Comparative immunocytochemistry of Pelizaeus-Merzbacher disease, the jimpy mouse, and the myelin-deficient rat

Patients with Pelizaeus-Merzbacher disease (PM), hemizygous mice with the jimpy mutation (jp/Y), and hemizygous rats with X-linked myelin deficiency (md/Y) share a profound lack of proteolipid protein (PLP) in their central nervous systems (CNS). The peripheral nervous system is normal. These X-linked disorders are associated with or actually caused by the lack of normal oligodendrocytes. Vibratome sections of brain were incubated with antisera to myelin basic protein (MBP), myelin-associated glycoprotein (MAG), 2':3'-cyclic-nucleotide 3'-phosphodiesterase (CNP) (EC 3.1.4.37), PLP, a synthetic PLP-peptide, glial fibrillary acidic protein (GFAP), and transferrin. Reaction product was developed by sequential incubation with biotinylated second antibodies, the avidin-biotin-peroxidase complex (ABC), and diaminobenzidine (DAB) plus hydrogen peroxide as chromogenic substrates. In PM, jp/Y and md/Y, islands of myelin-like structures were revealed by antisera to MBP, MAG, and CNP. Reaction product after application of anti-PLP was absent. Reaction product after anti-PLP-peptide was restricted to infrequent bizarre cells possibly representing abnormal oligodendroglia. The lack of oligodendrocytes in jp/Y and md/Y could also be confirmed by immunocytochemistry for transferrin.     

Myelin proteolipid protein,basic protein,the small isoform of myelin-associated glycoprotein,and p42MAPK are associated in the Triton X-100 extract of central nervous system myelin

To further our understanding of the functions of the major myelin proteins, myelin basic protein (MBP) and proteolipid protein (PLP), and other myelin proteins, such as 2'3'-cyclic nucleotide 3'-phosphodiesterase (CNP) and myelin-associated glycoprotein (MAG), bovine brain myelin was extracted with Triton X-100, and protein complexes in the detergent-soluble fraction were isolated by coimmunoprecipitation and sucrose density gradient sedimentation. MBP, PLP, and the small isoform of MAG (S-MAG) were coimmunoprecipitated from the detergent-soluble fraction by anti-PLP, anti-MBP or anti-MAG monoclonal antibodies. Additionally, a 30 kDa phosphoserine-containing protein and two phosphotyrosine-containing proteins (M(r) 30 and 42 kDa) were found in the coimmunoprecipitates. The 42 kDa protein is probably p42MAPK, in that MAPK was shown also to be present in the immunoprecipitated complex. CNP, the small PLP isoform DM20, the large MAG isoform L-MAG, MOG, CD44, MEK, p44MAPK, and actin were not present in the immunoprecipitates, although they were present in the detergent-soluble fraction. Lipid analysis revealed that the PLP-MBP-S-MAG coimmunoprecipitated with some phospholipids and sulfatide but not cholesterol or galactosylceramide. However, the complex had a high density, indicating that the lipid/protein ratio is low, and it was retained on a Sepharose CL6B column, indicating that it is not a large membrane fragment. Given that MAG is localized mainly in the periaxonal region of myelin, where it interacts with axonal ligands, the PLP-MBP-S-MAG complex may come from these regions, where it could participate in dynamic functions in the myelin sheath and myelin-axonal interactions.     

His36Pro point-mutated proteolipid protein retained in the endoplasmic reticulum of oligodendrocytes in the shaking pup

The shaking pup (shp) is a canine mutation that affects the myelin protein proteolipid protein (PLP) and its smaller and less abundant isoform, DM20, with proline replacing histidine(36), resulting in a severe myelin deficiency in the central nervous system. We present evidence that the mutation leads to disrupted trafficking of the shp PLP/DM20 within oligodendrocytes. Immunohistochemical studies revealed significantly reduced levels of PLP/DM20 and other major myelin components such as myelin basic protein (MBP), myelin associated glycoprotein (MAG), and 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) in shp myelin. The distribution of shp PLP/DM20 proteins were altered and mostly retained in perinuclear cytoplasm and proximal processes, which co-localized with distended rough endoplasmic reticulum (RER) within oligodendrocytes. No abnormal accumulation of MAG, MBP, or CNP in the cell body was found. These results suggest that mutated PLP/DM20 in the shp could be selectively retained in RER, causing disruption of their translocation to the periphery to myelinate axons.     

