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Symptom
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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.7.11.26 (
GSK
)
6,788
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Protein tau filaments in brain of patients suffering from Alzheimer's disease, frontotemporal dementia, and other tauopathies consist of
protein tau
that is hyperphosphorylated. The responsible kinases operating in vivo in neurons still need to be identified. Here we demonstrate that
glycogen synthase kinase-3beta
(GSK-3beta) is an effective kinase for
protein tau
in cerebral neurons in vivo in adult
GSK
-3beta and
GSK
-3beta x human tau40 transgenic mice. Phosphorylated
protein tau
migrates slower during electrophoretic separation and is revealed by phosphorylation-dependent anti-tau antibodies in Western blot analysis. In addition, its capacity to bind to re-assembled paclitaxel (Taxol((R)))-stabilized microtubules is reduced, compared with
protein tau
isolated from mice not overexpressing
GSK
-3beta. Co-expression of
GSK
-3beta reduces the number of axonal dilations and alleviates the motoric impairment that was typical for single htau40 transgenic animals (Spittaels, K., Van den Haute, C., Van Dorpe, J., Bruynseels, K., Vandezande, K., Laenen, I., Geerts, H., Mercken, M., Sciot, R., Van Lommel, A., Loos, R., and Van Leuven, F. (1999) Am. J. Pathol. 155, 2153-2165). Although more hyperphosphorylated
protein tau
is available, neither an increase in insoluble
protein tau
aggregates nor the presence of paired helical filaments or tangles was observed. These findings could have therapeutic implications in the field of neurodegeneration, as discussed.
...
PMID:Glycogen synthase kinase-3beta phosphorylates protein tau and rescues the axonopathy in the central nervous system of human four-repeat tau transgenic mice. 1100 82
The potential contribution of cyclin-dependent protein kinase 5 (cdk5) to hyperphosphorylate
protein tau
, as claimed in Alzheimer's disease, was investigated in vivo. We generated single, double, and triple transgenic mice that coexpress human cdk5 and its activator p35 as well as human
protein tau
in cerebral neurons. Whereas expression and increased cdk5-kinase activity was obtained, as measured in vitro and demonstrated in vivo, neither murine nor human
protein tau
was appreciably phosphorylated in the brain of double and triple transgenic mice. These mice behaved and reproduced normally. Silver impregnation and immunohistochemistry of brain sections demonstrated that neurofilament proteins became redistributed in apical dendrites of cortical neurons. This suggested a cytoskeletal effect, but no other relevant brain pathology became apparent. These observations indicate that cdk5/p35 is not a major
protein tau kinase
and that cdk5/p35 did not cause neurodegeneration in mouse brain, as opposed to cdk5/p25.
...
PMID:Coexpression of human cdk5 and its activator p35 with human protein tau in neurons in brain of triple transgenic mice. 1116 38
One of the landmarks of Alzheimer's disease are neurofibrillary tangles (NFT) in the brain. NFT mainly consist of a hyperphosphorylated form of the
protein tau
, which is responsible for stabilisation of the neuronal cytoskeleton by microtubule binding and is unable to function properly in its hyperphosphorylated form. Glycogen synthase kinase-3beta (GSK3beta) is able to phosphorylate tau in a cellular context which could play a role in the formation of these NFT. In order to learn more about the effect of
GSK
-3beta in the brain, two-dimensional electrophoresis patterns of cerebrum extracts of GSK3beta[S9A] transgenic mice and wild type mice were compared quantitatively. Fifty-one spots were identified as being different in integrated intensity by at least a factor 1.5. The spots were subsequently identified by mass spectrometry. Identification of several proteins linked to signal transduction pathways in which GSK3beta plays a role, indicates that our population of identified proteins includes some down stream proteins of GSK3beta. This study may contribute to filling the gaps between GSK3beta, its substrates and finally the phosphorylation of tau.
...
PMID:Differential expression of brain proteins in glycogen synthase kinase-3 transgenic mice: a proteomics point of view. 1178 96
Hyperphosphorylation and aggregation of
protein tau
are typical for neurodegenerative tauopathies, including Alzheimer's disease (AD). We demonstrate here that human tau expressed in yeast acquired pathological phosphoepitopes, assumed a pathological conformation, and formed aggregates. These processes were modulated by yeast kinases Mds1 and Pho85, orthologues of
GSK
-3beta and cdk5, respectively. Surprisingly, inactivation of Pho85 increased phosphorylation of tau-4R, concomitant with increased conformational change defined by antibody MC1 and a 40-fold increase in aggregation. Soluble
protein tau
, purified from yeast lacking PHO85, spontaneously and rapidly formed tau filaments in vitro. Further fractionation of tau by anion-exchange chromatography yielded a hyperphosphorylated monomeric subfraction, termed hP-tau/MC1, with slow electrophoretic mobility and enriched with all major epitopes, including MC1. Isolated hP-tau/MC1 vastly accelerated in vitro aggregation of wild-type tau-4R, demonstrating its functional capacity to initiate aggregation, as well as its structural stability. Combined, this novel yeast model recapitulates hyperphosphorylation, conformation, and aggregation of
protein tau
, provides insight in molecular changes crucial in tauopathies, offers a source for isolation of modified
protein tau
, and has potential for identification of modulating compounds and genes.
