Glutamate metabolism is down-regulated in astrocytes during experimental allergic encephalomyelitis

Experimental allergic encephalomyelitis (EAE) was induced in SJL/J mice by adoptive transfer of MBP-reactive T cells in order to investigate the role of astrocytes in pathology. GFAP protein and mRNA expression (analyzed using semi-quantitative Western blot and RT-PCR techniques) were upregulated in the spinal cord of mice, which had developed a complete paralysis of hind- and fore-limbs and tail (grade 4 EAE), thus establishing that reactive gliosis occurred under these experimental conditions. Within the same samples and using similar techniques, we found that glutamine synthetase (GS) and glutamate dehydrogenase (GDH) expression were dramatically reduced. These two astrocytic enzymes are responsible for degradation of glutamate, the most abundant excitatory neurotransmitter in the brain. Since elevated levels of glutamate may be neurotoxic, we propose that the decreased capacity of astrocytes to metabolize glutamate may contribute to EAE pathology. GLIA 20:79–85, 1997. © 1997 Wiley-Liss, Inc.     

MK-801对EAE动物模型轴索损伤的保护作用研究

目的通过建立实验性自身免疫性脑脊髓炎(EAE)动物模型,对EAE的发病机制和轴索损伤进行研究,并进行药物干预,寻找新的治疗方法。方法选用髓鞘蛋白脂蛋白(PLP139-151)多肽作为抗原免疫雌性SJL/J小鼠,诱发EAE小鼠模型,应用MK-801(0.30mg/kg)进行干预。发病后取脑、脊髓组织切片,进行免疫组织化学检查。结果模型组23(23/30)只小鼠发病,发病率为76.7%,平均发病时间为19±2.58天,平均神经功能评分为2.14±0.69分。药物(MK-801)治疗组16(16/30)只小鼠发病,发病率为53.3%,平均发病时间为21±1.25天(P<0.05),平均神经功能评分为1.08±0.42分(P<0.02);病理显示药物干预后病灶减少,病变减轻。结论PLP多肽诱发SJL/J小鼠的EAE动物模型的病理改变主要累及脊髓。谷氨酸的兴奋性毒性参与MS发病和轴索损伤,应用NMDA受体拮抗剂MK-801可以减少神经功能缺失,降低发病率。     

Glial fibrillary acidic protein in chronic relapsing experimental allergic encephalomyelitis in SJL/J mice

The gliotic scar in the demyelinated plaque is a prominent feature of the pathology of multiple sclerosis. Chronic relapsing experimental allergic encephalomyelitis (EAE) in the SJL/J mouse has many characteristics in common with multiple sclerosis in the human, including the development of intense gliosis during the course of the demyelinating disease. With the use of antibody to the astrocyte marker glial fibrillary acidic protein (GFAP) we have measured the increase of GFAP over an 11-month course of chronic EAE. Intense staining of astrocyte fibers was seen around EAE lesions, which were most frequently observed in the cerebellum, periventricular areas, and in the spinal cord. The relative amount of GFAP was estimated by preparation of cytoskeletal proteins from the affected CNS areas, separation of proteins by polyacrylamide gel electrophoresis, and quantitation of GFAP in relation to the 70-kD neurofilament protein (NF) in gel scans. The ratio GFAP/70-kD NF protein in control animals did not change significantly over 11 months, whereas this ratio gradually increased to 2.54 in animals with chronic relapsing EAE 6 months after immunization. Although some decrease of neural fibers may have contributed partially to this change in ratio, the amounts of GFAP were greatly increased. These results indicate that the SJL/J mouse with chronic relapsing EAE provides an excellent model with which to investigate the formation and development of the gliotic plaque analogous to that seen in demyelinated areas in multiple sclerosis tissue.     

ADAM-17 and TIMP3 protein and mRNA expression in spinal cord white matter of rats with acute experimental autoimmune encephalomyelitis

Tumour necrosis factor (TNF) is a major immunomodulatory and proinflammatory cytokine implicated in the pathogenesis of multiple sclerosis (MS) and the animal model experimental autoimmune encephalomyelitis (EAE). ADAM-17 cleaves membrane-bound TNF into its soluble form. The distribution and level of ADAM-17 expression within spinal cords of Lewis rats with EAE was investigated. ADAM-17 was associated with endothelial cells in the na?ve and pre-disease spinal cords. In peak disease astrocytic and inflammatory cells expressed ADAM-17. Upregulation of ADAM-17 mRNA expression was coupled with a decrease in mRNA levels of its inhibitor TIMP3 suggesting a role for ADAM-17 in EAE pathogenesis.     