Quantitative analysis of myelin protein gene expression during development in the rat sciatic nerve.

We determined the temporal profile of expression of the genes encoding the P0 glycoprotein, the myelin-associated glycoprotein (MAG), the myelin basic protein (MBP), the proteolipid protein (PLP), and 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) in the sciatic nerve of rats. The level of expression of the MAG gene occurred maximally in animals 13 days of age, approximately one week earlier than the peak expression of the MBP and P0 genes. The genes encoding PLP and CNP were not expressed developmentally in a manner that correlated with the myelination of the sciatic nerve. Furthermore, using RNA synthesized in vitro, specific for each of the myelin protein genes, we have determined the absolute amounts of messenger RNA for the various myelin proteins in total RNA from sciatic nerves. P0 and MBP RNA were present at very high levels, whereas the amount of MAG, PLP and CNP RNA were much less.     

Gene expression and oligodendrocyte development in the myelin deficient rat

The proteolipid proteins play a major role in the structure of the CNS myelin sheath, but they have also been implicated in the oligodendrocyte development leading to myelination. Mutations in the PLP gene result in severe dysmyelination and a paucity of mature oligodendrocytes. The myelin deficient (md) rat, carrying a Thr75? Pro substitution present in both isoforms of proteolipid protein (PLP and DM20), is the most severely affected of the PLP mutants described to date. The expression of myelin associated genes was quantitated to determine the effect of the mutation on oligodendrocyte development in vivo. At 5 days postnatal, gene expression in the and rat approximated that in age-matched control rats, but as they matured, there was a progressive inhibition of gene expression in the and rats. The genes expressed late in the myelination program (PLP and MBP) were affected more dramatically than those expressed earlier in oligodendrocyte development (CNP and GPDH). The results indicate that the later stages of oligodendrocyte maturation and myelin elaboration are inhibited. © 1995 Wiley-Liss, Inc.     

Expression of myelin-specific proteins during development of normal and hypomyelinatedParalytic tremor mutant rabbits

The paralytic tremor (pt) rabbit is an X-linked recessive mutant characterized by hypomyelination of the CNS. The onset of myelin mutants’ neurological symptoms typically occurs about the tenth postnatal day. A partial recovery is often observed; thus, the life-span of affected animals is almost normal and they can breed successfully. Mutants presenting this phenotype were chosen for our study. Because proteins can serve as excellent markers for the myelin formation process, we examined the developmental expression of several important myelin proteins (PLP/DM-20, MBP, CNP, MAG, and MOG) in bothpt mutant and control rabbit brain homogenates. Expression of the investigated proteins occurs in rabbits as follows: CNP and MAG are already present at the early postnatal stage; PLP/DM-20 and MBP appear about the 10th postnatal day; MOG, expressed last, has been detected on the 28th postnatal day. Whereas the MBP, CNP, MAG, and MOG content is only slightly reduced in maturept mutant brain homogenates (80–90% of control values), the amount of PLP corresponds to approximately 30–40% of that present in controls. Expression of all of the examined proteins is substantially retarded in maturing brains, which leads to the conclusion that besides severe PLP deficiency, retardation of oligodendrocyte maturation is another probable feature ofpt mutation.     

Axons modulate myelin protein messenger RNA levels during central nervous system myelination in vivo.

