UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Evidence of cellular transthyretin (TTR) binding was sought because of the observation that transthyretin can increase the uptake of its hormonal ligand. Transthyretin was bound by human hepatoma (Hep G2) cells in a time- and temperature-dependent manner, reaching equilibrium within 2 h. Scatchard analysis was consistent with a single class of high affinity binding sites with a Kd of approximately 5 nM at 0 and 4 degrees C and 14 nM at 37 degrees C. These dissociation constants are more than 2 orders of magnitude lower than the concentration of transthyretin in human serum. The apparent capacity at 0 degrees C, corrected for internalized TTR, was approximately 20,000 sites/cell. Saturable, high affinity binding of human transthyretin was also demonstrable with rat primary hepatocytes and human renal adenocarcinoma, neuroblastoma, and transformed lung cells. Rat and human transthyretin were equipotent in displacing isotopically labeled, species-specific transthyretin from human hepatoma cells and rat primary hepatocytes, a finding that is consistent with the strong homology between rat and human transthyretin. Eighty-eight percent of the saturable uptake was internalized as determined by proteolytic removal of surface transthyretin. Internalization was dependent on receptor binding and was more markedly inhibited than surface binding at 0 degrees C. Concentrations of thyroxine within a range that saturated a significant proportion of the primary and secondary TTR iodothyronine binding sites increased the uptake and internalization of transthyretin in a dose-dependent manner. By analogy to the function of receptors for other transport proteins, the interaction between transthyretin and its receptor is likely to affect ligand delivery and may have additional metabolic effects.
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PMID:Receptor-mediated uptake and internalization of transthyretin. 215 33

The localization of cystatin C (CC) and transthyretin (TTR) synthesis was studied using Northern blot and immunohistochemical methods. Normal brain tissues from all sites studied contained CC mRNA. Immunoreactive CC was present in the choroid plexus epithelial cells, cerebral and cerebellar neurons, astrocytes, ependymal cells, macrophage-like cells of the arachnoid membrane and in neuroendocrine cells of the anterior pituitary lobe. TTR mRNA and TTR were restricted to the choroid plexus. In primary brain tumors, the transcript for CC was found in all 39 tumors examined, while the protein could only be demonstrated in 3/5 choroid plexus papillomas, 8/8 astrocytomas, 7/23 anaplastic astrocytomas and glioblastomas, 1/6 oligodendrogliomas, 1/1 oligoastrocytoma, 1/4 anaplastic oligodendrogliomas, 3/7 ependymomas, 0/1 anaplastic ependymoma, 0/5 primitive neuroectodermal tumors, 0/1 neuroblastoma, 3/11 meningiomas and 16/16 pituitary adenomas. CC cannot be used as a marker for any specific brain tumor type but the fact that the protein could be demonstrated more frequently in astrocytomas than in their more malignant counterparts suggests that the cellular production and secretion of CC changes with the malignant progression of these tumors. TTR mRNA and TTR were present only in the choroid plexus papillomas, indicating that TTR synthesis is mainly restricted to such brain neoplasms.
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PMID:Cystatin C and transthyretin expression in normal and neoplastic tissues of the human brain and pituitary. 914 88

We previously reported the inhibition of cell-growth in Neuro-2A cells, mouse neuroblastoma, by Zn2+ chelation with EDTA. This paper describes the purification of a factor that prevents EDTA-induced cell-growth inhibition from chick embryo brain. The purified factor has a molecular mass of 16 kDa on SDS-polyacrylamide gel electrophoresis under reducing conditions. This factor prevents the cell-growth inhibition in a dose-dependent manner and also binds thyroxine. Analysis of the N-terminal amino acid sequence revealed that 40 residues coincide with the sequence of chicken liver transthyretin.
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PMID:A factor that prevents EDTA-induced cell-growth inhibition: purification of transthyretin from chick embryo brain. 1050 89