[3H]Thymidine labeling of astrocytes in experimental allergic encephalomyelitis

In acute experimental allergic encephalomyelitis (EAE), astrocytes in spinal cord tissue hypertrophy and stain intensely with antibody to the glial fibrillary acidic protein (GFAP). We attempted to determine if this activation is a result solely of hypertrophy of existing astrocytes or if astrocyte division might also occur. Lewis rats in various stages of acute EAE were injected with [³H]thymidine, the spinal cord sections were prepared, immunostained for GFAP and processed for radioautography. In spinal cords from rats administered thymidine on days 11–15 after sensitization a large number of mononuclear cells showed radioactive label. Many of these labeled cells, most likely monocytes and lymphocytes, were associated with inflammatory lesions, but others were located in the CNS parenchyma at great distances from the lesions. Most cells staining for the GFAP were hypertrophied with greatly extended cell processes, and the nuclei of some of these cells identified as astrocytes were overlaid with silver grains, indicating uptake of [³H]thymidine. In addition a few ependymal cells appeared to be labeled. No GFAP-stained cells from the Freund's adjuvant controls contained radioactive label. Similar studies using SJL/J mice with chronic relapsing EAE yielded very few labeled inflammatory cells or astrocytes. This study indicates that division takes place in some astrocytes in acute EAE, but occurs much less frequently in chronic EAE. Probably most of the increase in GFAP-stained material is a result of hypertrophy of astrocytes rather than of massive cell division.     

[H]Thymidine labeling of astrocytes in experimental allergic encephalomyelitis

In acute experimental allergic encephalomyelitis (EAE), astrocytes in spinal cord tissue hypertrophy and stain intensely with antibody to the glial fibrillary acidic protein (GFAP). We attempted to determine if this activation is a result solely of hypertrophy of existing astrocytes or if astrocyte division might also occur. Lewis rats in various stages of acute EAE were injected with [³H]thymidine, the spinal cord sections were prepared, immunostained for GFAP and processed for radioautography. In spinal cords from rats administered thymidine on days 11–15 after sensitization a large number of mononuclear cells showed radioactive label. Many of these labeled cells, most likely monocytes and lymphocytes, were associated with inflammatory lesions, but others were located in the CNS parenchyma at great distances from the lesions. Most cells staining for the GFAP were hypertrophied with greatly extended cell processes, and the nuclei of some of these cells identified as astrocytes were overlaid with silver grains, indicating uptake of [³H]thymidine. In addition a few ependymal cells appeared to be labeled. No GFAP-stained cells from the Freund's adjuvant controls contained radioactive label. Similar studies using SJL/J mice with chronic relapsing EAE yielded very few labeled inflammatory cells or astrocytes. This study indicates that division takes place in some astrocytes in acute EAE, but occurs much less frequently in chronic EAE. Probably most of the increase in GFAP-stained material is a result of hypertrophy of astrocytes rather than of massive cell division.     

实验性变态反应性脑脊髓炎大鼠星形胶质细胞的变化

目的观察实验性变态反应性脑脊髓炎(EAE)大鼠脊髓中星形胶质细胞的变化,探讨EAE大鼠的发病相关生物学机制。方法采用免疫组化法,对豚鼠全脊髓匀浆诱导的Wistar大鼠EAE的过程中,脊髓内星形胶质细胞变化情况进行研究。结果EAE大鼠症状高峰期时星形胶质细胞开始激活,恢复期时激活达到高峰,而且活化的星形胶质细胞未见表达主要组织相容性抗原(MHC)。结论活化的星形胶质细胞可能与EAE大鼠的恢复有关。     

Bone morphogenetic proteins 4, 6, and 7 are up-regulated in mouse spinal cord during experimental autoimmune encephalomyelitis

