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Target Concepts:
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Query: UMLS:C0235394 (
wasting
)
8,040
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ts1 mutant of Moloney murine leukemia virus TB (MoMuLV-TB) causes a degenerative neurologic and immunologic disease in mice characterized by development of spongiform
encephalomyelopathy
that results in hind-limb paralysis, marked thymic atrophy associated with immunodeficiency, and generalized body
wasting
. T cells, particularly CD4+ helper T cells, play a key role in the pathogenesis of the disease induced by ts1. Therefore, ts1 is unique among the described murine retroviruses in its ability to afflict both the central nervous system (CNS) and the T-cell compartment of the immune system in the same host. This particular ability to cause degenerative diseases involving both the CNS and immune system is shared by the lentiviruses responsible for development of the acquired immunodeficiency syndromes of humans and macaques. Our goal has been to elucidate the specific cellular and molecular mechanisms that underlie this neuro- and immunopathogenicity of ts1. We have previously reported that the primary neuropathogenic determinant of ts1 maps to a single amino acid substitution, Val-25-Ile, in the precursor envelope protein gPr80env. Further, at the restrictive temperature, the Val-25-Ile substitution did not prevent oligomerization of the gPr80env proteins; however, the structure of the oligomer was incompetent for transport from the ER to the Golgi. These findings suggest that the cytopathic effect of ts1 in neural cells might be due to accumulation of the gPr80env oligomers in the ER. Since glial cells are targets of ts1 infection in vivo, primary astrocytic cultures were established and the cytopathic effect of ts1 and MoMuLV-TB on these cells assessed. Both viruses replicate well in astrocytes and their replication is cytopathic, albeit to different degrees. The ts1 mutant appears to produce greater cell killing than the wild-type virus. Furthermore, it was found that the rate of processing of gPr80env of ts1 in astrocytes is slower than that of MoMuLV-TB. Therefore, the inefficient transport and processing of gPr80env of ts1 appears to correlate with its cytopathic effect in these cells. Electron microscopic studies of the ts1-infected astrocytes revealed large numbers of aberrant particles in the ER. The in vitro cytopathic effect of ts1 on astrocytes may reflect what happens in vivo. An indirect mechanism of neuronal-cell killing by ts1 is proposed.
...
PMID:Murine leukemia virus induced central nervous system diseases. 160 15
The ts1 mutant of Moloney murine leukemia virus TB causes degenerative neurologic and immunologic disease in mice, characterized by development of spongiform
encephalomyelopathy
resulting in hindlimb paralysis, marked thymic atrophy associated with immunodeficiency, and generalized body
wasting
. To investigate the pathogenesis of the thymic atrophy caused by ts1, we constructed a chimeric virus, ts1-Cas(NS), in which a major portion of the U3 region of the long terminal repeat of ts1, a T-lymphotropic and neurovirulent murine leukemia virus, was replaced by the corresponding U3 region of Cas-Br-E, a B-lymphotropic and neurovirulent murine leukemia virus. In FVB/N mice, ts1-Cas(NS) induced paralytic and
wasting
disease with incidence, severity, and latency similar to that induced by ts1, but it failed to cause thymic atrophy as severe as that observed in ts1-infected mice. Furthermore, thymocytes cultured from ts1-Cas(NS)-infected mice died at a much slower rate than those of ts1-infected mice. The U3 substitution in ts1-Cas(NS) specifically diminished the ability of the virus to replicate in the thymus, whereas viral replication in the spinal cord was not significantly affected; thus, neurovirulence was not changed. The correlation of reduced thymic atrophy with decreased thymic viral titers and the decreased ability of ts1-Cas(NS) to cause thymocyte death in mice suggest strongly that the marked thymic atrophy in ts1-infected mice is not an indirect effect occurring secondary to neurodegenerative and
wasting
disease but is a direct cytopathic effect of high-level viral replication in the thymus.
...
PMID:Alteration from T- to B-cell tropism reduces thymic atrophy and cytocidal effects in thymocytes but not neurovirulence induced by ts1, a mutant of Moloney murine leukemia virus TB. 192 61
A 62 year old Irish woman with an eight year history of probable coeliac disease developed brain stem signs, unilateral facial numbness and weakness,
wasting
and anaesthesia in both lower limbs. Over the next two years, a progressive deterioration in neurological function and in intestinal absorption, and the development of anaemia led to a suspicion of malignancy. Bone marrow biopsy revealed malignant histiocytosis. Treatment with cytotoxic drugs led to a transient, marked improvement in intestinal structure and function, and in power of the lower limbs. Relapse was associated with bone marrow failure, resulting in overwhelming infection. Post mortem examination confirmed the presence of an unusual demyelinating
encephalomyelopathy
affecting the brain stem and the posterior columns of the spinal cord.
...
PMID:Malignant histiocytosis and encephalomyeloradiculopathy complicating coeliac disease. 684 Jun 19
