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)

We have used time-course dephosphorylation experiments and two dimensional isoelectric focusing to assess the phosphorylation state of neurofilament (NF) proteins following the intracisternal inoculation of AlCl3. Littermates of New Zealand white rabbits, age 5-6 weeks, were inoculated with either 1000, 750, 500, 250 or 100 micrograms AlCl3 in 0.9% NaCl or 0.9% NaCl alone, killed 48 hours later and the NF-enriched cytoskeletal fraction isolated from the spinal cord. Neurofilamentous inclusions did not occur following inoculums of 100 or 250 micrograms AlCl3, but thereafter developed in increasing quantities in a dosage-dependent manner. Incubation of the NF-enriched fraction with E. Coli. alkaline phosphatase (enzyme: substrate 1:50) induced a replacement of the highly phosphorylated 200 kDa isoform of NFH with a more poorly phosphorylated 170 kDa isoform, confirmed by immunoblot analysis. This reaction was complete within 20 minutes with NF derived from NaCl, 100 or 250 micrograms AlCl3 inoculated rabbits and within 30 minutes for 500 micrograms AlCl3 inoculums. However, residual highly phosphorylated NFH isoforms persisted at 60 minutes for 750 micrograms inoculums and 90 minutes for that derived from 1000 micrograms AlCl3 inoculums. A similar inhibition of phosphatase activity was observed for NFM. Following two dimensional electrophoresis of the NF-enriched isolate, no alteration in the net phosphorylation state of individual NF subunit proteins was observed--regardless of the inoculum. These results demonstrate a dose-dependent induction of neurofilamentous inclusions in spinal motor neurons following intracisternal AlCl3 inoculation accompanied by increasing phosphatase resistance without a demonstrable alteration in NF net phosphorylation state.
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PMID:200 kDa and 160 kDa neurofilament protein phosphatase resistance following in vivo aluminum chloride exposure. 771 51

Phosphorylation-dependent change in electrophoretic mobility is the most unique characteristic of NF-H, the largest molecular mass subunit of the neurofilament. We dephosphorylated NF-H using Escherichia coli alkaline phosphatase, then reassembled it into neurofilaments with NF-M and NF-L, and into NF-H filaments with NF-H alone. We compared these dephosphorylated filaments with control: projections by low-angle rotary-shadow, crossbridges by quick-freeze deep-etch, and core filament packing density by thin-section electron microscopy. Projections in the dephosphorylated filaments were basically similar in structure to those in control, although there was a tendency for them to be wider and less dense, especially in NF-H filaments. Dephosphorylated filaments were still able to form crossbridges between core filaments, but their crossbridges were significantly wider, less dense, more branched and more irregular than crossbridges in control, and core filaments were more densely packed. These structural differences may be brought about by the removal of phosphate groups from NF-H tail and consequent reduction of electrostatic repulsion between adjacent crossbridges extending from the same core filament. The results indicate that phosphorylation of NF-H is necessary for forming well developed crossbridges, straight and at constant intervals, like those of in vivo axonal neurofilaments.
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PMID:Dephosphorylation of the largest neurofilament subunit protein influences the structure of crossbridges in reassembled neurofilaments. 798 61

The dephosphorylation-induced interaction of neurofilaments (NFs) with microtubules (MTs) was investigated by using several phosphatases. Escherichia coli alkaline and wheat germ acid phosphatases increased the electrophoretic mobility of NF-H and NF-M by dephosphorylation, and induced the binding of NF-H to MTs. The binding of NFs to MTs was observed only after the electrophoretic mobility of NF-H approached the exhaustively dephosphorylated level when alkaline phosphatase was used. The number of phosphate remaining when NF-H began to bind to MTs was estimated by measuring phosphate bound to NF-H. NF-H did not bind to MTs even when about 40 phosphates from the total of 51 had been removed by alkaline phosphatase. The removal of 6 further phosphates finally resulted in the association of NF-H with MTs. A similar finding, that the restricted phosphorylation sites in the NF-H tail domain, but not the total amount of phosphates, were important for binding to MTs, was also obtained with acid phosphatases. In contrast to alkaline and acid phosphatases, four classes of protein phosphatases (protein phosphatases 1, 2A, 2B, and 2C) were ineffective for shifting the electrophoretic mobility of NF proteins and for inducing the association of NFs to MTs.
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PMID:Dephosphorylation of microtubule-binding sites at the neurofilament-H tail domain by alkaline, acid, and protein phosphatases. 839 71

Neurofilaments (NF) are composed of three polypeptides of differing molecular size, termed NF-L, NF-M and NF-H. The NF-H and, to a lesser degree, NF-M components are phosphorylated. In the majority of normal neurones, the location of phosphorylated NF is confined to neuronal processes, particularly the axon, and excluded from the perikaryon. Cell bodies of autonomic neurones of the rat do not contain phosphorylated NF. In many disease states, phosphorylated NF accumulate in the neuronal cell body and therefore in most circumstances their presence indicates abnormality. This paper reports that in at least two autonomic ganglia of normal horses (stellate and coeliomesenteric) the vast majority of neuronal perikarya immunostain strongly for phosphorylated NF. Pretreatment with alkaline phosphatase abolishes staining.
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PMID:Neurones in autonomic ganglia of normal horses contain phosphorylated neurofilaments. 847 56

