Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tau is a neuronal microtubule-associated protein that promotes microtubule assembly, stability, and bundling in axons. Two distinct regions of tau are important for the tau-microtubule interaction, a relatively well-characterized "repeat region" in the carboxyl terminus (containing either three or four imperfect 18-amino acid repeats separated by 13- or 14-amino acid long inter-repeats) and a more centrally located, relatively poorly characterized proline-rich region. By using amino-terminal truncation analyses of tau, we have localized the microtubule binding activity of the proline-rich region to Lys215-Asn246 and identified a small sequence within this region, 215KKVAVVR221, that exerts a strong influence on microtubule binding and assembly in both three- and four-repeat tau isoforms. Site-directed mutagenesis experiments indicate that these capabilities are derived largely from Lys215/Lys216 and Arg221. In marked contrast to synthetic peptides corresponding to the repeat region, peptides corresponding to Lys215-Asn246 and Lys215-Thr222 alone possess little or no ability to promote microtubule assembly, and the peptide Lys215-Thr222 does not effectively suppress in vitro microtubule dynamics. However, combining the proline-rich region sequences (Lys215-Asn246) with their adjacent repeat region sequences within a single peptide (Lys215-Lys272) enhances microtubule assembly by 10-fold, suggesting intramolecular interactions between the proline-rich and repeat regions. Structural complexity in this region of tau also is suggested by sequential amino-terminal deletions through the proline-rich and repeat regions, which reveal an unusual pattern of loss and gain of function. Thus, these data lead to a model in which efficient microtubule binding and assembly activities by tau require intramolecular interactions between its repeat and proline-rich regions. This model, invoking structural complexity for the microtubule-bound conformation of tau, is fundamentally different from previous models of tau structure and function, which viewed tau as a simple linear array of independently acting tubulin-binding sites.
Mol Biol Cell 1997 Feb
PMID:Functional interactions between the proline-rich and repeat regions of tau enhance microtubule binding and assembly. 919 Feb 13

Excitatory amino-acid (EAA) neurotransmitters act as molecular signals influencing the structure of neurons during development. However, the signal transduction and effector mechanisms responsible for these effects have yet to be fully elucidated. We have previously provided evidence that EAA agonists induce the synthesis and release of proteoglycans (PGs) with neurite-promoting activity from fetal hippocampal neurons. In the present studies exposure of fetal hippocampal neurons to glutamate (100 microM) for 5 min resulted in increases in the neuron-specific growth-associated genes T alpha 1 alpha-tubulin (T alpha 1), microtubule-associated protein-2 (MAP-2) and growth-associated protein-43 (GAP-43). mRNA levels peaked at between 8 and 12 h following exposure as determined by competitive reverse transcription polymerase chain reaction (RT-PCR). Increases in neurite growth as measured by axonal length, the total length of dendrites, the number of branches per axon, the total length of branches per axon and the total neurite length were also observed 48 h after glutamate exposure. The increase in T alpha 1, MAP-2 and GAP-43 mRNA levels following glutamate exposure was mediated via both N-methyl-D-aspartate and metabotropic receptor activation. Heparin, which inhibits the neurite growth-promoting effects of PGs in vitro, and heparitinase, which catalyzes the cleavage of heparan sulphate, also inhibited the glutamate-dependent induction of T alpha 1, MAP-2 and GAP-43 mRNA expression and neurite growth when added to culture medium following glutamate exposure. Chondroitin sulphate and chondroitinase AC had no effects on the mRNA levels tested or on neurite growth. Therefore, these studies suggest that neuronal PGs regulated by activation of EAA receptors mediate neuronal growth responses.
Brain Res Mol Brain Res 1997 Sep
PMID:Effects of neuronal proteoglycans on activity-dependent growth responses of fetal hippocampal neurons. 933 33

