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1.
Expression of myelin proteins was studied in the brains of 21-day-old normal mice and three dysmyelinating mutants-jimpy, quaking, and shiverer. Total brain polyribosomes and poly(A)+ mRNA were translated in two cell-free systems and the levels of synthesis of the myelin basic proteins (MBPs) and proteolipid protein (PLP) were determined. Synthesis of the MBPs in quaking homozygotes was at or above normal levels but PLP synthesis was significantly reduced to approximately 15% of control values, indicating independent effects on the expression of these proteins in this mutant. Immunoblot analysis of 21-day-old quaking brain homogenates showed a reduction in the steady-state levels of MBPs and PLP, suggesting a failure of newly synthesized MBPs to be incorporated into a stable membrane structure such as myelin. In the shiverer mutant very little synthesis of MBPs was observed, whereas greater synthesis of PLP occurred (approximately 50% of control). Almost no MBP, and low levels of PLP, were detected in the immunoblots, suggesting the possibility of a partial failure of PLP to be assembled into myelin in shiverer. In the jimpy mutant, low levels of MBP synthesis were observed in vitro (approximately 26% of controls) and very little synthesis of PLP was evident. The immunoblots of 21-day jimpy brain homogenates revealed no appreciable steady-state levels of PLP or MBP, again indicating that most newly synthesized MBPs were not incorporated into a stable membrane structure in this mutant. In sum, the data show that in the three cases examined, the mutation appears to affect the expression of the MBPs and PLP independently. Furthermore, regardless of their absolute levels of synthesis these proteins may or may not be assembled into myelin.  相似文献   

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Northern blot and "dot" blot analyses using a myelin basic protein (MBP) specific cDNA probe and in vitro translation techniques were utilized to estimate the relative levels of myelin basic protein messenger RNA (mRNA) in the brains of C57BL/6J control mice, three dysmyelinating mutants (qk/qk, jp/Y, and shi/shi), and three heterozygote controls (qk/+, jp/+, and shi+) during early postnatal development. In general, the MBP mRNA levels measured directly by Northern blot and "dot" blot analyses correlated well with the indirect in vitro translation measurements. The Northern blots indicated that the size of MBP mRNAs in quaking and jimpy brain polysomes appeared to be similar to controls. Very low levels of MBP mRNAs were observed in shi/shi brain polyribosomes throughout early postnatal development. Compared to C57BL/6J controls, accumulation of MBP mRNAs in qk/qk and qk/+ brain polyribosomes was delayed by several days. That is, whereas MBP mRNA levels were below normal between 12 and 18 days, normal levels of message had accumulated in both qk/qk and qk/+ brain polyribosomes by 21 days. Furthermore, normal levels of MBP mRNAs were observed to be maintained until at least 27 days. MBP mRNA levels remained well below control levels in jp/Y brain polyribosomes throughout early postnatal development. The levels did, however, fluctuate slightly and peaked at 15 days in both jp/Y and jp/+ brains, 3 days earlier than in normal mice. Thus, it appears that jimpy and quaking mice exhibit developmental patterns of MBP expression different from each other and from C57BL/6J control mice.  相似文献   

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Expression of myelin protein genes in the developing brain   总被引:1,自引:0,他引:1  
The major myelin proteins fall into two classes, the basic proteins and the proteolipid proteins. In mice, five forms of the myelin basic protein (MBP) have been identified with apparent molecular masses of 21.5 kD, 18.5 kD, 17 kD and 14 kD. The 17 kD MBP variant consists of two molecular forms with similar molecular masses but different amino acid sequences. Cell-free translation studies and analyses of MBP cDNAs have shown that each of the MBP variants is encoded by a separate mRNA of approximately 2 000 bp. The five mouse MBP mRNAs appear to be derived by alternative splicing of exons 2, 5, and 6 of the MBP gene. cDNAs encoding four forms of MBP have been isolated from a human fetal spinal cord library. The mRNAs corresponding to these cDNAs are probably derived by alternative splicing of exons 2 and 5 of the human MBP gene. Proteolipid protein (PLP) cDNAs have been isolated from several species and used to establish that the size of the major PLP mRNA is approximately 3 kb. Multiple size classes of the PLP mRNAs exist in mice and rats whereas the 3 kb mRNA is the predominant form in the developing human spinal cord. In normal mice, maximal expression of the PLP gene lags behind that of the MBP gene by several days. Studies on dysmyelinating mutants have determined some of the molecular defects with respect to these two classes of myelin proteins. For example, there is a deletion of a portion of the MBP gene in the shiverer mutant. In the quaking mutant, the expression of both classes of myelin proteins is significantly reduced prior to 3 weeks. However, after 3 weeks, MBP expression approaches normal levels but the newly synthesized protein fails to be incorporated into myelin. In the jimpy mutant, although the expression of both classes of proteins is reduced, PLP expression is most severely affected.  相似文献   