...
PMID:Identification and isolation of a hyperphosphorylated, conformationally changed intermediate of human protein tau expressed in yeast. 1611 83
Abnormal deposition of
protein tau
takes place in the brain of patients with several neurodegenerative diseases. Few of these patients present frontotemporal dementia with parkinsonism and amyotrophy (FTDPA-17), an autosomal dominant tauopathy related to mutations of the gene that codes for
protein tau
, localized in chromosome 17. The great majority of patients with tauopathies such as Alzheimer's disease, sporadic frontotemporal dementia or progressive supranuclear palsy do not show a Mendelian pattern of inheritance. We have occasionally seen tauopathies in patients with parkin mutations and, therefore, hypothesized that the
protein tau
interacts with parkin. We have tested that hypothesis in mice with combined genetic modifications of tau (over-expression of human tau with three mutations known to produce FTDPA-17) and parkin (deleted) proteins. Homozygote parkin null or over-expressing mutated-human tau mice have subtle behavioral and molecular abnormalities but do not express a clinical phenotype of neurodegenerative disease. Mice with combined homozygous mutations of these two genes show progressively abnormal walking already noticeable at 3 months of age, loss of dopamine and dopamine markers in striatum, nuclear tau immunoreactive deposits in motor neurons of the spinal cord, abnormal expression of glial markers and enhanced levels of pro-apoptotic proteins; findings that were absent or less pronounced in homozygote animals with deletions of parkin or over-expression of tau. The double transgenic mice do not express normal mechanisms of adaptation to stress such as increased levels of GSH and Hsp-70. In addition, they have reduced levels of CHIP-Hsc70, a complex known to attenuate aggregation of tau and to enhance ubiquitination of phosphorylated tau. We have found high levels of phosphorylated tau in parkin-/-+tau(VLW) mice and a relative decrease of the inactivated pSer9 to total
GSK
-3 levels. Our data reveal that there are interactions between tau and parkin that could be relevant for the pathogenesis and treatment of tauopathies. Similarly, we hope that the double transgenic parkin-/-+tau(VLW) mice could be useful for testing of compounds with putative therapeutic value in human tauopathies.
...
PMID:Suppression of Parkin enhances nigrostriatal and motor neuron lesion in mice over-expressing human-mutated tau protein. 1669 79
Glial cell line-derived neurotrophic factor (GDNF) promotes the growth and survival of enteric neurons, but the mechanisms involved are poorly understood. GDNF is known to promote the survival of enteric neurons through activation of the PI3-Kinase/Akt signaling pathway. We investigated the role of
glycogen synthase kinase-3beta
(GSK-3beta) in enteric neuronal survival, and the ability of GDNF to regulate the activity of
GSK
-3beta using primary rat embryonic enteric neurons. GDNF, through activation of the PI3-kinase pathway enhanced the phosphorylation of
GSK
-3beta at its N-terminal serine-9 residue, and promoted the association of
GSK
-3beta with
14-3-3
. Transfection of a constitutively active S9A-
GSK
-3beta mutant prevented the survival effects of GDNF, whereas a dominant negative
GSK
-3beta construct prevented GDNF withdrawal-induced cell death. Increased
GSK
-3beta activity was associated with an increase in tau phosphorylation. Thus, GDNF promotes enteric neuronal survival by modulating
GSK
-3beta and its downstream target tau. Inhibitors of
GSK
-3beta activity may have therapeutic potential in improving enteric neuronal survival.
...
PMID:Glial cell line-derived neurotrophic factor-mediated enteric neuronal survival involves glycogen synthase kinase-3beta phosphorylation and coupling with 14-3-3. 1699 18
Microtubule associated
protein tau
, which is expressed in six alternatively spliced molecular isoforms in human brain, is abnormally hyperphosphorylated in Alzheimer disease and related tauopathies. Here, we show (i) that
GSK
-3alpha and neither
GSK
-3beta nor cdk5 can phosphorylate tau at Ser262 and phosphorylation at Ser235 by cdk5 primes phosphorylation at Thr231 by
GSK
-3alpha/beta; (ii) that tau isoforms with two N-terminal inserts (tau4L, tau3L) are phosphorylated by cdk5 plus
GSK
-3 at Thr231 markedly more than isoforms lacking these inserts (tau4, tau3); and (iii) that Thr231 is phosphorylated approximately 50% more in free tau than in microtubule-bound tau, and the phosphorylation at this site results in the dissociation of tau from microtubules. These findings suggest that the phosphorylation of tau at Thr231 and Ser262 by cdk5 plus
GSK
-3, which inhibits its normal biological activity, is regulated both by its amino terminal inserts and its physical state.
