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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Interactions between neurofilament side arms may modulate axon caliber. To investigate this hypothesis, we derived transgenic mice expressing a fusion protein in which the carboxyl terminus of the high molecular weight neurofilament protein (
NFH
) was replaced by
beta-galactosidase
. The transgene, regulated by
NFH
sequences, was expressed in projection neurons. However, the fusion protein remained in perikarya precipitating large filamentous aggregates. Axons were not invested with neurofilaments and developed only small calibers. Perikaryal aggregates, with similar structural features, are associated with neurodegenerative diseases, but these mice showed few ill effects and their neurons rarely degenerated. We conclude that an organized neurofilament cytoskeleton is required by axons to achieve large calibers but is not essential for neuronal function or extended survival.
...
PMID:Neurofilament-deficient axons and perikaryal aggregates in viable transgenic mice expressing a neurofilament-beta-galactosidase fusion protein. 811 Apr 65
Transgenic (NFHLacZ) mice expressing a fusion protein composed of a truncated high-molecular-weight mouse neurofilament (NF) protein (
NFH
) fused to
beta-galactosidase
(LacZ) develop inclusions in neurons throughout the CNS. These inclusions persist from birth to advanced age and contain massive filamentous aggregates including all three endogenous NF proteins and the NFHLacZ fusion protein. Further, the levels of endogenous NF proteins are selectively reduced in NFHLacZ mice. Because these inclusions resemble NF-rich Lewy bodies (LBs) in Parkinson's disease and LB dementia, we asked whether these lesions compromised the viability of affected neurons during aging. We studied hippocampal CA1 neurons, nearly all of which harbored inclusions (type I) devoid of cellular organelles, and cerebellar Purkinje cells, nearly all of which accumulated inclusions (type II) containing numerous entrapped organelles. Purkinje cells with type II inclusions began to degenerate in the NFHLacZ mice at approximately 1 year of age, and most were eliminated by 18 months of age. In contrast, there was no significant loss of type I inclusion-bearing CA1 neurons with age. These data suggest that the sequestration of cellular organelles in type II inclusions may isolate and impair the function of these organelles, thereby rendering Purkinje cells selectively vulnerable to degeneration with age as in neurodegenerative diseases of the elderly characterized by accumulation of LBs.
...
PMID:Selective degeneration fo Purkinje cells with Lewy body-like inclusions in aged NFHLACZ transgenic mice. 899 61
The authors evaluated the neurobehavioral and neuropathologic sequelae after traumatic brain injury (TBI) in transgenic (TG) mice expressing truncated high molecular weight neurofilament (NF) protein fused to
beta-galactosidase
(
NFH
-LacZ), which develop Lewy body-like NF-rich inclusions throughout the CNS. TG mice and their wild-type (WT) littermates were subjected to controlled cortical impact brain injury (TG, n = 19; WT, n = 17) or served as uninjured controls (TG, n = 11; WT, n = 11). During a 3-week period, mice were evaluated with an array of neuromotor function tests including neuroscore, beam balance, and both fast and slow acceleration rotarod. Brain-injured WT and TG mice showed significant motor dysfunction until 15 days and 21 days post-injury, respectively (P<.025). Compared with brain-injured WT mice, brain-injured TG mice had significantly greater motor dysfunction as assessed by neuroscore (P<.01) up to and including 15 days post-injury. Similarly, brain-injured TG mice performed significantly worse than brain-injured WT mice on slow acceleration rotarod at 2, 8, and 15 days post-injury (P<.05), and beam balance over 2 weeks post-injury (P<.01). Histopathologic analysis showed significantly greater tissue loss in the injured hemisphere in TG mice at 4 weeks post-injury (P<.01). Together these data show that
NFH
-LacZ TG mice are more behaviorally and histologically vulnerable to TBI than WT mice, suggesting that the presence of NF-rich inclusions may exacerbate neuromotor dysfunction and cell death after TBI.
...
PMID:Increased vulnerability of NFH-LacZ transgenic mouse to traumatic brain injury-induced behavioral deficits and cortical damage. 1041 31
Several neurodegenerative disorders are characterized by filamentous inclusions in neurons that selectively degenerate. The role these inclusions play in neuron degeneration is unclear, but this issue can be investigated experimentally in relevant animal models. The
NFH
/LacZ transgenic (TG) mice overexpress the high-molecular-weight neurofilament (NF) subunit (
NFH
) fused to
beta-galactosidase
, and these hybrid proteins aggregate into NF-rich, filamentous neuronal cytoplasmic inclusions (NCIs) that have been implicated in the progressive, age-dependent degeneration in subsets of affected neurons. Thus, these TG mice recapitulate some of the key pathology of neurodegenerative disorders with intraneuronal inclusions. To determine if the NCIs compromise neuron survival following traumatic brain injury (TBI), 3- to 6-month old TG and wild-type (WT) mice were subjected to TBI or sham injury. At 2 weeks post-TBI, the TG group showed increased TUNEL staining and activated caspase-3 immunoreactivity in cells of cerebral cortex, adjacent white matter, and hippocampus underlying the injury site, relative to control mice, but this labeling decreased at 4 weeks and was minimal thereafter. Compared to control mice, by 8 weeks postinjury, the TG mice showed a marked decrease in neuron density and increased gliosis in the hippocampal dentate gyrus and CA3 region as well as in the lateral thalamus, while the few remaining CA3 neurons exhibited cytoskeletal alterations, decreased synaptic protein immunoreactivity, and dissolution of NCIs. The more profound long-term neurodegenerative sequelae of TBI in the
NFH
/LacZ mice compared to WT mice suggest that the presence of intraneuronal inclusions may impair the recovery and long-term viability of injured neurons.
