UMLS:C0040822 - FACTA Search

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Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calcium-activated neutral protease (CANP) in normal and dysmyelinating mutant, paralytic tremor (PT) rabbit myelin and premyelin fractions was studied using immature (4-5 wk) or adult animals. The enzyme was estimated by determination of its catalytic activity as well as by using immunoblot analysis after SDS-PAGE separation. The presence of two forms of CANP--one activated by calcium in the micromolar concentration (mu CANP) range and the other exhibiting low calcium sensitivity in the millimolar concentration range (m-CANP)--was found in the myelin and premyelin fractions. The developmental pattern of the enzyme activity was different for each of these two enzyme isoforms depending on the fraction studied. The higher activity on CANP (both isoforms) found in PT myelin and premyelin could be related to delayed myelination and/or to the higher turnover rate of already formed myelin. These results suggest complex and specific roles for these isoenzymes during myelin formation as is discussed further in this article. Our results confirm the extensive degradation of myelin basic protein (MBP), proteolipid protein (PLP), and, to a lesser extent, the other myelin proteins by endo- and exogenous CANP. This degradation process was significantly elevated in PT rabbit myelin. Moreover as was shown by two-dimensional gel electrophoresis, calcium-controlled proteolysis in nonmutant rabbits affected the net-charge of MBP in a manner similar to that reported for PT myelin, suggesting the possible involvement of CANP in the generation of charge isomers of MBP.
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PMID:Calcium-activated neutral protease (CANP) in normal and dysmyelinating mutant paralytic tremor rabbit myelin. 141 20

A group of inherited neurological disorders are the X-chromosome linked dysmyelinoses, in which myelin membranes of the CNS are missing or perturbed due to a strongly reduced number of differentiated oligodendrocytes. In animal dysmyelinoses (jimpy mouse, msd-mouse, md rat, shaking pup) mutations of the main integral myelin membrane protein, proteolipid protein, have been identified. Pelizaeus-Merzbacher disease (PMD) or sudanophilic leucodystrophy is an X-linked dysmyelinosis in humans. We report here on the molecular basis of the defect of affected males of a PMD kindred. Rearrangements of the PLP gene were excluded by Southern blot hybridisation analysis and PCR amplification of overlapping domains of the PLP gene. Sequence analysis revealed one single C----T transition in exon IV, which leads to a threonine----isoleucine substitution within a hydrophobic intramembrane domain. The impact of this amino-acid exchange on the structure of PLP in the affected cis membrane domain is discussed. A space filling model of this domain suggests a tight packing of the alpha-helices of the loop which is perturbed by the amino-acid substitution in this PMD exon IV mutant. The C----T transition in exon IV abolishes a Hph I restriction site. This mutation at the recognition site for Hph I (RFLP) and allele-specific primers have been used for mutation screening the PMD kindred.
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PMID:A point mutation at the X-chromosomal proteolipid protein locus in Pelizaeus-Merzbacher disease leads to disruption of myelinogenesis. 170 72

The differentiation of the oligodendrocyte from its bipotential progenitor culminates in the production of the myelin-specific proteins and the elaboration of membrane processes that ensheath the axon. Mutations in proteolipid protein (PLP) and its alternatively spliced isoform DM-20, the major protein constituents of central nervous system myelin, are characterized by a significant reduction in the number of mature oligodendrocytes, resulting in severe hypomyelination, tremor and early death. The canine shaking pup carries such a mutation, a single base change that substitutes a proline for a histidine near the first transmembrane region of PLP and DM-20. This mutation hinders oligodendrocyte differentiation, as evidence by a splicing pattern at the PLP locus characteristic of immature oligodendrocytes. The spliced transcript expressed earliest in development, DM-20, continues to be overexpressed in shaking pup oligodendrocytes. The disruption of the normal maturation schedule in these X-linked dysmyelinating disorders suggests that PLP or DM-20 plays a fundamental role in oligodendrocyte development. We propose that, while the more abundant PLP is the primary structural component of myelin, DM-20 may be critical to oligodendrocyte maturation.
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PMID:A point mutation in the proteolipid protein gene of the 'shaking pup' interrupts oligodendrocyte development. 172 45