Qualitative and quantitative evaluations of cytoskeletal proteins are critical for understanding physiological and pathological processes affecting the nervous system. Most of such studies on human samples have only used immunohistochemical techniques. We describe a complementary immunoblotting approach, for the assessment of neuronal cytoskeletal proteins, which employs fresh frozen postmortem tissues. We found that cytosolic fractions are suitable for qualitative and quantitative evaluations of four major dendritic cytoskeletal proteins: microtubule-associated protein (MAP)-2, MAP-5, and high- and medium-molecular-weight nonphosphorylated neurofilaments. The enhanced chemiluminescence (ECL) technique revealed consistent and distinctive immunoblotting patterns for all four proteins in both monkey (no postmortem delay) and human (17-34 h postmortem interval) samples, some of which differed from those found in rodents. Quantitations of blots, by tissue protein-optical density curves that demonstrated linearity of the measurements in the 0- to 100-microgram range, support the feasibility of these immunoassays for the study of neurologic disorders.
Mol Chem Neuropathol 1997 Aug
PMID:Immunoblotting patterns of cytoskeletal dendritic protein expression in human neocortex. 933 66

Association of mRNA with the cytoskeleton represents a fundamental aspect of RNA physiology likely involved in mRNA transport, anchoring, translation, and turnover. We report the initial characterization of a protein complex that binds RNA in a sequence-independent but size-dependent manner in vitro. The complex includes a approximately 160-kDa protein that is bound directly to mRNA and that appears to be either identical or highly related to a approximately 1600-kDa protein that binds directly to mRNA in vivo. In addition, the microtubule-associated protein, MAP 1A, a cytoskeletal associated protein is a component of this complex. We suggest that the general attachment of mRNA to the cytoskeleton may be mediated, in part, through the formation of this ribonucleoprotein complex.
Mol Biol Cell 1998 Jul
PMID:A general RNA-binding protein complex that includes the cytoskeleton-associated protein MAP 1A. 965 65

The neuronal ceroid lipofuscinoses (NCL, Batten disease) are a group of inherited neurodegenerative storage diseases in children. Mutations in different genes underlie different forms. Subunit c of mitochondrial ATP synthase is specifically stored in autofluorescent bodies in most of them, including a form in sheep. Mature bodies are lysosomal but the initial site of storage is not known, nor is it known how this leads to the characteristic neurodegeneration. Neurons were cultured in serum-free medium from control and affected sheep fetuses at 90 days gestation. They showed positive microtubule-associated protein staining, developed neurites, and had typical neuron morphology. Time-dependent accumulation of subunit c and of fluorescent storage bodies was observed in affected cells by immunocytochemistry and confocal microscopy. A small number of autofluorescent bodies were apparent after 4 days in culture. After 10 days these bodies were more numerous, more intensely autofluorescent, and often larger in size. By 14 and 21 days many neurons were packed with autofluorescent material. These bodies were not seen in control cultures. Immunocytochemistry revealed subunit c-positive storage material only in affected neurons and not in affected glial cells. Confocal microscope analysis, using organelle-specific dyes, demonstrated colocalization of autofluorescent bodies with lysosomes, not with mitochondria. Survival rates of the affected cells were unaffected by the storage body accumulation over a 3-month period. These cultures can now be used to study the mechanism of subunit c accumulation and of neurodegeneration and to test therapeutic possibilities.
Mol Genet Metab 1999 Apr
PMID:Disease-specific pathology in neurons cultured from sheep affected with ceroid lipofuscinosis. 1019 Nov 33

The effect of transient cerebral ischemia on phosphorylation of the microtubule-associated protein (MAP) tau was investigated using the rat four-vessel occlusion model. Phosphorylation of tau is proposed to regulate its binding to microtubules, influencing the dynamics of microtubule assembly necessary for axonal growth and neurite plasticity. In this study, tau was rapidly dephosphorylated during ischemia in the hippocampus, neocortex, and striatum. Dephosphorylation of tau was observed within 5 min of occlusion and increased after 15 min in all three brain regions, regardless of their relative vulnerability to the insult. Thus, dephosphorylation of tau is an early marker of ischemia and precedes the occlusion time required to cause extensive neuronal cell death in this model. On restoration of blood flow for a little as 15 min, tau was phosphorylated at a site(s) that causes a reduction in its electrophoretic mobility. The dephosphorylation/phosphorylation of tau may alter its distribution between axon and cell body, and affect its susceptibility to proteolysis. These changes would be expected to influence microtubule stability, possibly contributing to disruption of axonal transport, but also allowing neurite remodeling in a regenerative response.
Mol Chem Neuropathol
PMID:Dephosphorylation of tau during transient forebrain ischemia in the rat. 1032 11