Expression of myelin protein genes by myelinating Schwann cells in vivo is dependent on axonal influences. This report investigated the effect of axons on myelin protein mRNA levels in the central nervous system (CNS). In situ hybridization studies of rat spinal cord sections localized mRNAs encoding proteolipid protein (PLP) and myelin basic protein (MBP) 20 and 40 days after unilateral rhizotomy. Compared with control tissue, hybridization intensity was reduced in transected tissue, but there was little change in the number of oligodendrocytes labeled. Cellular RNA was extracted from transected and age-matched control optic nerves 5, 10, 20, and 40 days after surgery, and levels of the following mRNAs were determined by slot blot procedures: PLP, MBP, myelin-associated glycoprotein (MAG), and 2',3' cyclic nucleotide 3'-phosphodiesterase (CNP). In transected nerves, PLP and MBP mRNA levels were approximately 85%, 45%, and 25% of control values at 5, 20 and 40 days posttransection, respectively. Axonal transection had a lesser effect on CNP and MAG mRNA levels, which declined to approximately 60% of control levels at 40 days. Immunocytochemical studies indicated that the number of oligodendrocytes was not decreased 40 days after optic nerve transection. These data demonstrate that axons modulate myelin protein mRNA levels in oligodendrocytes. In contrast to Schwann cells, however, oligodendrocytes continue to express significant levels of myelin protein mRNA in vivo following loss of axonal contact.     

Expression of myelin-specific proteins during development of normal and hypomyelinated Paralytic tremor mutant rabbits

An X-linked, recessive paralytic tremor (pt) mutation is characterized by CNS hypomyelination. In our previous work, we presented developmental studies on the expression of several myelin-specific proteins (PLP/DM-20, MBP, CNP, MAG, and MOG) in the brain homogeates of bothpt mutant and age-matched control Chinchilla rabbits aged 1–120 postnatal days. A moderate reduction in all examined proteins and a striking PLP deficiency were observed in thept mutant rabbits. In the present study, we investigated isolated and purified myelin fractions. A severe (approximately 30% of control values) and approximately constant hypomyelination ofpt, mutant CNS was observed during the entire investigated development (28–120 postnatal days). Although the neurological symptoms gradually regressed and a partial recovery of the affected animals usually occurred; no tendency toward regression of the hypomyelination was noticed. Whereas the content of CNP, MBP, and MAG in isolated myelin membrane fractions seemed close to normal, a drastic PLP deficiency was observed. A significantly elevated, amount of MOG was found in the myelin ofpt mutant rabbits. The controversy between the high degree of hypomyelination and the slight reduction in myelin protein marker expression (except for PLP) in mature brain homogenates is discussed with respect to retarded oligodendrocyte maturation and deficient processing of myelin membranes inpt mutant rabbits.     

Shiverer*jimpy double mutant mice. I. Biochemical evidence for reciprocal intergenic suppression

Shiverer and jimpy are neurological mutations that cause hypomyelination in the mouse CNS. The 3 major protein components of CNS myelin are: myelin basic protein (MBP), proteolipid (PLP) and 2', 3'-cyclic nucleotide phosphohydrolase (CNP). Previous work has shown that in jimpy animals the CNS contains reduced levels of MBP and CNP while PLP is undetectable. In shiverer animals the major forms of MBP ae undetectable in either the CNS or PNS, but the level of CNP is unaffected by mutation. In this study we have measured MBP, PLP and CNP in both the CNS (cerebral hemispheres) and PNS (sciatic nerve) of mice carrying the jimpy and shiverer mutations, individually and in combination. The results indicate that in the double mutant the levels of all 3 myelin proteins in both the CNS and PNS are intermediate between the levels in jimpy and the levels in shiverer animals. This means that part of the biochemical phenotype of the jimpy mutation (reduced levels of CNP and absence of PLP) is suppressed by the shiverer mutation, and part of the biochemical phenotype of the shiverer mutation (absence of MBP) is suppressed by the jimpy mutation. Possible mechanisms for this reciprocal intergenic suppression are discussed.     

Identification of antibodies in anti-CNS and anti-PNS myelin sera by immunoblot, characterization by immunohistochemistry, and their effect in tissue culture

Immunoblot analysis of antiserum to rat central nervous system (CNS) myelin revealed antibodies to myelin basic protein (MBP), proteolipid protein (PLP), and numerous high molecular weight proteins. In addition, anti-CNS myelin serum exclusively immunostained 4 basic proteins of rat peripheral nervous system (PNS) myelin. Similarly, anti-PNS myelin sera immunostained many high molecular weight proteins in both CNS and PNS myelin in addition to P0 and 4 basic proteins. Purified MBP and PLP were immunostained by anti-CNS myelin sera and MBP and P0 by anti-PNS myelin sera, indicating that antigenic sites are preserved during protein purification. Immunohistochemical localization with antisera was confined to the myelin sheath except that antisera to CNS myelin also stained oligodendrocytes during the active period of myelination. While anti-CNS myelin sera specifically demyelinated centrally myelinated fibers in culture, none of the anti-PNS myelin sera used here demyelinated organotypic spinal cord-dorsal root ganglion cultures.     