Transthyretin (TTR) is involved in the transport of thyroxine (T4) and retinol-binding protein (RBP) in cerebrospinal fluid (CSF) and serum. TTR is secreted in the CSF by the epithelial cells of choroid plexus. The binding of [(125)I]TTR to cultured ependymoma cells which form the brain cerebrospinal barrier, was studied to determine whether these cells carry receptor(s) for TTR. TTR was bound by ependymoma cells in a time-dependent manner reaching equilibrium within 2 h. Scatchard analysis was consistent with a single class of high-affinity binding sites with a K(d) of approximately 18 nM. Saturable high-affinity binding of human TTR has previously been described in rat primary hepatocytes and human renal adenocarcinoma, neuroblastoma, hepatoma and astrocytoma cells, and also transformed lung cells. Endocytosis of fluorescent or biotinylated TTR was observed in ependymoma cells in cytoplasmic vesicles but TTR did not colocalize with clathrin in endocytic coated vesicles. Endocytosis of TTR was inhibited by high sucrose concentration (0.45 M). Finally, ligand blotting and chemical-linking experiments revealed the presence of a approximately 100 kDa putative TTR receptor on the ependymoma cell membrane. Receptor binding of TTR provides a potential mechanism for the delivery of T4 within the central nervous system.
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PMID:Receptor-mediated endocytosis of transthyretin by ependymoma cells. 1086 17

Point mutations in the human plasma protein transthyretin are associated with the neurological disorder familial amyloidosis with polyneuropathy type 1. The disease is characterized by amyloid fibril deposits causing damage at the site of deposition. Substitution of two amino acids in the hydrophobic core of transthyretin lead to a mutant that was very prone to form amyloid. In addition, this mutant has also been shown to induce a toxic response on a neuroblastoma cell line. Renaturation of the transthyretin mutant at low temperature facilitated the isolation of an amyloid-forming intermediate state having the apparent size of a dimer. Increasing the temperature effectively enhanced the rate of interconversion from a partly denatured protein to mature amyloid. Using circular dichroism the beta-sheet content of the formed mature fibrils was significantly lower than that of the native fold of transthyretin. Morphology studies using electron microscopy also indicated a temperature-dependent transformation from amorphous aggregates toward mature amyloid fibrils. In addition, 1-anilino-8-naphtalenesulfonate fluorescence studies suggested the loss of the thyroxin-binding channel within both the isolated intermediate and the mature fibrils.
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PMID:Capture of a dimeric intermediate during transthyretin amyloid formation. 1151 7

In diseases like Alzheimer's disease and familial amyloidotic polyneuropathy (FAP) amyloid deposits co-localize with areas of neurodegeneration. FAP is associated with mutations of the plasma protein transthyretin (TTR). We can here show an apoptotic effect of amyloidogenic mutants of TTR on a human neuroblastoma cell line. Toxicity could be blocked by catalase indicating a free oxygen radical dependent mechanism. The toxic effect was dependent on the state of aggregation and unexpectedly mature fibrils from FAP-patients who failed to exert an apoptotic response. Morphological studies revealed a correlation between toxicity and the presence of immature amyloid. Thus, we can show that toxicity is associated with early stages of fibril formation and propose that mature full-length fibrils represent an inert end stage, which might serve as a rescue mechanism.
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PMID:Only amyloidogenic intermediates of transthyretin induce apoptosis. 1205 11

Familial amyloidotic polyneuropathy is a hereditary autosomal-dominant disease in which the deposited transthyretin fibrils are derived from amyloidogenic mutation. We investigated structure and stability of a human Ser112Ile transthyretin variant and showed that the Ser112Ile variant exists as a dimer having nonnative tertiary structure at physiological pH. In addition, the dimeric Ser112Ile assembles into a spherical aggregate and exerts cytotoxicity in a human neuroblastoma cell line. Our results suggest the importance of an unstable dimeric structure in forming spherical aggregates that will induce cell death.
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PMID:Dimeric transthyretin variant assembles into spherical neurotoxins. 1573 38