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Myelin Proteolipid Protein Gene Expression in Jimpy and Jimpymsd Mice   总被引:2,自引:1,他引:1  
Proteolipid protein (PLP) gene expression was studied in the dysmyelinating mouse mutant jimpy(msd) (jpmsd; myelin synthesis deficient) and compared with that in wild-type mice and the allelic mutant, jimpy (jp). Southern analyses of genomic DNA from jpmsd mice revealed no major rearrangements of the PLP gene relative to the wild-type mouse PLP gene. PLP-specific mRNA levels were significantly reduced in these mutant mice, although both the 3.2- and 2.4-kilobase PLP-specific mRNAs were seen. Also, no size differences in either PLP or DM20 mRNAs were found by S1 nuclease assays of brain RNA from either jpmsd or wild-type mice. Both PLP and DM20 protein were detectable at low levels in jpmsd brain homogenates, and these proteins comigrated with PLP and DM20 protein from normal mice. Western analyses showed an altered PLP:DM20 ratio in jpmsd mice relative to wild-type mice; DM20 levels exceeded PLP levels. It is surprising that a similar pattern of expression was seen in normal mice at less than 10 days of age: DM20 protein expression preceding PLP expression. Thus, jpmsd mice are capable of synthesizing normal PLP and DM20 protein; however, the PLP gene defect has affected the normal developmental pattern of expression for these two proteins.  相似文献   

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Alpha Hydroxylation of lignoceric acid (n-tetracosanoic acid) to cerebronic acid (2-hydroxylignoceric acid) by postnuclear preparations of brains from developing rat, mouse, and several neurological mouse mutants was studied. The preparations of brains from jimpy and myelin synthesis deficiency (msd) mice were found to synthesize cerebronic acid at less than 10 percent of their control rates, and those from quaking and dilute-lethal approximately 30 and 50 percent, respectively. The apparent low rate of in vitro hydroxylation by brains of the mutant mice appeared to be due to decreased synthesis rather than increased oxidation of cerebronic acid. Mixing experiments eliminated the possibility of an inhibitor in the mutant or an activator in normal animals. The preparations of brains from wabbler-lethal, ducky, and weaver mice showed normal activity. The developmental pattern of the hydroxylase activity was examined in quaking, jimpy, and their control mice. In normal brains the hydroxylase activity was low in the immediate postnatal period, increased sharply between 10 and 20 days after birth, and fell to a low level following maturation of the brain. The hydroxylase activity in quaking mice changed similarly during brain development but at a much reduced level. The brains of jimpy mice had barely detectable hydroxylase activity which changed little with age and reached a peak at about 15 days postpartum. The subnormal hydroxylase activity in brains of quaking mice and the near absence in brains of jimpy and msd mice correlate with the observations that myelin deficiency is more severe in jimpy and msd than in quaking. These results suggest a close association of the synthesis of cerebronic acid with the synthesis of the characteristic myelin lipid that is cerebroside (N-acyl sphingosine beta-D-galactoside).  相似文献   

