EC:3.1.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To understand the pathological process by which amyloid is deposited in Alzheimer's disease, it is important to characterize the proteolytic processing events of the beta-amyloid precursor protein (beta-APP) from which the amyloid-forming fragment is excised. A potentially important component in beta-APP processing is the 57-amino acid (aa) Kunitz serine protease inhibitor (KPI) located within the extracellular domain of both the 751- and 770-aa isoforms of beta-APP. We have synthesized DNA encoding the 57-aa KPI domain as a necessary step in identifying the role of the protease inhibitor in beta-APP processing and amyloid formation. A bacterial secretion system directed by the alkaline phosphatase signal peptide of Escherichia coli linked to a synthetic gene encoding KPI was used to produce soluble, extracellular recombinant KPI (reKPI) protein. The reKPI protein was purified to homogeneity from bacterial supernatants and was biochemically and biologically characterized. Complete aa sequence analysis confirmed the fidelity of the reKPI, and fast-atom bombardment mass-spectral analysis was used to document that reKPI was of the predicted Mr. The reKPI is as active on a molar basis as the inhibitor-containing beta-APP when assayed for inhibition of trypsin activity. Together these data suggest that reKPI protein is properly folded and lacking in modified aa. Hence, this reKPI will be an important reagent in gaining a better understanding of the role of the KPI domain in beta-APP function and metabolism, as well as in the proteolytic events involved in beta-amyloid formation.
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PMID:Synthesis and characterization of the Kunitz protease-inhibitor domain of the beta-amyloid precursor protein. 170 46

We have used in situ hybridization with biotinylated oligonucleotide (antisense) probes and streptavidin-biotinylated alkaline phosphatase method to detect the amount of amyloid beta-protein mRNA in the paraffin-embedded and formalin-fixed brain samples of patients affected by Alzheimer's disease and those of non-affected controls. Instead of the expected specific binding to neuronal cytoplasm, the probes did constantly bind to neuritic senile plaques, the strongest binding being found in the hippocampus and the cerebral cortex. We have been able to constantly repeat this peculiar phenomenon with other (30-mer) oligonucleotide probes, e.g. the sense probes for beta-amyloid protein and those specific for human papillomavirus (HPV) 18- and c-erb B-2 mRNAs. Replacing the probe with water as a negative control lead to abolishment of the colour reaction, thus excluding the possibility of the non-specific staining being due to the detection system. This confirms that the oligonucleotide probe is essential for this binding phenomenon.
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PMID:Short biotinylated oligonucleotides bind non-specifically to senile plaques of Alzheimer's disease. 174 20

Amino acid sequencing of a CNBr digest of the tau protein isolated from bovine brain revealed an amino acid sequence of 17 residues, Pro-Gly-Leu-Lys-Glu-Ser-Pro-Leu-Gln-Ile-Gly-Ala-Ala-Pro-Gly-Leu-Lys, which we call peptide I, with heterogeneity at position 11 of glycine (peptide Ia) and proline (peptide Ib); peptide I showed no homology with the previously reported cDNA-derived mouse and human tau sequences. Antisera raised to synthetic peptides corresponding to peptides Ia and Ib labeled all the bovine tau polypeptides recognized by other monoclonal and polyclonal antibodies to bovine tau. Antisera to peptide Ib did not label any mouse tau polypeptides; however, an anti-Ia antiserum labeled two of the four mouse tau polypeptides. Antisera to both peptides labeled paired helical filaments (PHF) as neurofibrillary tangles, plaque neurites, and neuropil threads in Alzheimer disease brain and PHF polypeptides on immunoblots. Immunostaining with anti-Ia antisera of PHF in tissue sections and PHF polypeptides, but not bovine tau, on immunoblots was markedly increased when pretreated with alkaline phosphatase. These studies suggest that (i) the amino acid sequences of some isoforms of tau peptide might be different from that predicted from cDNAs, (ii) a tau peptide that is absent in the predicted sequences is present in PHF in Alzheimer disease, and (iii) tau in PHF is abnormally phosphorylated.
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PMID:Identification and localization of a tau peptide to paired helical filaments of Alzheimer disease. 250 95

A monoclonal antibody to the microtubule-associated protein tau (tau) labeled some neurofibrillary tangles and plaque neurites, the two major locations of paired-helical filaments (PHF), in Alzheimer disease brain. The antibody also labeled isolated PHF that had been repeatedly washed with NaDodSO4. Dephosphorylation of the tissue sections with alkaline phosphatase prior to immunolabeling dramatically increased the number of tangles and plaques recognized by the antibody. The plaque core amyloid was not stained in either dephosphorylated or nondephosphorylated tissue sections. On immunoblots PHF polypeptides were labeled readily only when dephosphorylated. In contrast, a commercially available monoclonal antibody to a phosphorylated epitope of neurofilaments that labeled the tangles and the plaque neurites in tissue did not label any PHF polypeptides on immunoblots. The PHF polypeptides, labeled with the monoclonal antibody to tau, electrophoresed with those polypeptides recognized by antibodies to isolated PHF. The antibody to tau-labeled microtubules from normal human brains assembled in vitro but identically treated Alzheimer brain preparations had to be dephosphorylated to be completely recognized by this antibody. These findings suggest that tau in Alzheimer brain is an abnormally phosphorylated protein component of PHF.
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PMID:Abnormal phosphorylation of the microtubule-associated protein tau (tau) in Alzheimer cytoskeletal pathology. 308 67

