal cord during the acute and recovery stages and that glycosphingolipids from either white or grey matter seem to be preferentially altered.     

REGIONAL DIFFERENCES IN LIPID COMPOSITION IN RABBIT NERVOUS TISSUE

Lipid composition was determined for different regions of rabbit nervous tissue. In the white matter of adult rabbit, the ratio between cholesterol, phospholipids and sphingolipids was quite constant. Among the subclasses of phospholipids, phosphatidylcholine and sphingomyelin tended to compensate for each other as constituents of myelin, as did galactosphingolipids and sphingomyelin amongst the sphingolipids. The brain was rich in phosphatidylcholine and gakactosphingolipids, while peripheral nerves (PN) were rich in sphingomyelin. The spinal cord showed a composition intermediate between the brain and PN. The sphingolipid to phosphatidylcholine ratio seems to be useful as a myelin maturation index applicable to both CNS and PN. The rostral part of the CNS showed a high ratio of molecular species of cerebroside with α-hydroxy fatty acids to those with unsubstituted fatty acids (CH/CN). The caudal part of the CNS had a high concentration of cerebrosides with C24-monoenoic fatty acids, so that there was an inverse relationship between CH/CN and C24:1/C24:0 for different regions of CNS. The present data show that the lipid composition as well as the fatty acid composition of myelin-specific lipids are influenced by neural differentiation and development or by neuroglial relationships.     

EFFECT OF 1-AMINOCYCLOPENTANE-1-CARBOXYLIC ACID (CYCLOLEUCINE) ON DEVELOPING RAT CENTRAL NERVOUS SYSTEM PHOSPHOLIPIDS

Treatment of developing rats with 1-amino-cyclopentane carboxylic acid (cycloleucine) resulted in changes in brain and spinal cord phospholipid content and fatty acid composition. General findings were a decrease in ethanolamine phospholipid content, and relative increase in the saturated fatty acid content of ethanolamine phospholipid. In all the different cycloleucine experiments conducted, there was consistently less fatty aldehyde present in the methylated ethanolamine phospholipid fatty acid-fatty aldehyde fractions than in corresponding controls. In some experiments fatty aldehyde was almost completely absent, suggesting the presence of little plasmalogen. Changes in fatty acids of phosphatidyl choline, the other phospholipid examined in this manner, were generally minor. Administration of massive amounts of sodium propionate in addition to cycloleucine did not result in an appreciable odd-chain fatty acid increase in the CNS. Examination of the spinal cords by electron microscopy demonstrated considerable myelin splitting in one set of animals. No other ultrastructural changes were evident. The suitability of this drug to produce a neurological condition and pathological state similar to that seen in B₁₂-deficient subacute combined degeneration is discussed.