...
PMID:Regulation of phosphorylation of tau by cyclin-dependent kinase 5 and glycogen synthase kinase-3 at substrate level. 1704 92
Microtubule associated
protein tau
is abnormally hyperphosphorylated in Alzheimer disease (AD) brain. To investigate the role of protein kinases involved in this lesion, metabolically active slices made from brains of adult rats were treated with or without various specific kinase activators in oxygenated artificial cerebrospinal fluid. The basal kinase activities of protein kinase-A (PKA), CaM Kinase II and
GSK
-3 were stimulated more than two-fold by isoproterenol, bradykinin and wortmannin, respectively. We found that cdk5 activity was co-stimulated with PKA by isoproterenol. Sequential activation of PKA (+cdk5), CaM Kinase II and
GSK
-3 produced hyperphosphorylation of tau at Ser-198/Ser-199/Ser-202, Ser-214, Thr-231/Ser-235, Ser-262, Ser-396/Ser-404 and Ser-422 sites. Like AD P-tau, the P-tau from brain slices bound to normal tau and its binding to tubulin was inhibited. These studies suggest that PKA, cdk5, CaM Kinase II and
GSK
-3 are involved in the regulation of phosphorylation of tau and that AD-type phosphorylation of tau is probably a product of the synergistic action of two or more of these kinases.
...
PMID:Regulation of phosphorylation of tau by protein kinases in rat brain. 1712 Jan 62
The function of presenilin1 (PS1) in intra-membrane proteolysis is undisputed, as is its role in neurodegeneration in FAD, in contrast to its exact function in normal conditions. In this study, we analyzed synaptic plasticity and its underlying mechanisms biochemically in brain of mice with a neuron-specific deficiency in PS1 (PS1(n-/-)) and compared them to mice that expressed human mutant PS1[A246E] or wild-type PS1. PS1(n-/-) mice displayed a subtle impairment in Schaffer collateral hippocampal long-term potentiation (LTP) as opposed to normal LTP in wild-type PS1 mice, and a facilitated LTP in mutant PS1[A246E] mice. This finding correlated with, respectively, increased and reduced NMDA receptor responses in PS1[A246E] mice and PS1(n-/-) mice in hippocampal slices. Postsynaptically, levels of NR1/NR2B NMDA-receptor subunits and activated alpha-CaMKII were reduced in PS1(n-/-) mice, while increased in PS1[A246E] mice. In addition, PS1(n-/-) mice, displayed reduced paired pulse facilitation, increased synaptic fatigue and lower number of total and docked synaptic vesicles, implying a presynaptic function for wild-type presenilin1, unaffected by the mutation in PS1[A246E] mice. In contrast to the deficiency in PS1, mutant PS1 activated
GSK
-3beta by decreasing phosphorylation on Ser-9, which correlated with increased phosphorylation of
protein tau
at Ser-396-Ser-404 (PHF1/AD2 epitope). The synaptic functions of PS1, exerted on presynaptic vesicles and on postsynaptic NMDA-receptor activity, were concluded to be independent of alterations in
GSK
-3beta activity and phosphorylation of
protein tau
.
...
PMID:Modulation of synaptic plasticity and Tau phosphorylation by wild-type and mutant presenilin1. 1722 48
beta-Amyloid peptide produces apoptosis in neurons at micromolar concentrations, but the mechanism by which beta-amyloid exerts its toxic effect is unknown. The normal biological function of beta-amyloid is also unknown. We used phage display, co-precipitation, and mass spectrometry to examine the protein-protein interactions of beta-amyloid in normal rabbit brain in order to identify the biochemical receptors for beta-amyloid. beta-Amyloid was found to bind primarily to proteins involved in low density lipoprotein and cholesterol transport and metabolism, including sortilin, endoplasmic reticulum-Golgi intermediate compartment 2 (ERGIC2), ERGIC-53, steroid 5alpha-reductase, and apolipoprotein B. beta-Amyloid also bound to the C-reactive protein precursor, a protein involved in inflammation, and to
14-3-3
, a protein that regulates
glycogen synthase kinase-3beta
, the kinase involved in tau phosphorylation. Of eight synthetic peptides identified as targets of beta-amyloid, three were found to be effective blockers of the toxic effect of beta-amyloid on cultured neuronal cells. These peptides bound to the hydrophobic region (residues 17-21) or to the nearby protein kinase C pseudo-phosphorylation site (residues 26-30) of beta-amyloid, suggesting that these may be the most critical regions for beta-amyloid effector action and for aggregation. Peptides or other small molecules that bind to this region may protect against beta-amyloid toxic effect by competitively blocking its ability to bind beta-amyloid effector proteins such as sortilin and
14-3-3
.
...
PMID:Protection against beta-amyloid-induced apoptosis by peptides interacting with beta-amyloid. 1776 69
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