Cell-mediated immunity to myelin-associated glycoprotein, proteolipid protein, and myelin basic protein in multiple sclerosis

Peripheral blood lymphocytes (PBL) from active and stable multiple sclerosis (MS) patients, patients with other neurologic diseases (OND), and control subjects were tested for sensitization to two myelin antigens not previously examined in multiple sclerosis, using a [3H]thymidine incorporation assay. The antigens investigated were myelin-associated glycoprotein (MAG) and proteolipid protein (PLP). In addition, sensitization to myelin basic protein (MBP) was also tested. Lymphocyte stimulation indices in active MS patients that were greater than 2 standard deviations above controls were as follows: 9/30 for MAG, 0/17 for PLP, and 8/81 for MBP. No control subjects responded to MAG or PLP, and only 1/29 control subjects responded to MBP. Three of the patients that responded to MAG also responded to MBP. Although the mean proliferative response to MAG and to MBP was greater in the population of active MS patients than in stable MS, ONDs, or controls, the difference was not statistically significant. The OND group was the only population which proliferated to PLP (6/16). The only statistically significant differences among the groups for all myelin antigens tested were the proportion of individuals with active MS vs. controls that responded to MAG (P less than 0.05), and OND vs. controls and active MS that responded to PLP (P less than 0.025). The greatest individual responses to the three antigens tested were to MBP in active MS patients. Elimination of the T8 (cytotoxic/suppressor) subset amplified the responses to myelin antigens in some patients and ONDs studied. These studies have demonstrated reactivity to MAG but not PLP in some patients with active MS, and reactivity to PLP in some patients with other neurologic diseases.     

Central nervous system myelin proteins and glycoproteins in vertebrates: A phylogenetic study

CNS myelin was isolated by a conventional method from a wide range of vertebrate classes and analyzed by SDS-PAGE for proteins (Coomassie blue) and glycoproteins (concanavalin A (Con-A)-peroxidase). Mammalian, avian and reptilian myelin shared similar protein patterns (basic protein, BP; intermediate protein, DM-20; proteolipid protein, PLP; Wolfgram protein, W). Amphibians lacked DM-20 but were characterized by specific activities of 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) higher than those of the other classes examined. The Con A-binding profiles were similar in the high molecular weight (HMW) regions of the classes listed above, while the typical myelin proteins in the low molecular weight (LMW) regions were devoid of Con A-binding properties. In teleost myelin a putative BP band ran well ahead of rat small basic protein (SBP), whereas the region corresponding to rat PLP was covered by several closely spaced bands, most of which bound Con A. In elasmobranch myelin, apart from bands corresponding to BP, Con A-binding glycoproteins were detected migrating in the region of rat DM-20 and PLP as well as with mammalian PNS P0 protein. Cyclostomates yielded only very small amounts of material in the myelin preparation and displayed undifferentiated Coomassie blue- and Con A-binding in the HMW region, while typical LMW myelin proteins were absent. These results demonstrate that CNS myelin from bony and cartilaginous fishes is characterized by containing several major Con A-binding proteins of low molecular weight. This is in striking contrast to myelin from phylogenetically higher classes.     

