UMLS:C0014070 - FACTA Search

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

Intracerebral inoculation of weanling Lewis rats with measles virus led to the development of subacute measles encephalomyelitis (SAME) 4-8 weeks after infection. The disease is characterized pathologically by an intense inflammatory infiltration within both the white and grey matter of the central nervous system (CNS) without apparent demyelination. Both during and after SAME splenic lymphocytes from these animals could be restimulated in vitro to proliferate in the presence of myelin base protein (MBP). MBP-specific class II MHC-restricted T cell lines were isolated from this cell population. They were shown to exhibit no cross-reactivity with measles virus and to induce experimental allergic encephalitis (EAE) in naive syngeneic recipients following adoptive transfer. The clinical and histopathological signs of this T cell-mediated disease were identical to that seen in classical T cell-mediated EAE. A humoral immune response to MBP was only detected in a limited number of those rats with SAME. These results indicate that autoimmune reactions to brain antigen can arise during measles virus infection which may contribute to the pathogenesis of measles virus-associated encephalomyelitis.
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PMID:Induction of autoimmune reactions to myelin basic protein in measles virus encephalitis in Lewis rats. 244 22

No cross-reaction could be detected between purified myelin basic proteins (MBP) from mouse, rat or human origins and envelope proteins of viruses suspected of inducing demyelinating processes. In the experimental model using Theiler's murine encephalomyelitis virus, competition radioimmunoassay failed to detect any cross-reaction between MBP and VP1, VP2 and VP3 envelope antigens. In the human situation, antibodies against SV5 and measles viruses, both etiologically linked with multiple sclerosis, also failed to recognize MBP. These results rule out molecular mimicry as a cause of demyelination.
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PMID:Lack of cross-reaction between myelin basic proteins and putative demyelinating virus envelope proteins. 247 71

Measles is associated with alterations in immune regulation that sometimes lead to secondary infections or autoimmune encephalomyelitis. Simultaneously, an effective measles virus-specific immune response develops. To relate immune activation to measles and its complications, we studied the spontaneous proliferation of blood mononuclear cells and circulating levels of soluble interleukin-2 receptor and CD8 T-cell antigens in 126 patients with complicated or uncomplicated measles at various stages of the disease. Spontaneous proliferation of mononuclear cells, which was present through the first week of the rash, was greater in cells from patients with measles (8787 +/- 1403 cpm) than in those from healthy children (1529 +/- 237 cpm, P less than 0.0001). Levels of soluble interleukin-2 receptor (3385 +/- 195 units per milliliter) and CD8 (4145 +/- 437 units per milliliter) were higher in patients with measles than in those with other infectious diseases (2377 +/- 440, P = 0.003; 2399 +/- 771, P = 0.0374) or in healthy children (865 +/- 138, P less than 0.0001; 1026 +/- 169, P less than 0.0001). Levels of soluble interleukin-2 receptor were elevated before the onset of the rash and remained elevated for several weeks. In contrast, levels of soluble CD8 increased only when the rash appeared, and subsided quickly. Spontaneous proliferation of mononuclear cells and levels of soluble CD8 were similar in patients with uncomplicated disease, pneumonia, or encephalomyelitis, but soluble interleukin-2 receptor levels were lower in patients with encephalomyelitis (2312 +/- 314 vs. 3455 +/- 247 units per milliliter in uncomplicated measles; P = 0.01). In patients with encephalomyelitis, cerebrospinal fluid levels of soluble CD8 (686 +/- 350 units per milliliter), but not interleukin-2 receptor (9 +/- 8.3 units per milliliter), were increased. We conclude that the proliferative phase of the immune response, as measured by the release of soluble interleukin-2 receptor, begins before the rash appears, continues for several weeks in those without complications, but does not occur within the nervous system. In contrast, the effector phase of the immune response, as measured by the release of soluble CD8, coincides with the appearance and disappearance of the rash and occurs within the nervous system during encephalomyelitis.
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PMID:Immune activation in measles. 249 61

