Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0014070 (encephalomyelitis)
13,017 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gliosis is a repair process of lesions appearing in the central nervous system (CNS). Although gliosis by astrocytes (astrocytic gliosis) has been well documented, that by microglia (microglial gliosis) remains poorly understood. In the present study we induced experimental autoimmune encephalomyelitis (EAE) in Lewis rats and examined microglial and astroglial reactions to EAE lesions at various stages of the disease by immunohistochemistry. For the demonstration of microglia and astrocytes, antibodies against complement receptor type 3 (OX42) and glial fibrillary acidic protein (GFAP) were used, respectively. It was revealed that the whole course of microglial and astroglial reactions to EAE lesions is divisible into three stages, i.e., initial, peak and recovery stages. Microglial and astroglial reactions to EAE lesions at each stage correspond well with the clinical and histological stages of EAE. At the initial stage, rats showed mild clinical signs and a few inflammatory foci were found in the CNS. Microglia were increased in number in close association with inflammatory cell aggregates, whereas astrocytes showed no significant reaction in spite of the presence of inflammatory cells. At the peak stage, rats showed full-blown EAE and the number of inflammatory cells reached maximum. The most characteristic finding at this stage was 'encasement' of inflammatory lesions by astrocytic fibers. Microglia were increased in number, but association of microglia with lesions was prevented by astrocytes. Interestingly, however, such characteristic distribution of microglia and astrocytes was not observed at the recovery stage. Residual inflammatory cell aggregates were intermingled with dense microglial and astrocytic gliosis, forming 'micro-astroglial scars'. Double immunofluorescence staining with anti-GFAP and anti-bromodeoxyuridine (BrdU), or with OX42 and anti-BrdU revealed that BrdU-incorporated microglia, but not astrocytes, were present mainly at the initial and peak stages, suggesting that microglia would proliferate by cell division to create gliosis, whereas astrocytic gliosis would be a result of migration of astrocytes and/or up-regulation of expression of GFAP molecule. Taken together with previous in vitro findings that microglia, but not astrocytes, stimulate encephalitogenic T cell proliferation, these in vivo findings suggest that microglia augment, whereas astrocytes suppress, inflammatory processes in the CNS.
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PMID:Microglial and astroglial reactions to inflammatory lesions of experimental autoimmune encephalomyelitis in the rat central nervous system. 137 28

Astrocytes have been shown to be capable of serving as antigen-presenting cells and as targets for encephalitogenic cytotoxic T lymphocytes. The role of astrocytes in central nervous system (CNS) autoimmune inflammation is unclear. To study this further, we transplanted astrocyte aggregates into the anterior eye chamber of the mouse. The astrocytic nature of these transplants was confirmed by immunohistochemical detection of glial fibrillary acidic protein and the inability to detect oligodendrocyte or microglial markers. When mice bearing transplants were induced to develop experimental allergic encephalomyelitis by either passive or active protocols, the astrocyte transplants developed a perivascular inflammatory response similar to that seen in the host CNS during the course of the encephalomyelitis. The data suggest that astrocytes could serve as targets for the autoimmune attack of experimental allergic encephalomyelitis and support the possibility that the pathogenesis of this disease may involve an autoimmune reaction against a site other than the myelin sheath.
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PMID:Autoimmune inflammation of astrocyte transplants. 159 88

From previous studies on the induction and treatment of experimental autoimmune encephalomyelitis (EAE) in guinea pigs and mice, antibodies have been implicated during both demyelination and remyelination. In the present study, sera from guinea pigs with acute, chronic and myelin basic protein/galactocerebroside (MBP/GC)-treated chronic EAE were evaluated for the presence of anti-glial cell antibodies by immunocytochemical techniques. Antigen specificity was confirmed by enzyme-linked immunosorbent assay (ELISA) and Western blotting. The majority of sera from acute and chronic active EAE animals displayed intense labelling of astrocytes and only weak staining of oligodendrocytes when tested on sections of normal guinea pig brain tissue. In contrast, sera from animals with chronic EAE treated with MBP/GC gave strong labelling of oligodendrocytes and only minor staining of astrocytes. By immunoblotting, astrocyte staining was shown to be due to the presence of antiglial fibrillary acidic protein (GFAP) antibodies. The intense oligodendrocyte staining observed in sections reacted with sera from MBP/GC-treated guinea pigs corresponded well with high titers of serum anti-GC and anti-MBP antibodies measured by an ELISA. It was concluded that the presence of antibodies against astrocytes was possibly related to astrocytic antigens within the disease-inducing emulsion, at least during the initial phases of EAE, and not to their release from the central nervous system of affected animals.
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PMID:Increase in anti-astrocyte antibodies in the serum of guinea pigs during active stages of experimental autoimmune encephalomyelitis. 168 46

