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Target Concepts:
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Query: EC:2.1.1.148 (
Thy1
)
1,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Coding region and intronic mutations in the tau gene cause frontotemporal dementia and parkinsonism linked to chromosome 17. Some of these mutations lead to an overproduction of tau isoforms with four microtubule-binding repeats. Here we have expressed the longest four-repeat human brain tau isoform in transgenic mice under the control of the murine
Thy1
promoter. Transgenic mice aged 3 weeks to 25 months overexpressed human tau protein in nerve cells of brain and spinal cord. Numerous abnormal, tau-immunoreactive nerve cell bodies and dendrites were seen. In addition, large numbers of pathologically enlarged axons containing neurofilament- and tau-immunoreactive spheroids were present, especially in spinal cord. Signs of Wallerian degeneration and neurogenic muscle atrophy were observed. When motor function was tested, transgenic mice showed signs of muscle
weakness
. Taken together, these findings demonstrate that overexpression of human four-repeat tau leads to a central and peripheral axonopathy that results in nerve cell dysfunction and amyotrophy.
...
PMID:Axonopathy and amyotrophy in mice transgenic for human four-repeat tau protein. 1080 89
Mutations in the coding and intronic regions of the tau gene cause frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17). Some of these mutations lead to an overproduction of tau isoforms with four microtubule-binding repeats, followed by the development of fibrillary lesions and selective cell death. In order to analyze the development of these neurofibrillary lesions in transgenic mice, the longest four-repeat human brain tau isoform was expressed under control of two different neuron-specific promoters. In a first model, utilizing the human
Thy1
promoter, transgenic tau was hyperphosphorylated and abnormally localized to cell bodies and dendrites. In a second model, which made use of a human
Thy1
.2 expression vector, transgenic expression levels were much higher, and an additional phenotype was observed: Large numbers of pathologically enlarged axons containing neurofilament- and tau-immunoreactive spheroids were present, especially in spinal cord. Signs of Wallerian degeneration and neurogenic muscle atrophy were observed. Behaviorally, transgenic mice showed signs of muscle
weakness
. Our data show that overexpression of human four-repeat tau in itself is sufficient to lead to nerve cell dysfunction and amyotrophy. We have now extended our initial studies by introducing exonic mutations including G2t 2V and PS01L into the tau gene in order to achieve a more advanced FTDP-17 associated phenotype.
...
PMID:In vivo analysis of wild-type and FTDP-17 tau transgenic mice. 1119 41
Charcot-Marie-Tooth (CMT) disease is the most frequently encountered hereditary disease causing sensorimotor neuropathies and slowly progressive muscle
weakness
and atrophy. The P22S mutation of the NEFL gene encoding the light polypeptide neurofilament (NFL) is associated with CMT. To understand more clearly the pathogenesis of sensorimotor dysfunction in CMT, we generated transgenic mice with the NEFL(P22S) mutation under the tet-off tetracycline regulated system with involvement of the
Thy1
neuron-specific promoter. NEFL(P22S) transgenic mice exhibited extended duration of the hindlimb clasping response and gait anomalies, as well as sensorimotor deficits in stationary beam and suspended bar tests. In addition, the NEFL(P22S) mice were deficient in the reversal phase of left-right discrimination learning in a water maze. This model mimics some aspects of human CMT pathology and provides an opportunity of ameliorating CMT symptoms with experimental therapies.
...
PMID:Sensorimotor and cognitive function of a NEFL(P22S) mutant model of Charcot-Marie-Tooth disease type 2E. 2116 46
Hereditary spastic paraplegias (HSPs) are characterized by progressive spasticity and
weakness
in the lower extremities that result from length-dependent central to peripheral axonal degeneration. Mutations in the non-imprinted Prader-Willi/Angelman syndrome locus 1 (NIPA1) transmembrane protein cause an autosomal dominant form of HSP (SPG6). Here, we report that transgenic (Tg) rats expressing a human NIPA1/SPG6 mutation in neurons (
Thy1
.2-hNIPA1) show marked early onset behavioral and electrophysiologic abnormalities. Detailed morphologic analyses reveal unique histopathologic findings, including the accumulation of tubulovesicular organelles with endosomal features that start at axonal and dendritic terminals, followed by multifocal vacuolar degeneration in both the CNS and peripheral nerves. In addition, the NIPA1 mutation in the spinal cord from older Tg rats results in an increase in bone morphogenetic protein type II receptor expression, suggesting that its degradation is impaired. This
Thy1
.2-hNIPA1 Tg rat model may serve as a valuable tool for understanding endosomal trafficking in the pathogenesis of a subgroup of HSP with an abnormal interaction with bone morphogenetic protein type II receptor, as well as for developing potential therapeutic strategies for diseases with axonal degeneration and similar pathogenetic mechanisms.
...
PMID:Pathogenesis of autosomal dominant hereditary spastic paraplegia (SPG6) revealed by a rat model. 2412 79