Cholinergic neurons are unique among cells since they alone utilize choline not only as a component of major membrane phospholipids, such as phosphatidylcholine (Ptd-Cho), but also as a precursor of their neurotransmitter acetylcholine (AcCho). It has been hypothesized that choline-phospholipids might serve as a storage pool of choline for AcCho synthesis. The selective vulnerability of cholinergic neurons in certain neurodegenerative diseases (e.g., Alzheimer disease, motor neuron disorders) might result from the abnormally accelerated liberation of choline (to be used as precursor of AcCho) from membrane phospholipids, resulting in altered membrane composition and function and compromised neuronal viability. However, the proposed metabolic link between membrane turnover and AcCho synthesis has been difficult to demonstrate because of the heterogeneity of the preparations used. Here we used a population of purely cholinergic cells (human neuroblastoma, LA-N-2), incubated in the presence of [methyl-3H]methionine to selectively label PtdCho synthesized by methylation of phosphatidylethanolamine, the only pathway of de novo choline synthesis. PtdCho, purified by thin-layer chromatography, contained 90% of the label incorporated into lipids, demonstrating that LA-N-2 cells contained phosphatidylethanolamine N-methyltransferase. Three peaks of radioactive material that cochromatographed with authentic Ac-Cho, choline, and phosphocholine were observed when the water-soluble metabolites of the [3H]PtdCho were purified by high-performance liquid chromatography. Their identities were ascertained by subjecting them to enzymatic modifications with acetylcholinesterase, choline oxidase, and alkaline phosphatase, respectively. The results demonstrate that AcCho can be synthesized from choline derived from the degradation of endogenous PtdCho formed de novo by methylation of phosphatidylethanolamine.
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PMID:Synthesis of acetylcholine from choline derived from phosphatidylcholine in a human neuronal cell line. 347 63

In a normal mature neuron, microtubule associated protein tau promotes the assembly of tubulin into microtubules and maintains the structure of microtubules. In Alzheimer disease brain, tau is abnormally hyperphosphorylated and is the major protein subunit of paired helical filaments (PHF). In the present study, the biological activity of tau in PHF and the effect of dephosphorylation on this activity were examined. PHF were isolated from Alzheimer disease brains and tau from the untreated or alkaline phosphatase-treated PHF was extracted by ultrasonication in microtubule assembly buffer. Tubulin was isolated by phosphocellulose chromatography of three cycled microtubules from bovine brain. PHF-tau did not promote assembly of bovine tubulin into microtubules whereas tau from the dephosphorylated PHF produced a robust microtubule assembly. These studies suggest (i) that in Alzheimer disease tau in PHF is functionally inactive because of abnormal phosphorylation and (ii) that the abnormally phosphorylated site(s) in PHF that inactivates PHF-tau is accessible to enzymatic dephosphorylation in vitro.
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PMID:Alzheimer paired helical filaments. Restoration of the biological activity by dephosphorylation. 804 85

Phorbol esters (PDBu) stimulate alpha-secretase cleavage and secretion of the Alzheimer amyloid precursor protein (APP). To determine whether any cytoplasmic residues or sequence motifs mediate the PDBu effect on APP processing, this region of APP was altered by point mutations or deletions. To differentiate the mutated APP from the endogenous APP, the APP751 ectodomain between amino acids 1 and 647 was replaced by a human secreted alkaline phosphatase derivative (SEAP). The resultant fusion protein (SEAP-APP751) was cleaved by alpha-secretase at the same site as full-length APP, and its secretion was stimulated by PDBu at a level similar to APP751. However, PDBu-stimulated secretion of the SEAP-APP751 fusion protein reached its maximum level after 30 min of treatment, while secretion of APP751 reached its maximum after 60 min, suggesting that the APP ectodomain affects the kinetics of APP secretion. Mutation of the cytoplasmic serines to alanines had no effect on the PDBu-stimulated secretion of the SEAP-APP, indicating that protein kinase C (PKC) phosphorylation of the cytoplasmic domain of APP is not important for stimulation of APP secretion. Similarly, deletion of the cytoplasmic domain between amino acids 719 and 751 had no effect on the PDBu-stimulated secretion. However, deletion of amino acids 707-751 resulted in a significant increase in the secretory cleavage of the SEAP-APP707 delta C construct, suggesting that the sequence 707-719 is important for the regulated secretion of APP. Cholera toxin, but not pertussis toxin, reduced the PDBu-induced secretion of APP by more than two-fold, suggesting that the PDBu response may be modulated by a cholera toxin sensitive heterotrimeric G-protein.
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PMID:Study of the phorbol ester effect on Alzheimer amyloid precursor processing: sequence requirements and involvement of a cholera toxin sensitive protein. 805 94