We have previously shown that the content of glial fibrillary acidic protein (GFAP) gradually increases in the spinal cord of Lewis rats with acute experimental autoimmune encephalomyelitis (EAE), reaching a level 1.5-2 times greater than that in controls by 35 days postimmunization (dpi). We report here that the increase in GFAP mRNA level followed a completely different time course and reached higher levels relative to controls than did that of the protein. Total RNA was isolated using a modified version of current methods using phenol/chloroform extractions to ensure optimal recovery from spinal cord. Control animals yielded 323 +/- 35 micrograms (mean +/- SD; n = 34) of total RNA/spinal cord throughout the experimental period. EAE animals contained up to three times as much total RNA during 11-14 dpi, a finding largely reflecting the infiltration of inflammatory cells. By 65 dpi, total RNA levels closely approached control values. As early as 10 dpi, increased amounts of GFAP mRNA were detected in EAE animals relative to controls. During 11-14 dpi, GFAP mRNA levels reached six- to eightfold greater than values in controls and then slowly declined throughout the remainder of the time course, with a fourfold increase still detected at 65 dpi. However, coinciding with the height of inflammation and clinical signs at 12 dpi, the GFAP mRNA content dropped to approximately 50% of the level at 11 dpi but rose again at 13 dpi. This dip was mirrored by a similar decrease in neurofilament mRNA content, but otherwise the level of this message remained relatively constant and equal to that in controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of glial fibrillary acidic protein and neurofilament mRNA in gliosis induced by experimental autoimmune encephalomyelitis. 169 Feb 69

Multiple sclerosis plaques were immunohistochemically stained to exhibit cells expressing immune-system antigens. Human leukocyte antigen (HLA)-DR-positive cells formed dense rings around all plaque regions. The majority were reactive microglia/macrophages. Counterstaining with oil red O revealed heavy myelin debris within these cells. They were distinct from astrocytes, which were identified with an antibody to glial fibrillary acidic protein (GFAP) and which did not contain oil red O myelin debris. Numerous leukocytes and microglia were stained with antibody to leukocyte common antigen (LCA). Lymphocytes in cuffs around vessels, along the margins of capillary walls, and, sparingly, in the tissue matrix of affected areas, were stained with antibodies to CD4 (T-helper/inducer) and CD8 (T-cytotoxic/suppressor). In experimental allergic encephalomyelitis (EAE) induced in Lewis rats, a similar proliferation of Ia-positive (OX6, OX17) cells displaying reactive microglia/macrophage morphology was observed. These Ia-positive cells also were easily distinguished from GFAP-positive astrocytes. The results suggest that macrophages/reactive microglia, and not astrocytes, express class II MHC antigens in multiple sclerosis and EAE plaques.
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PMID:Cellular immune response in multiple sclerosis plaques. 169 25

This paper assesses reactive gliosis in the optic tracts and other regions of brain in Lewis rats with experimental autoimmune encephalomyelitis (EAE). Enhanced immunostaining for glial fibrillary acidic protein (GFAP) in brains from rats with EAE occurred primarily in the white-matter tracts and was not restricted to sites of inflammation. Immunocytochemical staining for other putative astrocytic antigens demonstrated glutathione-S-transferase (Yb isoenzyme) to be localized extensively in GFAP-positive cells and vimentin to be present both in inflammatory cells and in some GFAP-positive astroglial cells. Positive staining for carbonic anhydrase and glutamine synthetase was observed in oligodendrocytes. In the optic tracts glutamine synthetase, but not carbonic anhydrase, was also observed in some astrocytes.
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PMID:Reactive gliosis in the brains of Lewis rats with experimental allergic encephalomyelitis. 197 May 78

Immunohistochemistry was used to study herpes simplex virus type 1-induced central nervous system demyelination in the trigeminal root entry zone of mice inoculated with herpes simplex virus type 1 by the corneal route. There was no change in peripheral nervous system myelin as shown by immunostaining for P0 glycoprotein. Double immunoperoxidase staining for herpes simplex virus type 1 antigens and glial fibrillary acidic protein showed that most of the infected cells were astrocytes. Glial fibrillary acidic protein immunostaining was completely lost in the inferior medial portion of the trigeminal root entry zone at 6 days after herpes simplex virus type 1 inoculation, a time when central nervous system myelin was preserved as indicated by immunostaining for myelin basic protein. The pattern of glial fibrillary acidic protein staining did not change and herpes simplex virus type 1 antigens were no longer detected after day 8. There was a progressive loss of myelin basic protein staining within the area unstained by glial fibrillary acidic protein antisera on days 8 to 14. This pattern of astrocyte loss before central nervous system demyelination is strikingly different from the reactive astrocytosis seen in other demyelinating lesions, such as acute experimental allergic encephalomyelitis, progressive multifocal leukoencephalopathy, or acute multiple sclerosis. Herpes simplex virus type 1 infection in mice provides an unusual model of acute central nervous system demyelination preceded by a loss of astrocytes.
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PMID:Early loss of astrocytes in herpes simplex virus-induced central nervous system demyelination. 204 45