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Recovery of Proteolipid Protein in Mice Heterozygous for the Jimpy Gene   总被引:1,自引:1,他引:0  
We have measured levels and synthesis of proteolipid protein (PLP) and its transport into myelin in female mice heterozygous for the jimpy gene and in their normal female littermates. In both cord and cerebrum, jimpy carriers show deficits in PLP during development followed by compensation in adulthood. Recovery of PLP occurs earlier in cord than in brain. At 13 days levels of PLP in carriers compared to controls are reduced to 0.60 and 0.44, respectively, in cord and cerebrum. By 100 days, normal levels of PLP are attained in cord (1.13) whereas levels of PLP in cerebrum are only 0.78 of control. By 200 days full recovery occurs in cerebrum, with a ratio of 1.21, suggesting a possible over-compensation. The yield of myelin from cerebrum was reduced to 0.78 in carriers compared to controls at 17 days. In brain slices, incorporation of [3H]leucine into homogenate PLP from carriers is the same as in controls, whereas [3H]leucine incorporation into myelin PLP is reduced to 0.68 of control. These results indicate that synthesis of PLP in the carriers is normal at 17 days, but transport of PLP into myelin is reduced. Similarly, acylation of homogenate PLP is normal, whereas acylation of myelin PLP is reduced, as measured by incorporation of [3H]palmitic acid. Transport of PLP into myelin was compared to transport of MBP; transport of both proteins was equally decreased as indicated by the similar ratio of labeled PLP to MBP in myelin from carriers compared to noncarriers.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

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Characterization of myelin proteolipid mRNAs in normal and jimpy mice.   总被引:12,自引:0,他引:12       下载免费PDF全文
A clone specific for the rat myelin proteolipid protein (PLP) was isolated from a cDNA library made in pUC18 from 17-day-old rat brain stem mRNA. This clone corresponded to the carboxyl-terminal third of the PLP-coding region. The clone was used to identify PLP-specific mRNAs in mouse brain and to establish the time course of PLP mRNA expression during mouse brain development. Three PLP-specific mRNAs were seen, approximately 1,500, 2,400, and 3,200 bases in length, of which the largest was the most abundant. During brain development, the maximal period of PLP mRNA expression was from 14 to 25 days of age, and this was a similar time course to that for myelin basic protein mRNA expression. When the jimpy mouse, an X-linked dysmyelination mutant, was studied for PLP mRNA expression, low levels of PLP mRNA were seen which were approximately 5% of wild-type levels at 20 days of age. When jimpy brain RNA was analyzed by Northern blotting, the PLP-specific mRNA was shown to be 100 to 200 bases shorter than the wild-type PLP-specific mRNA. This size difference was seen in the two major PLP mRNAs, and it did not result from a loss of polyadenylation of these mRNAs.  相似文献   

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An ontogenetic survey of the basic protein of myelin, common to both central and peripheral nervous systems, was carried out on normal C57Bl and five dysmyelinating mutant mice. Myelin basic protein (MBP) was quantified by radioimmunoassay in the optic and sciatic nerves of mice from birth to adult stages, giving special attention to the premyelinating and early myelination periods. In the optic nerves of normal mice, MBP was already detectable at birth but the active period of myelin deposition was shown to occur after day 10 postnatal. The timing and rate of accumulation of MBP were normal in Trembler. In contrast, they were abnormal in the other mutants. In the quaking mouse, the active period of MBP deposition was delayed, and its final concentration represented no more than 12% of normal in the adult. No active period of MBP deposition was observed in the other mutants. In the jimpy mouse, a slow accumulation of MBP resulted in a final concentration reaching 2% of the normal value at 25 days. In mild and shiverer mice, the MBP was hardly detectable. In the sciatic nerves of normal mice, the active period of MBP deposition occurred between days 3 and 12 postnatal. No substantial changes occurred in the period of 2 months--2 years.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

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Abstract— A developmental study of proteolipids from brains of normal mice and two myelin deficient mutants, jimpy and quaking, was performed. The proteolipids were obtained by diethyl ether precipitation of washed total lipid extracts from whole brains and were analysed on polyacrylamide gels containing sodium dodecyl sulphate. The amount of ether precipitable material extractable from normal brains increased almost six-fold between 12 and 21 days posr partum. This increase was not observed with the mutant mice. Polyacrylamide gel electrophoretic analysis of the proteolipid fraction showed it to be heterogeneous, with eight major protein bands. Two of these proteins increased rapidly in quantity in normal mice between 13 and 21 days. These two proteins were present, in severely reduced quantities in the brains of jimpy and quaking mice at all ages examined. One of these proteolipids was the major species present in proteolipid extracts from the brains of normal mature mice. This protein coelectrophoresed with proteolipid isolated from purified myelin and has been tentatively identified as the myelin proteolipid. The other proteolipid which was deficient in jimpy and quaking brains was not characterized, but it appeared to be of extra-myelin origin, and suggests that parts of the brain other than the myelin sheath may be involved in the jimpy and quaking disorders.  相似文献   