...
PMID:Neurofilament-rich intraneuronal inclusions exacerbate neurodegenerative sequelae of brain trauma in NFH/LacZ transgenic mice. 1096 87
With dendritic neurofilaments (NFs) and NF reassembly experiments, the phosphorylation of
NF-H
was found related to development of crossbridges, resulting in alignment of core filaments. When treated with aluminum chloride, rabbits died acutely with tetanic spasm in which NFs were accumulated in neuronal perikarya and proximal axons. Compared with axonal NFs, the NFs accumulated in the perikarya were composed of less-developed cross-bridges and more irregularly aligned core filaments, and their
NF-H
, although it became phosphorylated, was less phosphorylated. Transgenic mice expressing
NF-H
-
beta-galactosidase
protein also showed NF accumulation in the perikarya, which was similar in organization and
NF-H
phosphorylation to that in aluminum-treated rabbits, but NFs were almost absent from the axonal compartment in these mice that did not show any overt phenotype. Jimpy mutant mice, with dysmyelinated axons and a short lifespan, showed a significant increase in NF density in the axonal compartment.
NF-H
and its mRNA were drastically enhanced in expression in these mice, whereas enhancement in expression of NF-L and its mRNA was slight. Most increased
NF-H
, and probably NF-M also, in the axons was of the nonphosphrylated form. NFs that increased in the axons were also constructed of irregularly organized core filaments linked with fewer crossbridges. Another dysmyelinating mutant type of mice, shiverer mice, also showed similar morphological, immunocytochemical, and behavioral characteristics. Taken together, axonal NF accumulation rather than that in the perikarya must be toxic for neurons to provoke axonal degeneration, possibly resulting in reduction of lifespan. In other transgenic mice, however, the elimination of NFs from the axonal compartment seems to make the neuron vulnerable. Nevertheless, because overexpression of
NF-H
displayed severe neurological disorder while elimination of this protein appeared to be more resistant to some neurotoxic agent,
NF-H
appears to function as an exacerbation factor when it exists in the neurologically disordered condition. However, as
NF-H
is provided with a unique carboxy-terminal tail domain that is highly phosphorylated in the axon and because disruption of its gene affected the survival of axons, which did not develop normal axonal caliber,
NF-H
should play an important role in healthy neurons.
...
PMID:Neurofilaments in health and disease. 1181 Apr 76
NFH
-LacZ transgenic mice are characterized by expression of a non-endogenous fusion protein between a truncated form of mouse
NFH
(neurofilament of heavy molecular weight) and the complete Escherichia coli
beta-galactosidase
protein. These transgenic mice were compared to their respective controls on two background strains (C3H and FVB) in several sensorimotor tests.
NFH
-LacZ mice were deficient in tests requiring balance and equilibrium in a manner generally independent of genetic background. In particular,
NFH
-LacZ mice fell more quickly than controls from two stationary beams and had fewer rears in an open-field. The transgenic mice were also impaired during the initial trials of sensorimotor learning on the rotorod. We conclude that despite the absence of overt signs of sensorimotor weakness in their home cage, the disruption of the
NFH
gene, causing neurofilament accumulations in the cell body and diminished axonal calibers of motoneurons, is sufficient to cause motor deficits that resemble the early stages of amyotrophic lateral sclerosis.
...
PMID:Sensorimotor functions in transgenic mice expressing the neurofilament/heavy-LacZ fusion protein on two genetic backgrounds. 1204 62
NFH
-LacZ transgenic mice express a fusion protein between a truncated form of the endogenous neurofilament of heavy molecular weight and the complete E. coli
beta-galactosidase
.
NFH
-LacZ transgenic mice could be distinguished from controls in the SHIRPA neurological battery by the appearance of action tremor and hindlimb clasping and a lower body weight. Despite normal exploratory activity and spatial learning,
NFH
-LacZ transgenic mice were deficient in stationary beam, coat-hanger, and rotorod tests of motor coordination. These results are concordant with neuropathological findings in spinal motoneurons and the cerebellum and indicate that despite the absence of paralysis, these transgenic mice may serve as an experimental model of the early stage of amyotrophic lateral sclerosis.
...
PMID:Characterization of NFH-LacZ transgenic mice with the SHIRPA primary screening battery and tests of motor coordination, exploratory activity, and spatial learning. 1276 64