We previously reported that glial fibrillary acidic protein (GFAP) levels increased significantly at 3 days after stab wounds, relative to sham-operated controls, reaching a maximum of 200% of control value at 5-7 days. They then fell to near-normal values by 21 days. To determine whether these protein changes correlated with changes in GFAP mRNA we performed Northern blot analyses. Total RNA, isolated from lesioned, sham-operated and intact rat forebrains, was hybridized with 32P-labeled mouse GFAP cDNA and quantified by densitometry. The maximum increase in total RNA content in lesioned animals was only 20% over controls at 12 h. GFAP mRNA levels increased to 2-fold control values at 6 h and reached 5-fold at 12 h. Thereafter they remained at 3.5- to 6-fold until 5 days and then declined to 1.5-fold by 21 days. The rapid increase of GFAP message at 12 h preceded a significant increase in GFAP by 2 days and the decrease of message after 5 days was more precipitate than the slow decrease in GFAP content. Sham-operated animals showed no significant changes in GFAP mRNA, compared to intact controls, during the period 3 h to 14 days postoperation. GFAP mRNA and GFAP in the stab-wound model reached levels similar to those found in the experimental autoimmune encephalomyelitis (EAE) model, but returned to normal much more rapidly.
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PMID:GFAP mRNA levels following stab wounds in rat brain. 207 90

We have investigated the capacity of the lymphokine gamma-interferon (IFN-gamma) to induce class II major histocompatibility complex (MHC) antigens on astrocytes cultured from BALB/c mice. This is a mouse strain resistant to experimental allergic encephalomyelitis (EAE), and in a recent report Massa et al. (Proc. Natl. Acad. Sci. U.S.A., 84 (1987) 4219-4223) indicated that BALB/c astrocytes in vitro were not susceptible to class II MHC antigen induction by IFN-gamma. We observed, in agreement with this previous report, that when primary cultures of astrocytes from neonatal BALB/c mice were just at confluence (7-10 days in vitro), IFN-gamma did not stimulate expression of class II MHC antigens. However, after 14-16 days in vitro, a population of astrocytes emerged in the cultures on which class II MHC antigens could be induced. These cells expressed the astrocyte marker glial fibrillary acidic protein, and were found in close association to small round superficial cells (multipotential precursor cells), and to microglia. These results indicate that the ability of astrocytes to respond to lymphokine stimulation is not completely correlated with susceptibility to EAE, and further suggest the importance of central mechanisms in the development of inflammatory brain disease.
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PMID:Induction of class II major histocompatibility complex antigens on a population of astrocytes from a mouse strain (BALB/c) resistant to experimental allergic encephalomyelitis. 233 4

The central nervous system (CNS) contains several types of neuroglial cells. In the present study, we characterized different types of glial cells in rat CNS by using single and combined immuno- and enzyme-histochemical methods, and immunofluorescence techniques. Two recently developed monoclonal antibodies (mAbs) against rat macrophages-associated antigens appeared to recognize a subpopulation of glial cells in the CNS of normal adult rats. These ED4- and ED8-positive glial cells were predominantly located in the white matter of adult rat CNS and shared morphological features with microglia. ED4 and ED8 were applied in a double staining combined with mAbs and an antiserum raised against galactocerebroside (GalC) to identify oligodendrocytes, or with anti-glial fibrillary acidic protein antiserum (GFA) to identify astrocytes. We also used a mAb against myelin basic protein (MBP) to identify oligodendrocytes. It appeared that ED4 and ED8 recognized a subpopulation of oligodendrocytes. MAbs against GalC and MBP recognized cells in an immunoperoxidase staining with a morphology identical to that of the ED8-positive cells and part of the ED4-positive cells. Frozen sections of Lewis rats CNS with acute experimental allergic encephalomyelitis (EAE) were investigated, where infiltrating brain macrophages could be found which stained positively with ED4 and ED8 as well as with the monocyte/macrophage mAbs ED1 and ED2. These brain macrophages did not stain when GalC, MBP and GFA markers were applied. Furthermore, ED4+GalC+ and ED8+GalC+ oligodendrocytes were present in the CNS white matter of EAE animals with similar appearance as in normal adult rats. With the currently used markers, we could not detect a third type of neuroglial cell, besides the astrocytes and oligodendrocytes. Thus, none of our anti-macrophage monoclonals recognized the presumptive microglia. Only under pathological conditions, e.g., in inflammatory infiltrates in the course of EAE, could brain macrophages be detected in the CNS parenchyma and only in the direct vicinity of blood vessels, indicating their hematogenous origin.
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PMID:Discrimination between different types of neuroglial cells in rat central nervous system using combined immuno- and enzyme-histochemical methods. 246 92


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