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Disease
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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: UMLS:C0014070 (
encephalomyelitis
)
13,017
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Central nervous system (CNS) tissues from 192 cats with neurological signs were examined histologically, and tissues from 173 of them were later examined immunohistochemically as part of a survey to determine the prevalence of feline spongiform encephalopathy (FSE). One of the cats was from Norway and the others were from Great Britain. The most commonly recorded clinical signs were ataxia, behavioural changes and epilepsy, but none of the cats had histopathological evidence of FSE. The most common organic CNS lesions were non-suppurative
encephalomyelitis
in 28 per cent, neoplasia in 15 per cent and a heterogeneous group of degenerative encephalopathies in 9 per cent of the cats. A range of minor histological lesions of uncertain significance was also observed. No histological lesions were observed in the tissues of 63 (33 per cent) of the cats. Disease-specific prion protein (
PrP
(Sc)) was observed in only one of the 173 cats examined by immunohistochemistry.
...
PMID:Neuropathological findings in cats with clinically suspect but histologically unconfirmed feline spongiform encephalopathy. 1582 43
During the years or decades of prion disease incubation, at-risk individuals are certain to encounter diverse pathological insults, such as viral and bacterial infections, autoimmune diseases, or inflammatory processes. Whether prion disease incubation time and clinical signs or otherwise the pathology of intercurrent diseases can be affected by the coinfection process is unknown. To investigate this possibility, mice infected with the scrapie agent at both high and low titers were subsequently induced for experimental autoimmune
encephalomyelitis
, an immune system-mediated model of central nervous system (CNS) inflammation. We show here that co-induced mice died from a progressive neurological disease long before control mice succumbed to classical scrapie. To investigate the mechanism of the co-induced syndrome, we evaluated biochemical and pathological markers of both diseases. Brain and spleen
PrP
(Sc) levels in the dying co-induced mice were comparable to those observed in asymptomatic scrapie-infected animals, suggesting that co-induced disease is not an accelerated form of scrapie. In contrast, inflammatory markers, such as demyelination, immune cell infiltrates, and gliosis, were markedly increased in co-induced mouse spinal cords. Activated astrocytes were especially elevated in the medulla oblongata. Furthermore,
PrP
(sc) depositions were found in demyelinated white matter areas in co-induced mouse spinal cords, suggesting the presence of activated infected immune cells that infiltrate into the CNS to facilitate the process of prion neuroinvasion. We hypothesize that inflammatory processes affecting the CNS may have severe clinical implications in subjects incubating prion diseases.
...
PMID:Fatal neurological disease in scrapie-infected mice induced for experimental autoimmune encephalomyelitis. 1762 90
Although the physiological roles of the cellular prion protein (
PrP
C) remain to be fully elucidated,
PrP
C has been proposed to represent a potential regulator of cellular immunity. To test this hypothesis, we evaluated the consequences of
PrP
C deficiency on the course of experimental autoimmune
encephalomyelitis
induced by immunization with myelin oligodendrocyte glycoprotein peptide. Consistent with augmented proliferative responses and increased cytokine gene expression by myelin oligodendrocyte glycoprotein-primed Prnp-/- T cells,
PrP
C-deficient mice demonstrated more aggressive disease onset and a lack of clinical improvement during the chronic phase of experimental autoimmune
encephalomyelitis
. Acutely, Prnp-/- spinal cord, cerebellum, and forebrain exhibited higher levels of leukocytic infiltrates and pro-inflammatory cytokine gene expression, as well as increased spinal cord myelin basic protein and axonal loss. During the chronic phase, a remarkable persistence of leukocytic infiltrates was present in the forebrain and cerebellum, accompanied by an increase in interferon-gamma and interleukin-17 transcripts. Attenuation of T cell-dependent neuroinflammation thus represents a potential novel function of
PrP
C.
...
PMID:Absence of the cellular prion protein exacerbates and prolongs neuroinflammation in experimental autoimmune encephalomyelitis. 1881 52
The cellular prion protein (
PrP
(C)) is widely expressed in neural and non-neural tissues, but its function is unknown. Elucidation of the part played by
PrP
(C) in adaptive immunity has been a particular conundrum: increased expression of cell surface
PrP
(C) has been documented during T-cell activation, yet the functional significance of this activation remains unclear, with conflicting data on the effects of Prnp gene knockout on various parameters of T-cell immunity. We show here that Prnp mRNA is highly inducible within 8-24 h of T-cell activation, with surface protein levels rising from 24 h. When measured in parallel with CD69 and CD25,
PrP
(C) is a late activation antigen. Consistent with its up-regulation being a late activation event,
PrP
deletion did not alter T-cell-antigen presenting cell conjugate formation. Most important, activated
PrP
(0/0) T cells demonstrated much reduced induction of several T helper (Th) 1, Th2, and Th17 cytokines, whereas others, such as TNF-alpha and IL-9, were unaffected. These changes were investigated in the context of an autoimmune model and a bacterial challenge model. In experimental autoimmune
encephalomyelitis
,
PrP
-knockout mice showed enhanced disease in the face of reduced IL-17 responses. In a streptococcal sepsis model, this constrained cytokine program was associated with poorer local control of infection, although with reduced bacteremia. The findings indicate that
PrP
(C) is a potentially important molecule influencing T-cell activation and effector function.