Myelin proteins were quantitated in whole tissue and isolated 'myelin fractions' from spinal cord, brainstem and hemispheres of 'shaking pups', a mutation in Springer-Spaniel dogs characterized by hypomyelination of the CNS. The amount of myelin basic protein (MBP) in the brainstem of affected 4-week-old pups was 2.6% of that in age-matched controls, while the levels of 2'3'-cyclic nucleotide phosphodiesterase (CNP) and myelin-associated glycoprotein (MAG) were 10% and 15% of the control levels, respectively. Similar results were obtained in the spinal cord and hemispheres, and the amounts of these proteins in the mutant pups did not change substantially between 4 and 16 weeks of age. The amount of the 21 kDa MBP compared to the 18 kDa MBP was relatively increased in the shaking pups, suggesting that the small amount of myelin formed was immature. The yields of myelin fractions from the mutant pups were very low; e.g., the yield from the brainstems of 4-week-old mutants was only 2.4% of that from age-matched controls and the yield did not increase by 16 weeks. The isolated myelin fractions contained very little MBP (less than 0.5% of total protein) or proteolipid protein, indicating that they were a very immature form of myelin or consisted largely of non-myelin contaminants. MAG in the 'myelin fractions' from the mutant brainstems were 9-15 fold higher and CNP levels were 2-3 fold higher than those in whole homogenates, suggesting that the isolated fractions were enriched in oligodendroglia-derived membranes. Overall, the biochemical results are consistent with a severe hypomyelination of the CNS in which a small amount of immature myelin is formed.
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PMID:Myelin proteins in the CNS of 'shaking pups'. 370 84

Paralytic tremor (pt) is a sex-linked mutation in rabbit that affects myelination of the CNS. Myelin in the pt brains represents approximately 30% of the normal levels. Previously we showed that the pt mutation affects primarily proteolipid protein (Plp) gene expression. In the present study we investigated the relative effect of the pt mutation on two distinctive Plp gene products, PLP- and DM-20-specific messenger RNAs. Our results showed that both PLP and DM-20 are affected and that the ratio DM-20/PLP was higher in pt rabbits than in age-matched controls. We sequenced normal rabbit PLP cDNA and characterized pt mutation at the DNA level. Rabbit PLP sequence, deduced from cDNA, differs from the human protein only at Thr198. Sequence analysis of the mutant cDNA revealed a transversion T-->A in exon 2 of the Plp gene. This point mutation, which is placed at the end of the first potential transmembrane domain, results in a substitution of His36 by a glutamine. This transversion abolishes a restriction site that enabled us to screen a large number of animals and observe a perfect correlation between the pt allele and the abnormal phenotype.
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PMID:Paralytic tremor (pt): a new allele of the proteolipid protein gene in rabbits. 752 75

Twenty-five years ago, glycerol phosphate dehydrogenase (GPDH, EC 1.1.1.8) was described as a hormonally dependent enzyme in the brain, and since then has been characterized for its developmental regulation and as a marker for oligodendrocytes. These studies describe the cloning of GPDH mRNA from adult rat hippocampus and its characterization as an in vivo response in the brain to both glucocorticoid treatment and stress. A nearly full-length cDNA clone was obtained with sequence homology to the adult mouse GPDH gene. Three EcoRI fragments derived from this clone each hybridized to a major 2.9-kb transcript in poly(A)-containing RNA. GPDH mRNA increased up to 10-fold in a dose-dependent manner in response to acute corticosterone (CORT) treatment (8 h-3 days) of adrenalectomized (ADX) rats. Hybrid-selected GPDH mRNA encodes a 35-kD, pI 6.3 polypeptide that comigrated with our previously described CORT-responsive 35-kD in vitro translation product, with which it shares the same response characteristics. The basal (morning) AM prevalence of GPDH mRNA in the hippocampus is approximately 0.5 pg/micrograms total RNA. Shaking stress increased GPDH mRNA 4-fold; this increase was completely blocked by prior ADX. Hippocampal GPDH mRNA prevalence in ADX rats did not differ from AM intact rats, but increased to stress levels within 2 h of a CORT treatment that produced serum levels in the high physiological or stress range. GPDH expression increased throughout the brain of CORT-treated compared with ADX rats by in situ hybridization; the pattern of expression is similar to that of proteolipid protein mRNA and is consistent with a predominant expression in oligodendrocytes in white matter. Restraint and cold stress also increased GPDH mRNA in the brainstem. These results establish GPDH mRNA as a glucocorticoid-dependent stress response in adult rat hippocampus and indicate that glucocorticoid regulation of GPDH enzyme activity throughout the brain could result from changes in GPDH mRNA prevalence. In addition to its role in development, GPDH may participate in oligodendrocyte responses to stress in the adult brain.
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PMID:Rapid increase in glycerol phosphate dehydrogenase mRNA in adult rat brain: a glucocorticoid-dependent stress response. 809 Feb 79

Paralytic tremor (pt) is a neurological sex-linked recessive mutation in rabbits which is characterized by a coarse body tremor and limb paresis. Morphological studies showed that this mutation affects CNS myelination. Although the number of oligodendrocytes is not reduced, myelination is slower, irregular and defective. We have made a biochemical and molecular analysis of 4-wk-old mutant and normal rabbits. The amount of myelin in the mutant represents only approximately 25% of the normal level. Radioimmunoassay for myelin basic protein showed a reduction to approximately 40% in pt whole-brain homogenate but the difference was not significant in purified myelin. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of brain homogenates followed by immunoblotting showed that all major myelin proteins are affected by the pt mutation, although to different degrees. While most of the myelin proteins are reduced to approximately 60-80% of the normal level, an important reduction to approximately 30%, was measured for the proteolipid protein (PLP). In purified myelin, the difference in PLP concentration was significant while the other specific proteins were less affected. A similar reduction in myelin-protein gene expression was detected at the mRNA level. Sex-linked transmission, low concentrations of PLP and its specific mRNA in the CNS indicate that the pt mutation primarily affects the expression of the Plp gene.
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PMID:Paralytic tremor (pt) rabbit: a sex-linked mutation affecting proteolipid protein-gene expression. 827 12