Four murine anti-idiotypic (a-Id) hybridoma antibodies were produced against immunoglobulins (Ig) present in the cerebrospinal fluid (CSF) obtained from an MS patient 2 mo after the onset of disease. The four a-Id antibodies were shown to delineate idiotopes present on three distinct Ig subpopulations designated ID-19, ID-40, and ID-97. All three Ig subpopulations were produced in part by intrathecally localized B cells, together making up approximately 5% of the total CSF-Ig 2 mo after the onset of disease. Longitudinal analysis of the concentration of these Ig subpopulations in CSF showed that two subpopulations, ID-40 and ID-97, exhibited a regular relation to the clinical course of the disease, i.e., were decreased (ID-40) or increased (ID-97) in the first CSF sample obtained after two consecutive exacerbations. Screening of sera from 52 optic neuritis patients and 51 heterologous MS patients revealed that one MS patient's serum contained an Ig subpopulation that was idiotypically cross-reactive with ID-97. So far, screening of these Ig subpopulations for reaction with several viruses (measles, parainfluenza type 1, influenza type A, cytomegalovirus, herpes simplex virus, rubella virus, poliovirus, murine encephalomyelitis viruses, and reovirus) and myelin basic protein has failed to reveal their antigen specificities.
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PMID:Longitudinal analysis of three intrathecally produced immunoglobulin subpopulations in an MS patient. 257 10

This report describes an approach to determine which of 2 possible etiologies could be responsible for a disease, in this instance acute disseminated encephalomyelitis (ADEM). Information about latency periods was obtained from eighteen reference sources in the literature. Analysis of these data indicate that it would be 9-18 times more likely for ADEM to develop 5 days after a wild virus infection (measles, for example) than 28 days after a vaccination.
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PMID:Spontaneous infection or vaccination as cause of acute disseminated encephalomyelitis. 287 Apr 39

Japanese encephalitis and postmeasles encephalomyelitis represent two important forms of acute encephalitis in the developing world. Japanese encephalitis accounts for 20,000 acute illnesses per year, and measles encephalomyelitis accounts for as many as 100,000. Both are accompanied by mortalities of 20%-30%, and in both forms, approximately one-half of the survivors have neurological sequelae. Therefore, these two diseases are responsible for a considerable proportion of worldwide mental and motor disabilities. Furthermore, both diseases are preventable with use of safe vaccines. Despite these similarities, their very different pathologies appear to be based on different mechanisms of pathogenesis (table 2). In Japanese encephalitis there is direct invasion of the virus into the nervous system, selective infection and destruction of neurons, and evidence that both humoral and cellular immune responses attenuate the infection. In measles encephalomyelitis there is little evidence that the virus invades the nervous system. Rather, measles virus infects lymphoid cells and causes abnormalities in immune regulation. Humoral immune responses are not found within the nervous system, and the cellular immune response may be inappropriately directed against host antigens. In measles encephalomyelitis, the inflammatory cells entering the nervous system may be the effector cells of autoimmune disease.
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PMID:The pathogenesis of acute viral encephalitis and postinfectious encephalomyelitis. 302 98

Using peroxidase immunohistochemistry and in situ hybridization to localize viral antigen and RNA, we studied autopsy tissues from 20 cases of acute fatal human measles (including seven patients with acute encephalomyelitis) and peripheral blood mononuclear cells from 16 patients with acute, nonfatal measles. In immunologically normal patients, virus was detected in five of nine who died five days or less after the onset of rash but in none of 11 who died later. Virus was localized to epithelial cells of lung, gut, bile duct, bladder, and skin and to lymphoid organs. Neither viral antigen nor RNA was detected in brain sections from 14 patients, including seven with acute encephalomyelitis and four with virus identified in other tissues, a finding supporting an indirect pathogenesis of post-measles encephalomyelitis. These data show that measles virus replicates in cells previously not recognized to be involved (capillary endothelium of lymph node and thymus, Hassall's corpuscles, and hepatic duct epithelium) and that invasion of the brain parenchyma during acute measles is uncommon.
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PMID:Acute measles in patients with and without neurological involvement: distribution of measles virus antigen and RNA. 304 79

