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1.
The turnover of phospholipids was compared in peripheral nerves of Trembler dysmelinating mutant and control mice, after intraperitoneal and local injection of labeled ethanolamine. In the mutant sciatic nerve, neurochemical analysis showed that [14C]ethanolamine is incorporated into EGP (ethanolamine glycerophospholipids) of the sciatic nerve at a much higher rate in Trembler mutant than in control mice. Furthermore the decay rate of 14C-labeled EGP is faster in Trembler than in normal animals. The accelerated turnover of EGP in Trembler sciatic nerve affects the diacyl-EGP while the renewal of the alkenylacyl-EGP (plasmalogens) is slower than in controls. Quantitative radioautographic study at the ultrastructural level corroborate that the initial increase of the label in Trembler nerve fibers was different in axons, Schwann cells and myelin sheaths. EM radioautographs reveal indeed that the high label content observed in Trembler axons takes place preferentially in the myelinated portions of axons and drops within 1 week. In both myelinated and unmyelinated segments of the axons, the majority of the radioactivity was contained in axolemma and smooth axoplasmic reticulum. The 10-fold increase of label found in the myelin sheath of Trembler nerve fibers at 1 day raises the question of the origin of the labeled EGP, either by a stimulated synthesis in Schwann cells or by transfer from axonally transported phospholipids. In contrast, the label of axons, Schwann cells and myelin sheaths of control nerve remains stable during the same period.  相似文献   

2.
S M de Waegh  V M Lee  S T Brady 《Cell》1992,68(3):451-463
Studies in Trembler and control mice demonstrated that myelinating Schwann cells exert a profound influence on axons. Extensive contacts between myelin and axons have been considered structural. However, demyelination decreases neurofilament phosphorylation, slow axonal transport, and axonal diameter, as well as significantly increasing neurofilament density. In control sciatic nerves with grafted Trembler nerve segments, these changes were spatially restricted: they were confined to axon segments without normal myelination. Adjacent regions of the same axons had normal diameters, neurofilament phosphorylation, cytoskeletal organization, and axonal transport rates. Close intercellular contacts between myelinating Schwann cells and axons modulate a kinase-phosphatase system acting on neurofilaments and possibly other substrates. Myelination by Schwann cells sculpts the axon-altering functional architecture, electrical properties, and neuronal morphologies.  相似文献   

3.
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   

4.
Abstract: A culture of peripheral nerve cells, very rich in Schwann cells, was developed from sciatic nerve. In both normal and Trembler, typical spindle-shaped cells were seen; most of the cells were surrounded by basement membrane-like material (predominantly in-between adjacent cells). In Trembler cells, cultivated in the presence of labelled acetate, the fatty acids were slightly altered; phosphatidylcholine was slightly reduced and phosphatidyl-ethanolamine increased. Sulfatides were increased four times.  相似文献   

5.
Mice affected by the autosomal dominant Trembler mutation exhibit a severe hypomyelinization of the PNS. Previous biochemical studies have shown that the accumulation of the major PNS myelin proteins, P0 and myelin basic protein (MBP), is strongly diminished in Trembler sciatic nerves during postnatal development. We performed Northern blots which showed that the size of mRNA species for P0 and MBP in normal and mutant mice are indistinguishable. Densitometric analysis of Northern blots showed that, in normal mice, the proportion of P0 mRNA increases up to the 12th day, then decreases slowly. At day 40, the proportion is 60% of the maximal value. In the mutant, the proportion of P0 mRNA increases up to the 12th day and then decreases much faster than in the control. At days 12 and 40, the P0 mRNA proportion measured in Trembler sciatic nerves represents only 40% and 7%, respectively, of the proportion measured in control littermates. The MBP mRNA proportion in the normal mice increases up to the 16th day, and then decreases to attain 45% of the maximum level at day 40. In the Trembler mouse, there is a maximum level at day 12, representing 25% of the normal level, but the MBP mRNA is barely detectable at days 8 or 40. Thus, these data seem to indicate that in the Trembler sciatic nerves, the proportions of P0 and MBP mRNAs are too small to allow the synthesis of normal levels of the corresponding proteins.  相似文献   