Tau, a neuronal microtubule-associated protein (MAP) plays an important role in the formation and maintenance of neuronal polarity. Tau mRNA is a stable message and exhibits a relatively long half-life in neuronal cells. The regulation of mRNA stability is a crucial determinant in controlling mRNA steady-state levels in neuronal cells and thereby influences gene expression. The half-lives of specific mRNAs may be dependent on specific sequences located at their 3'untranslated region (UTR), which in turn, may be recognized by tissue-specific proteins. To identify the sequence elements involved in tau mRNA stabilization, selected regions of the 3'UTR were subcloned downstream to c-fos reporter mRNA or to the coding region of the tau mRNA. Using stably transfected neuronal cells, we have demonstrated that a fragment of 240 bp (H fragment) located in the 3'UTR can stabilize c-fos and tau mRNAs. Analysis of stably transfected cells indicated that the transfected tau mRNAs are associated with the microtubules of neuronal cells, suggesting that this association may play a role in tau mRNA stabilization. This step may be a prerequisite in the multistep process leading to the subcellular localization of tau mRNA in neuronal cells.
J Mol Neurosci 1999 Apr
PMID:Identification of 3'UTR region implicated in tau mRNA stabilization in neuronal cells. 1052 57

RS is 20-kDa microtubule-associated protein found in several human tissues. Sequence analysis showed that the polypeptide is highly related to a rat protein whose level has been previously reported to be correlated with sperm fertility. The present study examines the intracellular distribution of RS in spermatozoa from both humans and rats employing a specific antibody to the polypeptide and immunofluorescence microscopy. We demonstrate that in humans, RS is mainly a flagellum protein, but in rats, it is also abundant in the sperm head. In the sperm tail, RS was found to be co-localized with beta-tubulin, a major component of the axoneme, suggesting that RS is also associated with the flagellum axoneme. Contrary to a previous report, incubation of isolated spermatozoa from both humans and rats in the presence of ornidazole, a reported male contraceptive drug in rats, did not result in modulation in the level of RS, suggesting that the drug does not act directly on sperm RS. Mol. Reprod. Dev. 55:189-196, 2000.
Mol Reprod Dev 2000 Feb
PMID:Identification of RS as a flagellar and head sperm protein. 1061 58

Alzheimer's disease is characterized by the presence of neurofibrillary tangles and senile neuritic plaques in the brain. Tangles are aggregates of paired helical filaments composed of the microtubule-associated protein, tau, in a hyperphosphorylated state. Senile plaques have a core of amyloid beta-peptide derived by proteolysis of the amyloid precursor protein. A major hurdle in defining the pathogenic mechanisms in Alzheimer's disease is to understand how both amyloid beta-peptide deposition and paired helical filament formation are biochemically linked. Recent genetic discoveries provide some clues, suggesting that components of two developmentally important signalling pathways, Notch and wingless, or the vertebrate homologue of wingless, Wnt, are involved.
Mol Med Today 2000 Feb
PMID:Does dysregulation of the Notch and wingless/Wnt pathways underlie the pathogenesis of Alzheimer's disease? 1065 77

For the development of the nervous system it is crucial that growth cones detect environmental information and react by altering their growth direction. The latter process is thought to depend on local stabilization of growth cone microtubules. We have obtained evidence of a role for the microtubule-associated protein MAP1B, in particular a mode 1 phosphoisoform of the molecule, P1-MAP1B, in this process. P1-MAP1B is tightly associated with the cytoskeleton and is present at highest concentrations in the distal axon and the growth cone of chick retinal ganglion cells. In growth cones turning at nonpermissive substrate borders, P1-MAP1B is restricted to regions which are stabilized. Unilateral neutralization of P1-MAP1B in one-half the growth cone by microscale chromophore-assisted laser inactivation changes growth cone motility, morphology, and growth direction. The results indicate a functional role for P1-MAP1B in local growth cone stabilization and thus growth cone steering.
Mol Cell Neurosci 2000 Jan
PMID:The microtubule-associated protein MAP1B is involved in local stabilization of turning growth cones. 1066 5


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