Plasma IgE levels were measured in 214 samples from 182 Peruvian patients with acute measles virus infections. Plasma IgE levels were significantly elevated early in infection compared to later time points. Plasma levels of IgG from the same patients rose during the same time period, whereas levels of IgA and IgM did not change. In patients with postmeasles encephalomyelitis, IgE remained elevated longer than it did in patients either with uncomplicated measles or measles complicated by pneumonia. It is proposed that the elevation of IgE is another manifestation of the altered immunoregulatory function in patients with measles.
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PMID:Changes in plasma IgE levels during complicated and uncomplicated measles virus infections. 316 Jul 58

The intrathecal humoral immune response was analysed in patients with subacute sclerosing panencephalitis (SSPE) and Lewis rats with subacute measles virus (MV)-induced encephalomyelitis (SAME). SSPE patients as well as SAME rats revealed oligoclonal, intrathecal antibody synthesis with MV specificity. SAME rats synthesized MV-specific antibodies intracerebrally to a higher extent than SSPE patients. Although a restricted isoelectric pattern of MV-specific antibodies was detected in the cerebrospinal fluid (CSF) of SSPE patients as well as of SAME rats, the heterogeneity within clusters of immunoglobulin bands was higher in the rat specimens. Increase in the blood-brain barrier permeability for albumin was exclusively detected in SAME rats but not in SSPE patients. These data suggest that the rat model offers excellent opportunities to study the initial humoral events in MV-induced encephalitides.
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PMID:Comparative analysis of virus-specific antibodies and immunoglobulins in serum and cerebrospinal fluid of subacute measles virus-induced encephalomyelitis (SAME) in rats and subacute sclerosing panencephalitis (SSPE). 326 24

Using murine monoclonal antibodies to mark total T cells, we have found rapid migration of T cells into the CSF in progressive multiple sclerosis patients, suggesting that the ongoing inflammatory responses in the CNS may depend on the continued movement of cells from the periphery into the target organ. Cloning experiments have indicated that the T cells present in the CSF during viral and post-viral encephalomyelitis represent sequestered populations of antigen-specific cells. In more chronic disease processes, these cells may also have restricted clonality as measured by the frequency of different T-cell receptor gene rearrangements on Southern blotting. It is known that there is restricted clonality of the B-cell immunoglobulin response in the CSF compartment with inflammatory CNS diseases, and with infections the majority of these so-called oligoclonal antibodies are directed against the exciting antigen and are synthesized in the CNS. Although we believe that T cells in the CNS originate from the blood, during the course of an inflammatory response the antigen and clonally-restricted populations found in the CSF may represent either selective migration or selective accumulation in the CNS. Selective migration might occur at the endothelial barrier as these cells can express Class II MHC antigens and act as antigen-presenting cells in the CNS (McCarron et al. 1985). Selective accumulation of T cells in the CNS might occur after non-specific migration of cells into the CNS followed by proliferation and expansion of T cells that have been induced by antigens in the brain. Antigen-presenting cells that are present in situ, such as astrocytes, may also play a role in the selective expansion of T cells in the CSF (Fontana et al. 1984). Alternatively, it is possible that T cells are induced to expand in the target CNS tissue non-specifically, e.g., via the CD2 pathway. In this regard, we have observed that CSF T cells exhibit alterations in stimulation by anti-T112 + anti-T113 monoclonal antibodies. The mechanism of damage to CNS tissue by immune cells is essentially unknown. For example there are no clear links between antibodies present in the CNS and CNS damage in SSPE where high titers of anti-measles antibodies are present. Whereas we did not observe high frequencies of measles-reactive cells in the CSF of a subject with SSPE, we did observe MHC non-restricted cytotoxic T cells which expressed TCR-gamma chains rather than alpha-beta chains.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:T cells in multiple sclerosis and inflammatory central nervous system diseases. 332 24

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