The most characteristic brain lesion of Alzheimer disease is the accumulation of paired helical filaments (PHF) in the affected neurons. Based on solubility in detergents there are two general populations of PHF, the readily soluble (PHF I) and the sparingly soluble (PHF II) types. The major polypeptides of PHF are the microtubule associated protein tau. Tau in PHF is present in abnormally phosphorylated forms. In addition to the PHF, the abnormal tau is also present in unpolymerized form in the AD brain. Small amounts of ubiquitin (%) are associated with PHF II but neither with PHF I nor with the unpolymerized abnormally phosphorylated tau in AD brain. Furthermore, the pretangle neurons can readily be immunolabeled for abnormally phosphorylated tau but not for ubiquitin. The level of tau in neocortex is several-fold higher than in AD aged control cases, but this increase is in the form of the abnormally phosphorylated protein. The microtubule associated proteins from AD brain do not promote the assembly of microtubules in vitro, whereas the in vitro dephosphorylated PHF polypeptides stimulate the binding of GTP to the exchangeable site of tubulin and the assembly of microtubules. In vitro the phosphate groups in PHF are less accessible than those of tau to alkaline phosphatase. It is suggested that a defect in the protein phosphorylation/dephosphorylation system leads to hyperphosphory-lation of tau. The altered tau contributes to a microtubule assembly defect and consequently compromises the axoplasmic flow and leads to neuronal degeneration.
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PMID:Molecular pathology of Alzheimer neurofibrillary degeneration. 831 68

Microtubule-associated protein tau is known to be hyperphosphorylated in Alzheimer disease brain and this abnormal hyperphosphorylation is associated with an inability of tau to promote the assembly of microtubule in the affected neurons. Our previous studies demonstrated that abnormally phosphorylated tau could be dephosphorylated after treatment with alkaline phosphatase, thereby suggesting that the abnormal phosphorylation of tau might in part be the result of a deficiency of the phosphoprotein phosphatase system in patients with Alzheimer disease. In the present study we used 32P-labeled phosphorylase kinase and poly(Glu, Tyr) 4:1 as substrates to measure phosphoprotein phosphatase activities in Alzheimer disease and control brains. The activities of phosphoseryl/phosphothreonyl-protein phosphatase types 1, 2A, 2B, and 2C and of phosphotyrosyl-protein phosphatase in frontal gray and white matters from 13 Alzheimer brains were determined and compared with those from 12 age-matched control brains. The activities of type 1 phosphatase and phosphotyrosyl phosphatase in gray matter and of type 2A phosphatase in both gray and white matters were significantly lower in Alzheimer disease brains than in controls. These findings suggest that the hyperphosphorylation of tau in Alzheimer disease brain could result from a protein dephosphorylation defect in vivo. The decrease in the phosphatase activities in Alzheimer disease might also be involved in the formation of beta-amyloid by augmenting the amyloidogenic pathway processing of beta-amyloid precursor protein.
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PMID:Phosphoprotein phosphatase activities in Alzheimer disease brain. 839 66

The AF series compounds, AF102B and congeners of AF150(S), are functionally selective agonists for m1 muscarinic receptors (m1AChRs). This is shown in stable transfected CHO and PC12 cells (PC12M1) with m1m5AChRs and m1AChRs, respectively. AF102B and AF150(S) are partial agonists, but AF150, AF151, and AF151 (S) are full agonists in stimulating phosphoinositides hydrolysis or arachidonic acid release in these cells. Yet, all these compounds behave as antagonists when compared with carbachol in elevating cAMP levels. In PC12M1 cells, unlike carbachol, the AF series compounds induce only minimal to moderate neurite outgrowth. Yet, these agonists synergize strongly with NGF, which by itself mediates only a mild response. Stimulation of m1AChRs by AF102B, AF150(S) and AF151(S) in PC12M1 cells enhances secretion of beta/A4 amyloid precursor protein derivatives (APPs). The enhanced APPs secretion induced by AF102B is potentiated by NGF. AF102B also stimulates APPs secretion from rat cortical slices. Stimulation of m1AChR in PC12M1 cells with carbachol or AF102B decreases tau phosphorylation as indicated by specific tau-1 mAb and alkaline phosphatase treatment. Due to the above mentioned properties m1 agonists may be of unique value in delaying the progression of Alzheimer's disease (AD). The AF series compounds show a wide safety margin and improve memory and learning deficits in animal models for AD. There is a dearth of clinical reports on m1 agonists. These include studies on AF102B and xanomeline, another m1 selective agonist. We tested AF102B in escalating doses of 20, 40, 60 mg, tid, po, (each dose for 2 weeks) for a total of 10 weeks. This was a single-blind placebo-controlled, parallel-group study in patients with probable AD. AF102B was significantly effective at 40 and 60 mg, tid in the ADAS, ADAS-cognitive and ADAS-word recognition scales.
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PMID:M1 agonists for the treatment of Alzheimer's disease. Novel properties and clinical update. 862 83

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