This study describes a new sex-linked myelin mutation in the mouse, jimpy 4J (Plpjp-4J), located in or very close to the proteolipid protein (Plp) gene. The Plpjp-4J/Y phenotype includes tremor, seizures, death during the 4th postnatal week, and the most severe central nervous system hypomyelination yet described in any mouse carrying a single myelin mutation. The few myelin sheaths are present in early myelinating areas where they form clusters of thin, usually loosely wrapped membranes which show several variations of morphology at their extracellular leaflets. Numbers of mature oligodendrocytes are sharply reduced; pycnotic glial nuclei and foamy cells are numerous. Astrocytosis is a prominent feature. No PLP protein is detected by immunoblotting in Plpjp-4J/Y brain but in spinal cord a faint band is present. Myelin basic protein and characteristic myelin lipids are also sharply reduced in both brain and spinal cord. Despite the qualitative similarity of the phenotypes reported in these and previous studies, DNA analysis demonstrate that Plpjp-4J is not a recurrence of the well known Plp mouse mutations jimpy (Plpjp) or myelin synthesis deficiency (Plpjp-msd).
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PMID:Jimpy 4J: a new X-linked mouse mutation producing severe CNS hypomyelination. 882 19

Paralytic tremor (pt), a hereditary neurological disorder of rabbits is a recessive, X-linked point mutation of the gene for proteolipid protein (PLP) biosynthesis. This mutation results in substitution of histidine by glutamine in the PLP molecule and produces severe hypomyelination. In the present study, we investigated the developmental expression of myelin-oligodendrocyte-specific glycolipid markers by means of ELISA assay. While immunoreactivity with antibodies recognising proligodendroblast (POA) antigen was unchanged, only minute amounts of the other glycolipid markers characteristic for more advanced stages of OLs maturation, such as 04 and 01 antigens, were expressed in pt brain. The degree of down-regulation was similar to that for MBP. Concomitantly, the level of in situ expression of the mutated PLP gene mRNA in glial cells of 14 day old pt brain was found to be as high as in age-matched controls. Northern blot analysis of developmental PLP gene expression showed a significant deficit of this message in pt brain, but only at more advanced developmental stages. However, aside from changes in myelin structure, no changes in glial cell number or morphology were evident by light microscopic examination of pt mutants. In contrast, electron microscopy revealed substantial abnormalities in pt oligodendrocyte cytoarchitecture, indicating functional impairment of intracellular transport and utilisation of myelin constituents. Thus, only POA expression is positively correlated with the unchanged content of OLs in pt brain, whereas decreases of 04 and 01 antigens, together with MBP immunoreactivity, are indicators of the degree of hypomyelination. Furthermore, oligodendrocyte differentiation appears to proceed normally in pt mutant brain up to the stage of PLP gene expression. Then, due to intracellular accumulation of this abnormal gene product, synthesis of PLP as well as the other myelin-specific constituents is inhibited by a "feed-back" control mechanism.
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PMID:Oligodendrocyte development in PLP "pt" mutant rabbits: glycolipid antigens and PLP gene expression. 884 95

The shaking pup, a canine mutant, carries a point mutation in the myelin proteolipid protein (PLP) gene that causes dysmyelination of the central nervous system (CNS) with resultant tremor, seizures, and other persistent neurological deficits. The developmental potential of glial cells in the shaking pup CNS and peripheral nervous system (PNS) was evaluated by quantitative analysis of the expression of several glial-specific genes. All of the myelin-associated genes demonstrated developmental patterns of expression similar to those observed in the controls, but at significantly reduced levels. Expression of the genes for the major CNS myelin proteins, PLP and the myelin basic protein, are most dramatically affected in the shaking pup, although reduced expression levels are observed for other oligodendrocyte-specific genes such as 2',3'-cyclic nucleotide 3'phosphodiesterase and glucose phosphate dehydrogenase. The pattern of gene expression in the shaking pup indicates that the oligodendrocytes experience an inhibition in development after the myelination program has begun. There appears to be little evidence for an astrocytic response to the dysmyelinating condition at the RNA level, but we present evidence for ectopic expression of P0 mRNA in the CNS. Expression of the P0 and PLP genes in the sciatic nerve appears to be normal, reinforcing previous reports that PNS myelination is unaffected by the mutation in the PLP gene.
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PMID:Molecular analysis of glial cell development in the canine 'shaking pup' mutant. 889 46

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