6.
Excised Trembler mouse sciatic nerves synthesize, from acetate, only minute amounts of C20 and C22 saturated fatty acids (about 110 of the normal value) and almost no lignoceric acid. The elongation activity is localized in the microsomal fraction. The microsomes from Trembler sciatic nerves can elongate stearoyl-CoA into C20, C22 and C24 saturated fatty acids. The elongation rate is only 13 of the normal value, whereas the stearoyl-CoA hydrolysis is 3 times higher than in the control; the malonyl-CoA concentration remains at the same level in microsomes from normal and trembler sciatic nerves. When ATP-Mg2+ is added to the Trembler microsomes, the stearoyl-CoA hydrolysis is reduced, the stearoyl-CoA concentration remains nearly normal and the elongation reaches an almost normal level.  相似文献   

7.
Myelin-Associated Glycoprotein and Other Proteins in Trembler Mice   总被引:5,自引:4,他引:1  
The myelin-associated glycoprotein (MAG) and other myelin proteins were quantitated in homogenates of whole sciatic nerve from adult and 20-day-old Trember mice. In the nerves of adult mice, the concentration of MAG was increased from 1.1 ng/micrograms of total protein in the controls to 1.4 ng/micrograms protein in the Tremblers. By contrast, the concentrations of P0 glycoprotein and myelin basic proteins were reduced to 27% and 20% of control levels, respectively. Immunoblots demonstrated that P2 was also greatly reduced in the Trembler nerves. The specific activity of 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) was 65% of the control level. Immunoblot analysis showed that MAG had a higher than normal apparent Mr in the sciatic nerves of the Trembler mice, but its apparent Mr was normal in the brains of these mutants. In 20-day-old Tremblers, the P0 and myelin basic protein were reduced slightly less to about 40% of the level in the nerves of age-matched controls. CNP and MAG levels were not significantly different from those in controls, and MAG exhibited a shift toward higher apparent Mr similar to that in the adults. The maintenance of high MAG levels despite the severe deficit of myelin, as reflected by the decrease of the major myelin proteins, is consistent with the immunocytochemical localization of MAG in periaxonal Schwann cell membranes, Schmidt-Lantermann incisures, lateral loops, and the outer mesaxon and its absence from compact myelin. The abnormal form of MAG in the peripheral nervous system (PNS) of the Trembler mice may contribute to the pathology in this mutant.  相似文献   

8.
To investigate the biochemical abnormalities of the Trembler mouse, the level of the PO protein (as % of total protein) and the activity of CNP was compared in the sciatic nerve and subcellular fractions of normal and mutant littermates. There was a significant decrease in both of these myelin markers in total nerve homgenates of the neurological mutant compared with the control animals. Immunoassay of the PO protein and polyacrylamide gel analysis of proteins indicated an accumulation of a protein with an apparent molecular weight of 67K in mutant nerve extracts. The mutant nerve also had relatively decreased levels of a protein of molecular weight about 41K that cross-reacted with antibody to PO protein. The Trembler mouse exhibited a larger percentage recovery of PO protein and CNP activity in subcellular fractions denser than the myelin sheath. Together these results are consistent with the theories that these denser components represent immature forms of myelin and that the Trembler mutant is characterized by hypomyelination.  相似文献   