Neurofilaments are typical structures of the neuronal cytoskeleton and participate in the formation and stabilization of the axonal and dendritic architecture. In this study, we have characterized a murine monoclonal antibody, FNP7, that is directed against the medium-sized neurofilament subunit NF-M. This antibody identifies a subset of neurons in the cerebral cortex of various species including human and in organotypic cultures of rat cortex. In the neocortex of all species examined, the antibody labels pyramidal cells in layers III, V, and VI, with a distinctive laminar distribution between architectonic boundaries. In comparison with other antibodies directed against NF-M, the FNP7 antibody identifies on blots two forms of NF-M that appear relatively late during development, at the time when dynamic growth of processes changes to the stabilization of the formed processes. Dephosphorylation with alkaline phosphatase unmasks the site, making it detectable for the FNP7 antibody. The late appearance suggests that the site is present during early development in phosphorylated form and with increasing maturation becomes dephosphorylated, mainly in dendrites. This event may relate to changes in cytoskeleton stability in a late phase of dendritic maturation. Furthermore, mainly corticofugal projections and only few callosal axons are stained, suggesting a differential phosphorylation in a subset of axons. The antibody provides a useful marker to study subsets of pyramidal cells in vivo, in vitro, and under experimental conditions.
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PMID:Medium-sized neurofilament protein related to maturation of a subset of cortical neurons. 1051 1

Although the role of intraneuronal neurofilamentous aggregates in the pathogenesis of ALS is unknown, their presence forms a key neuropathological hallmark of the disease process. Conversely, the experimental induction of neurofilamentous aggregates in either neurotoxic or transgenic mice gives rise to motor system degeneration. To determine whether alterations in the physiochemical properties of NF are present in sporadic ALS, we purified NF subunit proteins from cervical spinal cord of ALS and age-matched control patients. The cytoskeleton-enriched, Triton X-100 insoluble fraction was further separated into individual NF subunits using hydroxyapatite HPLC. We observed no differences between control and ALS in the characteristics of NFH, including migration patterns on 2D-IEF, sensitivity to E. coli, alkaline phosphatase mediated dephosphorylation, peptide mapping, or proteolysis (calpain, calpain/calmodulin mediated, phosphorylated or dephosphorylated NFH). NFL showed no differences in 2D-IEF migration patterns, peptide mapping, or the extent of NFL nitrotyrosine immunoreactivity in either the Triton soluble or insoluble fractions. The latter observation demonstrated that NFL nitration is a ubiquitous occurrence in neurons and suggests that NFL might function as a sink for free reactive nitrating species. In contrast to the lack of differences in the post-translational processing of NF in ALS, we did observe a selective suppression of NFL steady state mRNA levels in the limb innervating lateral motor neuron column of ALS. This occurred in the absence of modifications in NFH, NFM or neuronal nitric oxide synthase (Type I NOS; nNOS) steady state mRNA levels. Coupled with previous observations of nNOS immunoreactivity co-localizing with NF aggregates in ALS motor neurons, this suggests activation of the nNOS enzyme complex in ALS, which would be predicted to contribute directly to the generation of reactive nitrating species. Given this, the isolated suppression of NFL steady state mRNA levels in ALS may indicate that ALS motor neurons are at an intrinsic deficit in the ability to buffer free reactive nitrating species.
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PMID:Neurofilament metabolism in sporadic amyotrophic lateral sclerosis. 1054 27

Putative stem cells have recently been isolated from several extra-embryonic tissues, including Wharton's Jelly and umbilical cord blood. Relevant studies have focused on primary cultures established from freshly isolated tissues. In this report, we examine the plasticity of 472 cells, a cryopreserved human amniocyte cell line originally isolated in 1974. Under conditions conducive for proliferation, the amniocytes displayed fibroblast-like morphologies and expressed Oct4 and Rex1, genes associated with pluripotency. Perhaps indicative of inherent plasticity, 472 cells simultaneously expressed ectodermal beta-III-tubulin and mesodermal fibronectin. When cultured under conditions that promote neural differentiation, the cells adopted neuronal morphologies and expressed neuronal genes, including Gap-43, NF-M, tau, and synaptophysin. Exposure to culture conditions that encourage osteogenic differentiation resulted in increased expression of alkaline phosphatase (ALP) and the deposition of mineralized matrix, established markers of bone cell differentiation. In sum, this population of human amniocytes appears to be multipotent, capable of in vitro differentiation to ectodermal and mesodermal cell types. Retention of this plasticity through decades of cryopreservation suggests that amniocytes might be candidates for future cell-based therapies.
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PMID:Long-term cryopreserved amniocytes retain proliferative capacity and differentiate to ectodermal and mesodermal derivatives in vitro. 1689 52

Fibrous structures mimicking the morphology of the natural extracellular matrix are considered promising scaffolds for tissue engineering. This work aims to develop a novel hierarchical starch-based scaffold. Such scaffolds were obtained by a combination of starch-polycaprolactone micro- and polycaprolactone nano-motifs, respectively produced by rapid prototyping (RP) and electrospinning techniques. Scanning electron microscopy (SEM) and micro-computed tomography analysis showed the successful fabrication of a multilayer scaffold composed of parallel aligned microfibres in a grid-like arrangement, intercalated by a mesh-like structure with randomly distributed nanofibres (NFM). Human osteoblast-like cells were dynamically seeded on the scaffolds, using spinner flasks, and cultured for 7 days under static conditions. SEM analysis showed predominant cell attachment and spreading on the nanofibre meshes, which enhanced cell retention at the bulk of the composed/hierarchical scaffolds. A significant increment in cell proliferation and osteoblastic activity, assessed by alkaline phosphatase quantification, was observed on the hierarchical fibrous scaffolds. These results support our hypothesis that the integration of nanoscale fibres into 3D rapid prototype scaffolds substantially improves their biological performance in bone tissue-engineering strategies.
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PMID:Hierarchical starch-based fibrous scaffold for bone tissue engineering applications. 1902 Dec 39


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