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Query: UMLS:C0014070 (
encephalomyelitis
)
13,017
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Traumatic brain injury (TBI) in the mouse results in the rapid appearance of scattered clusters of cells expressing the chemokine Cxcl10 in cortical and subcortical areas. To extend the observation of this unique pattern, we used neuropathological mouse models using quantitative reverse transcriptase-polymerase chain reaction, gene array analysis, in-situ hybridization and flow cytometry. As for TBI, cell clusters of 150-200 mum expressing Cxcl10 characterize the cerebral cortex of mice carrying a transgene encoding the Swedish mutation of amyloid precursor protein, a model of amyloid Alzheimer pathology. The same pattern was found in experimental autoimmune
encephalomyelitis
in mice modelling multiple sclerosis. In contrast, mice carrying a
SOD1
(G93A) mutant mimicking amyotrophic lateral sclerosis pathology lacked such cell clusters in the cerebral cortex, whereas clusters appeared in the brainstem and spinal cord. Mice homozygous for a null mutation of the Cxcl10 gene did not show detectable levels of Cxcl10 transcript after TBI, confirming the quantitative reverse transcriptase-polymerase chain reaction and in-situ hybridization signals. Moreover, unbiased microarray expression analysis showed that Cxcl10 was among 112 transcripts in the neocortex upregulated at least threefold in both TBI and ageing TgSwe mice, many of them involved in inflammation. The identity of the Cxcl10(+) cells remains unclear but flow cytometry showed increased numbers of activated microglia/macrophages as well as myeloid dendritic cells in the TBI and experimental autoimmune
encephalomyelitis
models. It is concluded that the Cxcl10(+) cells appear in the inflamed central nervous system and may represent a novel population of cells that it may be possible to target pharmacologically in a broad range of neurodegenerative conditions.
...
PMID:Appearance of Cxcl10-expressing cell clusters is common for traumatic brain injury and neurodegenerative disorders. 2037 85
Monitoring neuroaxonal loss in multiple sclerosis is an important objective to study the pathogenesis and response to treatment of the disease. The release of neurofilaments is a potential surrogate biomarker of neurodegeneration. One route to explore this aspect further is through the use of animal models that have well-defined, and predictable, disease courses. The release of neurofilaments into plasma across the course of relapsing-remitting and secondary progressive experimental autoimmune
encephalomyelitis
in Biozzi ABH was assessed, as well as measuring anti-neurofilament antibodies using ELISA. It was found that there was an immediate release in neurofilaments into the blood following the initial paralytic attack. Neurofilament release was continuous in relapse and remission but returned towards baseline in chronic disease, as animals entered the post-relapsing progressive phase of the disease. This was mirrored by a loss of neurofilament-specific antibodies. In contrast neurofilament levels increased dramatically as neurodegeneration and clinical disease occurred in the G93A
SOD1
transgenic C57BL/6 x SJL mice, model of amyotrophic lateral sclerosis. These data further support neurofilament levels as a good surrogate measure of neurodegeneration and their potential use as a surrogate endpoint in neuroprotective studies.
...
PMID:Neurofilament a biomarker of neurodegeneration in autoimmune encephalomyelitis. 2227 4
In this report, we have addressed the role of copper-zinc superoxide dismutase (
SOD1
) deficiency in the mediation of central nervous system autoimmunity. We demonstrate that
SOD1
-deficient C57Bl/6 mice develop more severe autoimmune
encephalomyelitis
induced with myelin oligodendrocyte glycoprotein (MOG) 35-55, compared with wild type mice. This alteration in the disease phenotype was not due to aberrant expansion of MOG-specific T cells nor their ability to produce inflammatory cytokines; rather lymphocytes generated in
SOD1
-deficient mice were more prone to spontaneous cell death when compared with their wild type littermate controls. The data point to a role for
SOD1
in the maintenance of self-tolerance leading to the suppression of autoimmune responses.
...
PMID:Copper-zinc superoxide dismutase-deficient mice show increased susceptibility to experimental autoimmune encephalomyelitis induced with myelin oligodendrocyte glycoprotein 35-55. 2329 97
Numerous evidences suggest that plant polyphenols may have therapeutic benefits in regulating oxidative stress and providing neuroprotection in many neurodegenerative diseases, including multiple sclerosis (MS). However, these mechanisms are not yet completely understood. In this study, we investigated the effect of olive leaf polyphenols on oxidative stress through oxidation marker level and activity (TBARS, SOD, and GPX) and their protein expression (
SOD1
, SOD2, and GPX1), as well as the protein expression of Sirtuin 1 (SIRT1) and microglia markers (Iba-1, CD206, and iNOS) and myelin integrity (proteolipid protein expression) in the brain of rats with induced experimental autoimmune
encephalomyelitis
(EAE) and subjected to olive leaf therapy. Experiments were performed in male EAE DA rats, which were randomly divided into 2 main groups: EAE groups treated with the therapy of olive leaf (EAE+TOL) and untreated EAE control groups. The EAE treated groups consumed olive leaf tea instead of drinking water (
ad libitum
) from the beginning to the end of the experiment. In addition, olive leaf extract was injected intraperitoneally (
i.p
.) for the 10 continuous days and started on the 8
th
day after EAE induction. The clinical course was monitored in both groups until the 30
th
day after EAE induction. Our results demonstrated that TOL attenuated the clinical course of EAE; reduced the oxidative stress (by decreasing the concentration of MDA); upregulated antioxidant enzymes (
SOD1
, SOD2, and GPX1), SIRT1 (overall and microglial), and anti-inflammatory M2 microglia; downregulated proinflammatory M1 type; and preserved myelin integrity. These data support the idea that TOL may be an effective therapeutic approach for treating MS and other neurodegenerative diseases.
...
PMID:Olive Leaf Polyphenols Attenuate the Clinical Course of Experimental Autoimmune Encephalomyelitis and Provide Neuroprotection by Reducing Oxidative Stress, Regulating Microglia and SIRT1, and Preserving Myelin Integrity. 3280 67
The etiology of CNS diseases including multiple sclerosis, Parkinson's disease and amyotrophic lateral sclerosis remains elusive despite decades of research resulting in treatments with only symptomatic effects. In this study, we provide evidence that a metabolic shift from glucose to lipid is a key mechanism in neurodegeneration. We show that, by downregulating the metabolism of lipids through the key molecule carnitine palmitoyl transferase 1 (CPT1), it is possible to reverse or slowdown disease progression in experimental models of autoimmune
encephalomyelitis
-,
SOD1
G93A
and rotenone models, mimicking these CNS diseases in humans. The effect was seen both when applying a CPT1 blocker or by using a Cpt1a P479L mutant mouse strain. Furthermore, we show that diet, epigenetics, and microbiota are key elements in this metabolic shift. Finally, we present a systemic model for understanding the complex etiology of neurodegeneration and how different regulatory systems are interconnected through a central metabolic pathway that becomes deregulated under specific conditions.
...
PMID:Dysregulation of metabolic pathways by carnitine palmitoyl-transferase 1 plays a key role in central nervous system disorders: experimental evidence based on animal models. 3297 37