Although spontaneous remyelination occurs in multiple sclerosis (MS), the extent of myelin repair is often inadequate to restore normal function. Oligodendrocyte precursors remaining in nonremyelinating MS plaques may be restricted by an inhibitory signal. Bone morphogenetic proteins (BMPs) have been implicated as repressors of oligodendrocyte development and inducers of astrogliogenesis. We hypothesized that BMPs are up-regulated in MS lesions and play a role in demyelination and astrogliosis. We examined expression of BMPs in an animal model of MS, chronic experimental autoimmune encephalomyelitis (EAE) induced by the myelin oligodendrocyte glycoprotein (MOG) peptide in C57BL/6 mice. By 14 days postimmunization, compared to those of control mice, the lumbar spinal cords of MOG-peptide EAE mice demonstrated prominent astrogliosis, infiltration of inflammatory cells, and disrupted expression of myelin proteins. Quantitative RT-PCR showed that expression of BMP4, BMP6, and BMP7 mRNA increased 2- to 4-fold in the lumbar spinal cords of animals with symptomatic EAE versus in vehicle-treated and untreated controls on days 14, 21, and 42 postimmunization. BMP2 mRNA expression was not altered. BMP4 mRNA was much more abundant in the spinal cords of all animals than was mRNA encoding BMP2, BMP6, and BMP7. Immunoblot analysis confirmed the increased expression of BMP4 in the EAE animals. Immunohistochemistry revealed increased BMP4 immunoreactivity in areas of inflammation in MOG-peptide EAE animals. BMP4 labeling was mostly limited to macrophages but was sometimes associated with astrocytes and oligodendrocytes. These results indicate that members of the BMP family are differentially expressed in adult spinal cord and are up-regulated during EAE. (c) 2007 Wiley-Liss, Inc.     

Sequence 104–117 of myelin proteolipid protein is a cryptic encephalitogenic T cell determinant for SJL/J mice

Immunization of animals with myelin proteolipid protein (PLP) causes experimental autoimmune encephalomyelitis (EAE), a disease model that shares many features with human multiple sclerosis (MS). The SJL/J (H-2⁵) mouse is widely used in EAE studies because of its high disease susceptibility. Previous studies have shown that sequences 139–151 HCLGKWLGHPDKF and 178–191 NTWTTCQSIAFPSK represent distinct co-immunodominant encephalitogenic determinants of PLP for SJL/J mice. In the present study, we identify a third distinct PLP encephalitogenic peptide for SJL/J mice. Following immunization with PLP 104–117 KTTICGKGLSATVT, 10/14 SJL/J mice developed clinical and histological EAE with a mean time of onset of 38 days (18–65 days). T cell lines generated from SJL/J mice immunized with p104–117 were predominantly (> 90%) CD3⁺, CD4⁺, αβTCR⁺, CD8^dim, γδTCR^dim T cells and responded in an Ag-specific, I-As-restricted manner to p104–117. Upon adoptive transfer of 16−40 × 10⁶ T line cells, EAE was produced in naive SJL/J recipients 20–34 days after transfer. The delayed onset of both active and passive disease may be related to the non-immunodominant, cryptic nature of p104–117 in SJL/J mice. Lymph node cells from SJL/J mice immunized with either whole PLP or with pooled encephalitogenic PLP peptides responded to challenge with the immunodominant PLP determinants p139–151 and p178–191 but did not respond to p104–117. The existence of three distinct PLP encephalitogenic T cell determinants for SJL/J mice suggests that susceptibility to EAE and perhaps MS may be related to promiscuous T cell recognition of multiple myelin protein determinants.     

Sodium fusidate (fusidin) ameliorates the course of monophasic experimental allergic encephalomyelitis in the Lewis rat.

We have evaluated the effect of the immunosuppressant sodium fusidate (fusidin) on the course of acute monophasic experimental encephalomyelitis (EAE) in male Lewis rats. Prophylactic treatment with fusidin, 80 or 120 mg/kg bd wt., markedly ameliorated the course of the disease in rats immunized with myelin basic proteins in complete Freund's adjuvant, entailing delayed onset of symptoms, lower clinical scores and more rapid recovery than PBS-treated control rats. The fusidin-treated, immunized rats exhibited milder mononuclear cell infiltration of brains and spinal cords than control animals. These data provide further evidence for the anti-inflammatory effect of fusidin and suggest that this drug may be valuable for the treatment of human multiple sclerosis.     

Sex differences in experimental autoimmune encephalomyelitis in multiple murine strains

Multiple sclerosis (MS) is more prevalent in women than men. We evaluated seven different mouse strains commonly used in the study of autoimmune diseases, for sex differences in the disease course of experimental autoimmune encephalomyelitis (EAE). Greater severity of EAE was observed in the female SJL immunized with two different peptides of myelin proteolipid protein (PLP) and myelin oligodendrocyte glycoprotein (MOG) as well as in the female ASW relative to males. Female NZW mice showed a greater incidence of EAE than males. However, male B10.PL and PL/J mice showed more severe disease than females. No sex differences were noted in the C57BL/6 or NOD strains.     