...
PMID:A role of cellular prion protein in programming T-cell cytokine responses in disease. 1920 74
Prion diseases, which can manifest by transmissible, sporadic or genetic etiologies, share several common features, such as a fatal neurodegenerative outcome and the aberrant accumulation of proteinase K (PK)-resistant
PrP
forms in the CNS. In infectious prion diseases, such as scrapie in mice, prions first replicate in immune organs, then invade the CNS via ascending peripheral tracts, finally causing death. Accelerated neuroinvasion and death occurs when activated prion-infected immune cells infiltrate into the CNS, as is the case for scrapie-infected mice induced for experimental autoimmune
encephalomyelitis
(EAE), a CNS inflammatory insult. To establish whether the immune system plays such a central role also in genetic prion diseases, we induced EAE in TgMHu2ME199K mice, a line mimicking for late onset genetic Creutzfeldt Jacob disease (gCJD), a human prion disease. We show here that EAE induction of TgMHu2ME199K mice neither accelerated nor aggravated prion disease manifestation. Concomitantly, we present evidence that PK-resistant
PrP
forms were absent from CNS immune infiltrates, and most surprisingly also from lymph nodes and spleens of TgMHu2ME199K mice at all ages and stages of disease. These results imply that the mechanism of genetic prion disease differs widely from that of the infectious presentation, and that the conversion of mutant PrPs into PK resistant forms occurs mostly/only in the CNS. If the absence of pathogenic
PrP
forms form immune organs is also true for gCJD patients, it may suggest their blood is devoid of prion infectivity.
...
PMID:Genetic prion disease: no role for the immune system in disease pathogenesis? 2466 14
Deletion of cellular isoform of prion protein (
PrP
(C)) increases neuronal predisposition to damage by modulating apoptosis and the negative consequences of oxidative stress. In vivo studies have demonstrated that
PrP
(C)-deficient mice are more prone to seizure, depression, and induction of epilepsy and experience extensive cerebral damage following ischemic challenge or viral infection. In addition, adenovirus-mediated overexpression of
PrP
(C) reduces brain damage in rat models of cerebral ischemia. In experimental autoimmune
encephalomyelitis
,
PrP
(C)-deficient mice reportedly have a more aggressive disease onset and less clinical improvement during the chronic phase than wild-type mice mice. In mice given oral dextran sulfate,
PrP
(C) has a potential protective role against inflammatory bowel disease.
PrP
(C)-deficient mice demonstrate significantly greater increases in blood glucose concentrations after intraperitoneal injection of glucose than wild-type mice. Further in vivo challenges to
PrP
gene-deficient models and conditional knockout models with siRNA and in vivo administration of
PrP
-ligating agents may assist in refining knowledge of the lymphoid function of
PrP
(C) and predicting the effects of anti-
PrP
treatment on the immune system. Together, these findings indicate that
PrP
(C) may have multiple neuroprotective and anti-inflammatory roles, which explains why this protein is so widely expressed.
...
PMID:Review of studies that have used knockout mice to assess normal function of prion protein under immunological or pathophysiological stress. 2486 63
This article reviews the wealth of papers dealing with the different effects of epidermal growth factor (EGF) on oligodendrocytes, astrocytes, neurons, and neural stem cells (NSCs). EGF induces the in vitro and in vivo proliferation of NSCs, their migration, and their differentiation towards the neuroglial cell line. It interacts with extracellular matrix components. NSCs are distributed in different CNS areas, serve as a reservoir of multipotent cells, and may be increased during CNS demyelinating diseases. EGF has pleiotropic differentiative and proliferative effects on the main CNS cell types, particularly oligodendrocytes and their precursors, and astrocytes. EGF mediates the in vivo myelinotrophic effect of cobalamin on the CNS, and modulates the synthesis and levels of CNS normal prions (
PrP
C
s), both of which are indispensable for myelinogenesis and myelin maintenance. EGF levels are significantly lower in the cerebrospinal fluid and spinal cord of patients with multiple sclerosis (MS), which probably explains remyelination failure, also because of the EGF marginal role in immunology. When repeatedly administered, EGF protects mouse spinal cord from demyelination in various experimental models of autoimmune
encephalomyelitis
. It would be worth further investigating the role of EGF in the pathogenesis of MS because of its multifarious effects.
...
PMID:Epidermal Growth Factor in the CNS: A Beguiling Journey from Integrated Cell Biology to Multiple Sclerosis. An Extensive Translational Overview. 3315 15
