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Target Concepts:
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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tissue plasminogen activator (tPA) is a
serine protease
that has been shown to be involved in neuronal degeneration. Recently, elevated cerebellar tPA has been reported in a naturally occurring mutant mouse, weaver. Weaver mice suffer extensive degeneration of cerebellar granular neurons during development, leading to severe malformation of the cerebellum as well as abnormal behavior (
ataxia
). The observations that the developing weaver cerebellum displays a 10-fold increase in tPA activity over wild-type and that a serine protease inhibitor was able to rescue weaver granule cells from premature death in culture suggested that tPA might mediate the death of these mutant neurons. We tested this possibility by introducing the weaver mutation into tPA-deficient mice and comparing the weaver phenotype in the presence or absence of tPA. Analysis at 28 days after birth indicates that tPA-deficient weaver mice are indistinguishable from tPA-containing weaver mice in behavior, cerebellar anatomy, histology, and laminin expression (also reported to be increased in weaver). These results suggest that removal of tPA activity from weaver mice does not protect against neuronal degeneration in the cerebellum and, thus, tPA does not appear to mediate this form of cell death.
...
PMID:Removal of tissue plasminogen activator does not protect against neuronal degeneration in the cerebellum of the weaver mouse. 940 77
Neuronal migration is a critical phase of brain development, where defects can lead to severe
ataxia
, mental retardation, and seizures. In the developing cerebellum, granule neurons turn on the gene for tissue plasminogen activator (tPA) as they begin their migration into the cerebellar molecular layer. Granule neurons both secrete tPA, an extracellular
serine protease
that converts the proenzyme plasminogen into the active protease plasmin, and bind tPA to their cell surface. In the nervous system, tPA activity is correlated with neurite outgrowth, neuronal migration, learning, and excitotoxic death. Here we show that compared with their normal counterparts, mice lacking the tPA gene (tPA(-/-)) have greater than 2-fold more migrating granule neurons in the cerebellar molecular layer during the most active phase of granule cell migration. A real-time analysis of granule cell migration in cerebellar slices of tPA(-/-) mice shows that granule neurons are migrating 51% as fast as granule neurons in slices from wild-type mice. These findings establish a direct role for tPA in facilitating neuronal migration, and they raise the possibility that late arriving neurons may have altered synaptic interactions.
...
PMID:Neuronal migration is retarded in mice lacking the tissue plasminogen activator gene. 1057 Feb 8
Mutations in the CLN2 gene, which encodes a lysosomal
serine protease
, tripeptidyl-peptidase I (TPP I), result in an autosomal recessive neurodegenerative disease of children, classical late-infantile neuronal ceroid lipofuscinosis (cLINCL). cLINCL is inevitably fatal, and there currently exists no cure or effective treatment. In this report, we provide the characterization of the first CLN2-targeted mouse model for cLINCL. CLN2-targeted mice were fertile and apparently healthy at birth despite an absence of detectable TPP I activity. At approximately 7 weeks of age, neurological deficiencies became evident with the onset of a tremor that became progressively more severe and was eventually accompanied by
ataxia
. Lifespan of the affected mice was greatly reduced (median survival, 138 d), and extensive neuronal pathology was observed including a prominent accumulation of cytoplasmic storage material within the lysosomal-endosomal compartment, a loss of cerebellar Purkinje cells, and widespread axonal degeneration. The CLN2-targeted mouse therefore recapitulates much of the pathology and clinical features of cLINCL and represents an animal model that should provide clues to the normal cellular function of TPP I and the pathogenic processes that underlie neuronal death in its absence. In addition, the CLN2-targeted mouse also represents a valuable model for the evaluation of different therapeutic strategies.
...
PMID:A mouse model of classical late-infantile neuronal ceroid lipofuscinosis based on targeted disruption of the CLN2 gene results in a loss of tripeptidyl-peptidase I activity and progressive neurodegeneration. 1548 30
HTRA2, a
serine protease
in the intermembrane space, has important functions in mitochondrial stress signaling while its abnormal activity may contribute to the development of Parkinson's disease. Mice with a missense or null mutation of Htra2 fail to thrive, suffer striatal neuronal loss, and a parkinsonian phenotype that leads to death at 30-40 days of age. While informative, these mouse models cannot separate neural contributions from systemic effects due to the complex phenotypes of HTRA2 deficiency. Hence, we developed mice carrying a Htra2-floxed allele to query the consequences of tissue-specific HTRA2 deficiency. We found that mice with neural-specific deletion of Htra2 exhibited atrophy of the thymus and spleen, cessation to gain weight past postnatal (P) day 18, neurological symptoms including
ataxia
and complete penetrance of premature death by P40. Histologically, increased apoptosis was detected in the cerebellum, and to a lesser degree in the striatum and the entorhinal cortex, from P25. Even earlier at P20, mitochondria in the cerebella already exhibited abnormal morphology, including swelling, vesiculation, and fragmentation of the cristae. Furthermore, the onset of these structural anomalies was accompanied by defective processing of OPA1, a key molecule for mitochondrial fusion and cristae remodeling, leading to depletion of the L-isoform. Together, these findings suggest that HTRA2 is essential for maintenance of the mitochondrial integrity in neurons. Without functional HTRA2, a lifespan as short as 40 days accumulates a large quantity of dysfunctional mitochondria that contributes to the demise of mutant mice.
...
PMID:Neural-specific deletion of Htra2 causes cerebellar neurodegeneration and defective processing of mitochondrial OPA1. 2553 4