9.
Abstract: Sphingolipid metabolic pathways in the peripheral nerves of dysmyelinating Trembler mice were studied in vivo, using intraneurally injected [3H]palmitate as the exogenous substrate. The kinetic analysis of the experimental data obtained for the mutant revealed that, as in normal nerves, two metabolically and kinetically independent pathways are implicated in the biosynthesis of the major peripheral nerve sphingolipids: the ceramide pathway and another pathway in which there is no detectable labeled intermediate ("direct amidification"). The results also show that, in the Trembler mouse sciatic nerves: (a) The severely deficient sphingolipid biosynthesis results from the constitution of a qualitatively and quantitatively abnormal fatty acid substrate pool destined for metabolism via the ceramide pathway, which ensures the totality of the galactocerebroside labeling and two-thirds of that of sphingomyelin. The ceramide intermediates of this pathway are labeled only on their fatty acyl moiety, which contains only 16-carbon atom chains. (b) "Direct amidification" events implicated in sphingolipid labeling are decreased compared with normal and account for the remaining sphingomyelin formation.  相似文献   

10.
In vivo glycerolipid metabolism was studied in sciatic nerves of normal and Trembler mice. The results showed that two kinetically independent pathways were implicated in the labeling of diacylglycerophospholipids from [3H]palmitate: the Kennedy pathway and a ‘direct acylation’ pathway. In normal nerves, 45% of the glycerophospholipids were labeled, with a rate constant k3 = 3.9 × 10−3 min−1, from phosphatidic acid and diacylglycerol intermediates, themselves formed with a rate constant of k1 = 0.24 min−1 from a free 3H-fatty acid pool, FFA1, that represents 45% of the total injected label. The remaining 55% of the glycerophospholipids were labeled from a kinetically distinct free 3H-fatty acid pool, FFA2, with a rate constant of k4 = 9.8 × 10−2, via a process that does not implicate a detectably labeled metabolic intermediate (‘direct acylation’). Glycerophospholipid labeling via the Kennedy pathway in the Trembler mouse sciatic nerves was reduced to 75% of the normal level, while labeling via the ‘direct acylation’ pathway was increased 1.4-fold. The values of the rate constants for free 3H-fatty acid utilisation (k1 and k4) were both increased about 2.5-fold, while that of glycerophospholipid formation from diacylglycerol (k3) was close to normal. Copyright © 1996 Elsevier Science Ltd  相似文献   

11.
In the sciatic nerves of the Trembler mouse, considered as a good model for the study of the hereditary hypertrophic neuropathies, the levels of the different classes of lipids, of alkanes and of very long chain fatty acids are reduced. Those of cholesterol esters and lysophosphatidylcholine are increased.  相似文献   

12.
Accumulation of misfolded proteins and alterations in the ubiquitin-proteasome pathway are associated with various neurodegenerative conditions of the CNS and PNS. Aggregates containing ubiquitin and peripheral myelin protein 22 (PMP22) have been observed in the Trembler J mouse model of Charcot-Marie-Tooth disease type 1A demyelinating neuropathy. In these nerves, the turnover rate of the newly synthesized PMP22 is reduced, suggesting proteasome impairment. Here we show evidence of proteasome impairment in Trembler J neuropathy samples compared with wild-type, as measured by reduced degradation of substrate reporters. Proteasome impairment correlates with increased levels of polyubiquitinated proteins, including PMP22, and the recruitment of E1, 20S and 11S to aggresomes formed either spontaneously due to the Trembler J mutation or upon proteasome inhibition. Furthermore, myelin basic protein, an endogenous Schwann cell proteasome substrate, associates with PMP22 aggregates in affected nerves. Together, our data show that in neuropathy nerves, reduced proteasome activity is coupled with the accumulation of ubiquitinated substrates, and the recruitment of proteasomal pathway constituents to aggregates. These results provide novel insights into the mechanism by which altered degradation of Schwann cell proteins may contribute to the pathogenesis of certain PMP22 neuropathies.  相似文献   

