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Query: UMLS:C0027819 (
neuroblastoma
)
27,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tryptophanyl-tRNA synthetase
(
TrpRS
) is an interferon-induced phosphoprotein with autoantigenic and cytokine activities detected in addition to its canonical function in tRNA aminoacylation. The availability of monoclonal antibodies (mAbs) specific for
TrpRS
is important for development of tools for
TrpRS
monitoring. A molecular characterization of two mAbs raised in mice, using purified, enzymatically active bovine
TrpRS
as the inoculating antigen, is presented in this report. These IgG1 antibodies are specific for bovine, human and rabbit but not E. coli
TrpRS
. Immunoreactivity and specificity of mAbs were verified with purified recombinant hTrpRS expressed in E. coli and
TrpRS
-derived synthetic peptides. One of the mAbs, 9D7 is able to disaggregate fibrils formed by Ser32-Tyr50
TrpRS
-peptide. Epitope mapping revealed that disaggregation ability correlates with binding of 9D7 to this peptide in ELISA and immunocytochemistry. This epitope covers a significant part of N-terminal extension that suggested to be proteolytically deleted in vivo from the full-length
TrpRS
whereas remaining COOH-fragment possesses a cytokine activity. For epitope mapping of mAb 6C10, the affinity selected phage-displayed peptides were used as a database for prediction of conformational discontinuous epitopes within hTrpRS crystal structure. Using computer algorithm, this epitope is attributed to COOH-terminal residues Asp409-Met425. In immunoblotting, the 6C10 mAb reacts preferably with (i) oligomer than monomer, and (ii) bound than free
TrpRS
forms. The hTrpRS expression was shown to correlate with growth rates of
neuroblastoma
and pancreatic cancer cells. Immunohistochemically both mAbs revealed extracellular plaque-like aggregates in hippocampus of Alzheimer's disease brain.
...
PMID:Mapping and molecular characterization of novel monoclonal antibodies to conformational epitopes on NH2 and COOH termini of mammalian tryptophanyl-tRNA synthetase reveal link of the epitopes to aggregation and Alzheimer's disease. 1661 81
Tryptophanyl-tRNA synthetase
(
TrpRS
) catalyzes tryptophanyl-tRNAtrp formation. At concentrations exceeding tryptophan, tryptamine inhibits
TrpRS
. This leads in tryptophanyl-tRNA deficiency and synthesis of aberrant proteins. Tryptamine presents in food and crosses blood-brain barrier. The purpose of this study is to test the hypothesis that tryptamine-induced changes in cell and animal models correlate with Alzheimer's disease (AD) manifestations. Tryptamine prevented growth of human
neuroblastoma
. Epithelioids recovered growth in tryptamine-free medium, while neuroblasts died. Tryptamine induced epithelioid differentiation forming synaptic vesicles, neuritic contacts, and TrpRS+ axons in stable sublines. A fraction of epithelioids was adhered to satellite cells via trypsin-resistant interdigitating junctions. Tryptamine stimulated satellite division and differentiation into neurons, transitional cell variants and neuroblasts able to repopulate. Both tryptamine-inhibited and hypoxia-downregulated
TrpRS
translocates into cytoplasmic extensions.
TrpRS
is secreted into extracellular space as a free protein or within vesicles extended from cytoplasm and then pinched-off from plasma membrane of tryptamine-treated cells. Extracellular vesicles fuse in congophilic TrpRS+ plaques in tryptamine-treated culture and AD brain.
TrpRS
prominent immunoreactivity is associated with plasma and vesicle membranes of satellites and AD brain degenerated neurons. Tryptamine-modified mouse brain expresses amyloid and abnormal filaments in extracellular and neuronal plasma membrane vesicles. Radiolabeled tryptamine, tryptophan and serotonin uptake was 10-fold lower in tryptamine-resistant compared to tryptamine-sensitive cells. In both variants, tryptamine uptake exceeded tryptophan uptake within 2-h assuring
TrpRS
inhibition. Here, tryptophanyl-tRNAtrp deficiency implicates in both neurite growth and termination/collapse. Neurite growth termination prompts TrpRS+ vesicularization. TrpRS+ vesicles contribute in neuronal fragmentation and fibrillar-vesicular congophilic plaques in AD brain.
...
PMID:Tryptamine-induced tryptophanyl-tRNAtrp deficiency in neurodifferentiation and neurodegeneration interplay: progenitor activation with neurite growth terminated in Alzheimer's disease neuronal vesicularization and fragmentation. 2162 92