Molecular bases of myelin formation as revealed by investigations on mice deficient in glial cell surface molecules

Several glia-associated cell surface molecules have been implicated in myelin formation in the central (CNS) and peripheral nervous system (PNS). Recent studies in mice deficient for such molecules have been instrumental in understanding the role of these molecules during the formation of the spiraling loops around the axon, compaction of the spiraling loops, determination of the thickness of the myelin sheath, and myelin maintenance. In the PNS, the major peripheral myelin protein P0 and the peripheral myelin protein (PMP) 22 are involved in spiral formation as reflected by retarded myelin formation in mice deficient for the respective molecules. An involvement of the myelin-associated glycoprotein (MAG) in this process is detectable only in mice deficient in both P0 and MAG, suggesting that P0 can replace MAG during the formation of the spiraling loops. Myelin compaction is mediated by both P0 and the intracellular myelin component myelin basic protein (MBP). The determination of the correct myelin thickness is mediated by P0, MBP, and PMP22, with P0 and MBP fostering and PMP22 attenuating myelin growth. For the maintenance of the association of the Schwann cell and myelin with its ensheathed axon, the myelin components P0, PMP22, MAG, and Connexin 32 are crucial. In the CNS, recognition of oligodendrocytes and axons and the formation of the spiraling loops is mediated by MAG. MAG is additionally responsible for the maintenance of myelin. Myelin compaction is mediated by MBP and by PLP, which fulfills some analogous functions in the CNS as P0 in the PNS. These studies reveal that myelin-related cell surface molecules can play distinct but also partially overlapping roles during the formation and maintenance of myelin. GLIA 19:298–310, 1997. © 1997 Wiley-Liss, Inc.     

Sex-dimorphic effects of progesterone and its reduced metabolites on gene expression of myelin proteins by rat Schwann cells

Data obtained in our and other laboratories have indicated that progesterone (P) and its derivatives, dihydroprogesterone (DHP) and tetrahydroprogesterone (THP), stimulate the expression of two myelin proteins of the peripheral nervous system (PNS) [i.e., glycoprotein zero (P0) and peripheral myelin protein 22 (PMP22)]. We have now considered the effects of P and its derivatives on these and other myelin proteins [i.e., myelin-associated glycoprotein (MAG) and myelin and lymphocyte protein (MAL)] in sex-specific cultures of rat Schwann cells. Gene expression of myelin proteins was assessed by RNase protection assay. Treatment with P or DHP induced a stimulatory effect on P0 mRNA levels in male but not in female Schwann cells. In contrast, treatment with THP increased gene expression of P0 exclusively in female Schwann cells. A similar sex-difference was also evident for other myelin proteins. Indeed, PMP22 expression was stimulated by treatment with P in male cultures, whereas THP induced an increase of mRNA levels in female cultures. Moreover, MAG was stimulated by THP treatment in male cultures only, whereas MAL expression was unaffected by neuroactive steroid treatment in both male and female cultures. In conclusion, the present observations indicate that the effects of neuroactive steroids on myelin proteins are sexually dimorphic. This finding might represent an important background for sex-specific therapies of acquired and inherited peripheral neuropathies.     

Polyunsaturated fatty acid supplementation stimulates differentiation of oligodendroglia cells

Dietary polyunsaturated fatty acids (PUFAs) have been postulated as alternative supportive treatment for multiple sclerosis, since they may promote myelin repair. We set out to study the effect of supplementation with n-3 and n-6 PUFAs on OLN-93 oligodendroglia and rat primary oligodendrocyte differentiation in vitro. It appeared that OLN-93 cells actively incorporate and metabolise the supplemented PUFAs in their cell membrane. The effect of PUFAs on OLN-93 differentiation was further assessed by morphological and Western blot evaluation of markers of oligodendroglia differentiation: 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP), zonula occludens-1 (ZO-1) and myelin-associated glycoprotein (MAG). Supplementation of the OLN-93 cells with n-3 and n-6 PUFAs increased the degree of differentiation determined by morphological analysis. Moreover, CNP protein expression was significantly increased by gamma-linolenic acid (GLA, 18:3n-6) supplementation. In accordance with the OLN-93 results, studies with rat primary oligodendrocytes, a more advanced model of cell differentiation, showed GLA supplementation to promote oligodendrocyte differentiation. Following GLA supplementation, increased numbers of proteolipid protein (PLP)-positive oligodendrocytes and increased myelin sheet formation was observed during differentiation of primary oligodendrocytes. Moreover, increased CNP, and enhanced PLP and myelin basic protein expression were found after GLA administration. These studies provide support for the dietary supplementation of specific PUFAs to support oligodendrocyte differentiation and function.