Transthyretin (TTR) can deposit as amyloid in the peripheral nervous system and induce a peripheral neuropathy. We examined the mechanism of TTR amyloid neurotoxicity on SH-SY5Y neuroblastoma cells. Wild-type (WT) TTR and two amyloidogenic mutants (V30M and L55P) were expressed in Escherichia coli. Incubation (aging) of WT TTR at 37 degrees C for 1 week caused no significant aggregation. However, there was a significant increase in the extent of amyloid fibril formation after the amyloidogenic mutants had been aged. L55P TTR aggregated more readily than V30M TTR. Both amyloidogenic mutants were neurotoxic after aging. The order of neurotoxicity was as follows: L55P > V30M > WT. As binding of amyloid proteins to the plasma membrane may cause cytotoxicity, we studied the binding of TTR to a plasma membrane-enriched preparation from SH-SY5Y cells by surface plasmon resonance. All three forms bound to the plasma membrane through electrostatic interactions. The binding of the amyloidogenic mutants was increased by aging. The amount of binding correlated closely with the amount of aggregation and with the cytotoxicity of each form. As membrane fluidity can influence cell viability, we also examined the effect of TTR on membrane fluidity using a fluorescence anisotropy method. Binding of the amyloidogenic TTR mutants increased membrane fluidity, and once again, the order of potency was as follows: L55P > V30M > WT. These results demonstrate that TTR can bind to the plasma membrane and cause a change in membrane fluidity. Altered membrane fluidity may be the cause of the neurotoxicity.
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PMID:Binding of amyloidogenic transthyretin to the plasma membrane alters membrane fluidity and induces neurotoxicity. 1611 99

The deposition of transthyretin (TTR) amyloid in the PNS is a major pathological feature of familial amyloidotic polyneuropathy. The aim of the present study was to examine whether TTR could disrupt cytoplasmic Ca(2+) homeostasis and to determine the role of TTR aggregation in this process. The aggregation of amyloidogenic TTR was examined by solution turbidity, dynamic light scattering and atomic force microscopy. A nucleation-dependent polymerization process was observed in which TTR formed low molecular weight aggregates (oligomers < 100 nm in diameter) before the appearance of mature fibrils. TTR rapidly induced an increase in the concentration of intracellular Ca(2+) ([Ca(2+)](i)) when applied to SH-SY5Y human neuroblastoma cells. The greatest effect on [Ca(2+)](i) was induced by a preparation that contained the highest concentration of TTR oligomers. The TTR-induced increase in [Ca(2+)](i) was due to an influx of extracellular Ca(2+), mainly via L- and N-type voltage-gated calcium channels (VGCCs). These results suggest that increasing [Ca(2+)](i) via VGCCs may be an important early event which contributes to TTR-induced cytotoxicity, and that TTR oligomers, rather than mature fibrils, may be the major cytotoxic form of TTR.
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PMID:Transthyretin oligomers induce calcium influx via voltage-gated calcium channels. 1707 59

The heat shock proteins (Hsps) have been implicated in a variety of neurodegenerative diseases in which the underlying pathology is protein aggregation. Here, we studied the heat shock response in familial amyloidotic polyneuropathy (FAP), a neurodegenerative disease caused by aggregation and extracellular tissue deposition of mutated transthyretin (TTR). We observed greater expression of Hsp27 and Hsp70 related to the presence of extracellular TTR aggregates in human FAP nerve, skin, and salivary gland biopsies than in normal controls. Transthyretin aggregates did not colocalize with Hsp, suggesting that extracellular TTR tissue deposits induce an intracellular stress response. Moreover, the heat shock transcription factor 1 was upregulated and localized to nuclei in affected tissues. Transgenic mice expressing the V30M mutant form of TTR similarly showed the presence of TTR deposits, induced activation of heat shock transcription factor 1, and increased synthesis of Hsp. Furthermore, the addition of toxic TTR aggregates to cultures of human and rodent neuroblastoma cell lines induced upregulation of Hsp70 and Hsp27. Taken together, these novel findings suggest new avenues for research on pathogenic mechanisms in FAP and identify the heat shock response as a potential pharmacologic treatment target for FAP.
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PMID:Activation of the heat shock response in familial amyloidotic polyneuropathy. 1843 Dec 52

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