13.
We report here the presence of a Stearoyl-CoA: [1-palmitoyl]-glycerophosphorylcholine (LPC) transacylase activity in the microsomal fraction of normal and Trembler mouse sciatic nerves. Under the experimental conditions studied as a function of incubation time, protein concentration, acyl-CoA and LPC concentrations, the transacylase specific activity was 2–3 times higher in the microsomes of the mutant's nerves than in those of the control. The addition of 5 mM ATP-Mg to the incubation medium, in the absence of bovine serum albumin, leads to a 90% decrease of the stearoyl-CoA thioesterase activity, but increases the transacylation by only 10–20%. This may be due to the low value (10 μM) of the apparent Km for C18-CoA observed for the mutant's transacylase. In microsomes from control nerves, transacylation requires exogenous LPC, whereas in Trembler mouse sciatic nerve microsomes, the transacylase can use endogenous LPC.  相似文献   

14.
De novo fatty acid biosynthesis was demonstrated in a particle-free supernatant from normal and Trembler mouse sciatic nerves. In both systems, it required acetyl-CoA and malonyl-CoA, and led chiefly to the formation of free palmitic acid. No palmitoyl-CoA formation was detected. The ability of the cell-free extract of the mutant to form palmitic acid in vitro was greater than that of the control extracts when the results were expressed as the total activity per 100 mg of freshly excised sciatic nerves.  相似文献   

15.
The neurological mutant mice shiverer (shi) and myelin deficient (shimld) lack a functional gene for the myelin basic proteins (MBP), have virtually no myelin in their CNS, shiver, seize, and die early. Mutant mice homozygous for an MBP transgene have MBP mRNA and MBP in net amounts approximately 25% of normal, have compact myelin, do not shiver or seize, and live normal life spans. We bred mice with various combinations of the normal, transgenic, shi, and shimld genes to produce mice that expressed MBP mRNA at levels of 0, 5, 12.5, 17.5, 50, 62.5, and 100% of normal. The CNS of these mice were analyzed for MBP content, tissue localization of MBP, degree of myelination, axon size, and myelin thickness. MBP protein content correlated with predicted MBP gene expression. Immunocytochemical staining localized MBP to white matter in normal and transgenic shi mice with an intensity of staining comparable to the degree of MBP gene expression. An increase in the percentage of myelinated axons and the thickness of myelin correlated with increased gene expression up to 50% of normal. The percentage of myelinated axons and myelin thickness remained constant at expression levels greater than 50%. The presence of axons loosely wrapped with oligodendrocytic membrane in mice expressing lower amounts of MBP mRNA and protein suggested that the oligodendroglia produced sufficient MBP to elicit axon wrapping but not enough to form compact myelin. Mean axon circumference of myelinated axons was greater than axon circumference of unmyelinated axons at each level of gene expression, further evidence that oligodendroglial cells preferentially myelinate axons of larger caliber.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

16.
Ganglioside distribution was studied in peripheral nerves of normal controls and those of Trembler mutant mouse with defect in Schwann cell differentiation and myelination. Neuraminic acid content was considerably decreased in the mutant. Ganglioside distribution as evaluated by densitometry of resorcinol positive spots on thin-layer chromatography revealed a major peak for GDla in normal controls. In the mutant, the relative proportion was modified with qualitative modifications in the GDla area and a tremendous increase in GM3 content. The relation with the intense Schwann cell proliferation observed in the mutant is discussed.  相似文献   

17.
During development, inferior olivary axons cross the floor plate and project from the caudal to the rostral hindbrain, whence they grow into the cerebellar plate. We have investigated the axon guidance signals involved in the formation of this projection in vitro. When the cerebellar plate was grafted ectopically along the margin of the hindbrain in organotypic cultures, inferior olivary axons could pathfind to the ectopic cerebellum, establishing a topographically normal projection. Following rostrocaudal reversal of a region of tissue in the axon pathway between the inferior olive and the cerebellum, olivary axons still navigated towards the cerebellum. Moreover, olivary axons could cross a bridging tissue explant (spinal cord) to reach a cerebellar explant. In collagen gel cultures of inferior olive explants, olivary axon outgrowth increased significantly in the presence of cerebellar explants and axons deflected towards the cerebellar tissue. These results show that the cerebellum is a source of diffusible axon guidance signals for olivary axons. We also found that, in organotypic cultures, olivary axons which had crossed the floor plate showed an increased tendency to respond to cerebellar cues. Taken together, these results indicate that the cerebellum is the source of cues that are chemoattractant and growth-promoting for inferior olivary axons; prior exposure to the floor plate increases responsiveness to these cues.  相似文献   