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Abstract: 5'Nucleotidase and Na+,K+-ATPase are very probably myelin-associated enzymes, although not specific for this membrane. Thus, it is important to determine their activity in dysmyelinating mutants in either CNS (quaking, jimpy, shiverer, and mld) or PNS (Trembler). CNS: The activity of 5'nucleotidase was lower in mouse than in rat (10.5 and 28.0 nmol/min/mg protein in brain, respectively). In mouse myelin, the activity was 30 nmol/min/mg protein (and 72 in rat myelin). In mutants, the brain activity was very close to normal. In contrast, ATPase, the activity of which was higher in myelin as compared with forebrain homogenate, presented a reduced activity in various 21-day-old and adult mutants, except Trembler. It was normal in 8-day-old quaking and in cerebella from mutants. PNS: ATPase was lower than in brain and reduced in most mutants, this being expected for Trembler and quaking but not for shiverer and mld. 5'-Nucleotidase activity was higher compared with that in brain homogenate (relatively stable between 10-day postnatal and adult). It was affected in the mutants; in Trembler it was nearly normal in young animals but increased during development. Thus in Trembler, two different myelin-related enzymes and a myelin-specific enzyme (CNPase) presented different developmental patterns: ATPase was always reduced, 5'-nucleotidase was normal, and CNPase was slightly below normal in young (68% of the control value); CNPase activity declined during development but 5'-nucleotidase increased (42% and 190% of the control in 60-day-old animals). It is necessary to consider these results in parallel with alterations in the PNS because of Schwann cell abnormalities. Thus, determination of these two enzymes will provide a useful tool to study myelination and myelin assembly under both normal and pathological conditions.  相似文献   

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Brain and spinal cord of female mice heterozygous for the jimpy gene were analyzed during development for activity of ceramide galactosyl transferase (CGT) and for levels of myelin basic protein (MBP). CGT activity was low at 13-14 days in brains of heterozygous jimpy females but showed normal levels by 31-36 days, in agreement with our earlier study of this enzyme. In cord, CGT activity was normal or slightly above normal at all ages studied, from 13-14 days into adulthood. In both brain and cord, decreased levels of MBP were observed at 13 days; by 100 days, amounts of MBP approached normal levels. Proven female carriers of the jimpy gene also showed normal levels of CGT activity, MBP, and isolated myelin at 200-250 days of age in both brain and cord. These biochemical findings agree with previous morphologic measurements in cord demonstrating deficits in myelin at early ages but compensation by 100 days. Our results show that compensation occurs earlier in cord than in brain and that levels of MBP show a closer correlation than CGT activity with amounts of myelin, as measured by either morphometric analysis or direct isolation.  相似文献   

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PLASMALOGENASE ACTIVITIES IN THE BRAINS OF JIMPY AND QUAKING MICE   总被引:1,自引:1,他引:0  
The activity of plasmalogenase, which hydrolyzes the vinyl ether linkage of the plasmalogen molecule, increased markedly in control mouse brains during the period of most active myelin deposition. Only a slight increase in plasmalogenase activity was found in brains from jimpy mice. At all ages studied, the jimpy mouse brains had less plasmalogenase activity than the littermate control brains and this disparity increased with increasing age. By 25 days of age the jimpy brains contained only 43% of the activity observed in control brains. Adult quaking mouse brains also had significantly less plasmalogenase activity when compared to littermate controls. Thus, the plasmalogenase activities correlate well with the degree of myelination.  相似文献   

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Jimpy mice are dysmyelinating mutants characterized by producing near normal levels of myelin basic protein (MBP) in the brain but failing to incorporate these proteins into the myelin sheath. In this study, the activity of MBP-specific protein-arginine N-methyltransferase (protein methylase I) was studied in the brains of normal and jimpy mice of different ages. The enzyme activity varied little with age in normal mice but in 18 and 21 days-old homozygous jimpy mice the activity was reduced by 50% and 75% respectively from the level of their normal littermates. Interestingly, however, heterozygous jimpy mice who are phenotypically normal and quaking mice (a similar dysmyelinating mutant) showed unaltered enzyme levels.  相似文献   

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