Treatment of relapsing experimental autoimmune encephalomyelitis with T cell receptor peptides

Restricted T cell receptor (TCR) VB gene usage by T cells for recognition of antigens involved in the production of experimental autoimmune encephalomyelitis (EAE) offers the possibility of selective immunotherapy. We determined the preferential VB gene usage of lymph node-derived clones from SJL/J mice to recognize the encephalitogenic epitope PLP 139-151 and from PL/J mice to recognize the newly described encephalitogenic epitope PLP 43-64. In addition, the VB gene usage for recognition of PLP 139-151 by T cell lines derived from SJL/J spinal cords was analyzed. Lymph node-derived SJL/J lines and clones specific for PLP 139-151 expressed VB2, VB4, and VB17a preferentially, and PL/J lines and clones specific for PLP 43-64 expressed VB2 and VB8.2 preferentially. A VB4+ SJL/J clone and a VB8.2+ PL/J clone were encephalitogenic. Encephalitogenic SJL/J lines derived from spinal cord expressed VB2, VB10, VB16, and VB17a preferentially, with a predominance of VB2. Candidate TCR peptides were synthesized and tested from the VB gene families VB4, VB8.2, and VB17a, based on our data and previous data on BP-induced EAE in mice. Treatment of relapsing EAE (R-EAE) in SJL/J mice with VB4 and VB17a peptides reduced clinical and histological disease severity, and treatment of R-EAE in (PLxSJL)F1 mice with VB4 and VB8.2 peptides also reduced clinical and histological disease. The use of TCR peptide therapy may have applications for the treatment of human autoimmune diseases such as multiple sclerosis. © 1993 Wiley-Liss, Inc.     

Expression of citrullinated proteins in murine experimental autoimmune encephalomyelitis

In this study, we demonstrate for the first time the immunohistochemical expression of citrullinated proteins in the central nervous system (CNS) of mice with myelin oligodendrocyte glycoprotein (MOG)-induced experimental autoimmune encephalomyelitis (EAE). By using an established monoclonal antibody (F95) against natural and synthetic citrullinated proteins (Nicholas and Whitaker [2002] Glia 37:328-336), numerous, small, previously unrecognized "patches" of citrullinated proteins were discovered throughout EAE brains, whereas EAE spinal cords showed similar but much larger lesions. On dual color immunofluorescence, these lesions were found to contain citrullinated myelin basic protein (MBP) and were surrounded by astrocytes immunoreactive for both glial fibrillary acidic protein (GFAP) and F95. These lesions became evident about the time when EAE mice became symptomatic and increased in size and number with increasing disease severity. In some sections of spinal cord but not brains of severely debilitated EAE mice, a widespread gliotic response was seen, with astrocytes containing citrullinated GFAP spread throughout the gray and white matter. Western blot analysis of acidic proteins from the brains and spinal cords of EAE mice had higher levels of multiple citrullinated GFAP isoforms compared with controls, with more F95-positive bands in the EAE brains vs. spinal cords. These results raise the possibility that citrullination of both GFAP and MBP may contribute to the pathophysiology of EAE and that the brains of EAE mice may contain more pathology than previously realized.     

PSGL-1 is dispensible for the development of active experimental autoimmune encephalomyelitis in SJL/J mice

The adhesion molecule P-selectin glycoprotein ligand (PSGL)-1 has been suggested to be involved in the immunopathogenesis of multiple sclerosis (MS). However, in C57BL/6 mice PSGL-1 was found to be dispensible for the development of MOG(aa35-55)-induced experimental autoimmune encephalomyelitis (EAE), an animal model for MS. To study, if involvement of PSGL-1 to EAE pathogenesis can be observed in another common mouse model, we backcrossed PSGL-1(-/-) mice for at least 12 generations into the SJL/J background and compared PLP(aa139-151) induced EAE in PSGL-1(-/-) SJL/J mice versus wild-type SJL/J mice. Here, we demonstrate that PSGL-1(-/-) SJL/J mice exhibited EAE pathogenesis indistinguishable from wild-type SJL/J mice. Our present study underscores and emphasizes previous observations that PSGL-1 is dispensible for EAE pathogenesis.     