18.
The amidification of sphingosine by acyl donors has been investigated in a microsomal fraction prepared from sciatic nerves of normal and Trembler mice. In the control, a ceramide synthesis is observed in the presence of acyl-CoAs and not with free fatty acids. The synthesis increases as a function of the protein amount and the time and is dependent on acyl-CoA concentration. The level of synthesis is highly similar to that observed in vivo after palmitate injection into the sciatic nerves of normal mice. In the mutant, there is a major abnormality because a weak synthesis (20% of the control) is observed only with high acyl-CoA concentration (greater than 200 microM), whereas in the range of the physiological acyl-CoA concentrations (less than 20 microM), there is no ceramide formation from stearoyl-CoA or lignoceroyl-CoA.  相似文献   

19.
Summary The temperature-sensitive mutation shibire (shi) in Drosophila melanogaster is thought to disrupt membrane recycling processes, including endocytotic vesicle pinch-off. This mutation can perturb the development of nerves and muscles of the adult escape response. After exposure to a heat pulse (6 h at 30° C) at 20 h of pupal development, adults have abnormal flight muscles. Wing depressor muscles (DLM) are reduced in number from the normal six to one or two fibers, and are composed of enlarged fibers that appear to represent fiber fusion; large spaces devoid of muscle fibers suggested fiber deletion. The normal five motor axons are present in the peripheral nerve PDMN near the ganglion. However, while some motor axons pass dorsally to the extant fibers, other motor axons lacking end targets pass into an abnormal posterior branch and terminate in a neuroma, i.e., a tangle of axons and glia without muscle target tissue. Hemisynapses are common in axons of the proximal PDMN and within the neuroma, but they are rarely seen in control (no heat pulse) shi or wild-type flies. All surviving muscle fibers are innervated; no muscle tissue exists without innervation. Fibrillar fine structure and neuromuscular synapses appear normal. Fused fibers have dual innervation, suggesting correct and specific matching of target tissue and motor axons. Motor axons lacking target fibers do not innervate erroneous targets but instead terminate in the neuroma. These results suggest developmental constraints and rules, which may contribute to the orderly, stereotyped development in the normal flight system. The nature of the anomalies inducible in the flight motor system in shi flies implies that membrane recycling events at about 20 h of pupal development are critical to the formation of the normal adult nerve-muscle pattern for DLM flight muscles.  相似文献   

20.
In mice, mitral cells are the major efferent neurons of the main olfactory bulb and elongate axons into a very narrow part of the telencephalon to form a fiber bundle referred to as the lateral olfactory tract (LOT). To clarify the mechanisms responsible for guidance of mitral cell axons along this particular pathway, we co-cultured mouse embryo main olfactory bulbs with the telencephalons, and analyzed the pathways taken by mitral cell axons. Ingrowth of mitral cell axons into the telencephalon was observed in those co-cultures in which the olfactory bulbs had been exactly combined to their normal pathway (the LOT position) of the telencephalon. The axons grew preferentially along the LOT position, and formed a LOT-like fiber bundle. When the olfactory bulbs were grafted at positions apart from their normal pathway, however, no mitral cell axons grew into the telencephalon. Neocortical fragments combined with the telencephalon projected fibers into the telencephalon in random directions. These results suggest that the LOT position of the telencephalon offers a guiding pathway for mitral cell axons and that guiding cues for mitral cell axons are extremely localized. © 1996 John Wiley & Sons, Inc.  相似文献   

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