Gliosis in the spinal cords of rats with experimental allergic encephalomyelitis: immunostaining of carbonic anhydrase and vimentin in reactive astrocytes

Spinal cord sections from rats sensitized to develop experimental allergic encephalomyelitis (EAE) were immunostained with antibodies against glial fibrillary acidic protein (GFAP), carbonic anhydrase, and vimentin, to see whether the latter two antigens could be detected in GFAP-positive reactive astrocytes. Sixteen days after sensitization (16 dpi) there was intense carbonic anhydrase immunostaining in GFAP-positive cells in the spinal cords of EAE rats, particularly in the white matter. At 13 and 20 dpi carbonic anhydrase immunostaining in astrocytes was less intense, and in the spinal cord white matter of control animals carbonic anhydrase was not detected in the few GFAP-positive cells. In the spinal cords of EAE rats vimentin immunostaining was observed in inflammatory cells and astrocytes. In the latter, GFAP and carbonic anhydrase were colocalized with vimentin. The data suggest that carbonic anhydrase expression in astrocytes is an acute response to injury and that vimentin can be detected in astrocytes, as well as inflammatory cells, as early as 16 dpi.     

Dysfunctional RNA-binding protein biology and neurodegeneration in experimental autoimmune encephalomyelitis in female mice

Altered stress granule (SG) and RNA-binding protein (RBP) biology have been shown to contribute to the pathogenesis of several neurodegenerative diseases, yet little is known about their role in multiple sclerosis (MS). Pathological features associated with dysfunctional RBPs include RBP mislocalization from its normal nuclear location to the cytoplasm and the formation of chronic SGs. We tested the hypothesis that altered SG and RBP biology might contribute to the neurodegeneration in experimental autoimmune encephalomyelitis (EAE). C57BL/6 female mice were actively immunized with MOG_35-55 to induce EAE. Spinal cords were examined for mislocalization of the RBPs, heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1) and TAR-DNA binding protein-43 (TDP-43), SGs, neurodegeneration (SMI-32), T cells (CD3), and macrophages (CD68). In contrast to naive mice, mice with EAE showed SG formation (p < 0.0001) and mislocalization of hnRNP A1 (p < 0.05) in neurons of the ventral spinal cord gray matter, which correlated with clinical score (R = 0.8104, p = 0.0253). In these same areas, there was a neuronal loss (p < 0.0001) and increased SMI-32 immunoreactivity (both markers of neurodegeneration) and increased staining for CD3⁺ T cells and IFN-gamma. These findings recapitulate the SG and RBP biology and markers of neurodegeneration in MS tissues and suggest that altered SG and RBP biology contribute to the neurodegeneration in EAE, which might also apply to the pathogenesis of MS.     

Oral administration of human or murine interferon alpha suppresses relapses and modifies adoptive transfer in experimental autoimmune encephalomyelitis

Chronic relapsing experimental autoimmune encephalitis (CR-EAE) is an inflammatory process of the central nervous system (CNS) that closely resembles the human disease multiple sclerosis (MS). EAE was induced in SJL/J mice and following recovery from the initial attack, animals were fed varying doses of human or murine interferon alpha (IFN-α), or mock IFN three times per week. After relapse, concanavalin A-activated spleen cells were transferred adoptively from orally fed animals into recipient animals. Oral administration of human or murine IFN-α suppressed relapse in actively immunized animals, modified adoptive transfer of EAE, and decreased mitogen/antigen proliferation and IFN-γ secretion in both donors and recipients. IFN-α acts orally by modifying the encephalitogenicity of donor spleen T cells.     

Inhibition of Notch signaling enhances tissue repair in an animal model of multiple sclerosis

Oligodendrocytes (OLs) fail to regenerate myelin destroyed by the immune attack in multiple sclerosis (MS) and lesion areas are eventually largely occupied by astrocytic scar tissue. Loss of OLs in MS does not account for the limited myelin repair as lesions contain a considerable number of OL precursor cells (OPC). Activation of the Notch pathway has been shown to provide inhibitory signals for OPC and to hamper their ability to produce myelin during CNS development. Here we show that gamma-secretase inhibition of Notch signaling within OL of CNS of SJL/J mice with experimental autoimmune encephalomyelitis (EAE) significantly enhanced clinical recovery and in the CNS, promoted remyelination and reduced axonal damage. Functional assays confirmed decreased Notch signaling in inhibitor-treated groups. Therefore, gamma-secretase inhibition led to an environment more conducive to myelin repair and axonal survival. Our results suggest that manipulation of the environment associated with Notch activation in the mature CNS provides a promising therapeutic target in MS.