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)

The nerve growth factor receptor TrkA was initially isolated as a transforming oncogene, trk, in which most of the extracellular receptor part is replaced by the coding sequence for a tropomyosin-encoding gene. The impact that the identification of the first neurotrophin receptor has made on the entire field of developmental neurobiology cannot be overstated. Following a brief introduction to the biology of neurotrophins and their receptors, this review will focus on oncogenic Trk in human malignant disorders, discuss putative tumorigenic involvement of Trk family members in the childhood malignancy neuroblastoma, and point out potential neurotrophin-based treatment modalities for this and other neuroendocrine tumors.
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PMID:Neurotrophin receptors, tumor progression and tumor maturation. 889 38

In their previous studies the authors demonstrated that nerve growth factor-induced differentiation of neuroblastoma cell lines was closely related with nerve growth factor receptors and amplification of N-myc oncogenes. The authors have also successfully restored the nerve growth factor receptor expression in the cell lines which lacked expression of nerve growth factor receptors. In order to clearify the role of N-myc oncogenes during nerve growth factor-induced differentiation of neuroblastoma cell lines, a new retroviral vector was constructed to express antisense N-myc genes. This new vector contained a puromycin resistant gene, which allowed the authors to express another gene in the cell lines which had already been neomycin resistant.
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PMID:[Construction of a retroviral vector expressing antisense N-myc gene]. 938 99

The nerve growth factor receptor, TrkA, has a critical role in the survival, differentiation, and function of neurons in the peripheral and central nervous systems. Recent studies have demonstrated a strong correlation between abundant expression of TrkA and a favorable prognosis of the pediatric tumor, neuroblastoma. This correlation suggests that TrkA may actively promote growth arrest and differentiation of neuroblastoma tumor cells and may be an important therapeutic target in the treatment of this disease. In the present study, we have examined the mechanistic basis for TrkA gene expression in human neuroblastoma cells. Northern blotting and nuclear run-on analyses demonstrated that transcription is a primary determinant of both cell-specific and variable expression of the TrkA gene in neuroblastoma cell lines that express it to different degrees. Cell-specific and variable transcription in neuroblastoma cells was recapitulated by transient transfection of TrkA promoter-luciferase reporter constructs, and regulatory sequences mediating these processes were localized to a 138-base pair region lying just upstream of the transcription initiation region. This neuroblastoma regulatory region formed multiple DNA-protein complexes in gel shift assays that were highly enriched in neuroblastoma cells exhibiting abundant TrkA expression. Thus, TrkA-positive neuroblastoma cells are distinguished by differential expression of putative transcription factors that ultimately may serve as targets for up-regulating TrkA expression in tumors with poor prognosis.
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PMID:Proximal promoter sequences mediate cell-specific and elevated expression of the favorable prognosis marker TrkA in human neuroblastoma cells. 941 44

The basic histologic changes associated with the maturational sequences of neuroblastoma tumors are reviewed. The author describes a histopathologic classification system developed for distinguishing favorable and unfavorable prognoses, based on the combination of tumor morphology and patient's age at diagnosis. Also discussed are the results of recent analyses of the biologically significant relationship between histologic findings and molecular markers, such as amplification of the N-myc oncogene and expression of the nerve growth factor receptor gene. Clinical trials involving neuroblastoma tumors are briefly reviewed.
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PMID:Tumors of the neuroblastoma group. 942 Sep 30

It has recently been recognized that unbalanced translocations resulting in the gain of material from 17q are the most common chromosomal changes in neuroblastoma. These rearrangements are associated with established indicators of bad prognosis and poor patient survival. We have used 13 fluorescence in situ hybridization (FISH) probes to map 12 translocation breakpoints on 17q in 10 neuroblastoma cell lines, identifying at least seven different breakpoints, all localized within the proximal half of 17q (268-369 cR, 53-68 cM). These results suggest that the dosage of a gene, or genes, in 17q22-qter is responsible for the clinical effects of 17q gain, rather than the disruption of a specific gene. This region contains two genes, nm23-H1 and NGFR, already implicated in neuroblastoma biology.
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PMID:Molecular cytogenetic delineation of 17q translocation breakpoints in neuroblastoma cell lines. 973 14

The high-affinity nerve growth factor receptor corresponds to the tyrosine protein kinase encoded by the proto-oncogene trkA. Different findings suggest that nerve growth factor (NGF) can be operative in the growth modulation of tumor cell lines possessing high-affinity binding sites for this molecule. Using as immunizing material the SKNBE neuroblastoma cell line transfected with proto-trkA we produced a monoclonal antibody (MAb) able to recognize the high-affinity nerve growth factor receptor. The selected MAb, designated MGR12, is directed against an epitope present on the extracellular domain of the receptor since it showed reactivity on living trkA-expressing cells and was able to immunoprecipitate the proto-trkA molecule. The MGR12 MAb is directed against a non-functional epitope since it neither inhibited NGF binding nor induced receptor internalization. This new reagent appears to be an appropriate tool for analyzing the expression of high-affinity nerve growth factor receptor in tumors of different origin and for elucidating its involvement in tumor progression.
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PMID:Production of a monoclonal antibody directed against the high-affinity nerve growth factor receptor. 1039 25

Neurotrophins and retinoic acid have a critical role in the differentiation and the survival of neurons. All-trans-, 9-cis-retinoic acid (10(-6) M) or NGF (50-100 ng/ml) induced morphologic differentiation and inhibited cell growth in SH-SY5Y neuroblastoma cells after 7 days of culture. Continuous treatment of undifferentiated cells with all-trans- or 9-cis-retinoic (10(-6) M) did not induce apoptosis, whereas NGF-differentiated cells showed dramatic apoptosis after 2 to 4 days of retinoic acid treatment as evidenced by TUNEL reaction and flow cytometry analysis following propidium iodide staining. Addition of Ro41-5253 blocked all-trans-retinoic-induced apoptosis, suggesting that the apoptotic signaling pathway was mediated by RARs. The effects of all-trans- or 9-cis-retinoic acid on the expression of NGF receptors was evaluated using real-time fluorescence reverse transcription-PCR. A slight transient increase in the expression of p75(NGFR) mRNA was observed by 2 to 4 h after retinoid treatment of undifferentiated cells, whereas a larger increase in the expression of both TrkA and p75(NGFR) mRNA up to threefold the basal level, was observed by 2 to 6 h after retinoid treatment of NGF-differentiated cells. Our results suggest that NGF-differentiated cells may be more susceptible to retinoid-induced apoptosis than undifferentiated cells.
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PMID:Real time RT-PCR shows correlation between retinoid-induced apoptosis and NGF-R mRNA levels. 1172 96

beta-Amyloid precursor protein (APP) is a widely expressed transmembrane protein of unknown function that is involved in the pathogenesis of Alzheimer's disease. The cytoplasmic tail of APP interacts with phosphotyrosine binding (PTB) domain containing proteins (Fe65, X11, mDab-1, and JIP-1) and may modulate gene expression and apoptosis. We now identify Shc A and Shc C, PTB-containing adapter proteins that signal to cellular differentiation and survival pathways, as novel APP-interacting proteins. The APP cytoplasmic tail contains a PTB-binding motif (Y(682)ENPTY(687)) that, when phosphorylated on Tyr(682), precipitated the PTB domain of Shc A and Shc C, as well as endogenous full-length Shc A. APP and Shc C were physically associated in adult mouse brain homogenates. Increase in phosphorylation of APP by overexpression of the nerve growth factor receptor Trk A in 293T cells promoted the interaction of transfected APP and endogenous Shc A. Pervanadate treatment of N2a neuroblastoma cells resulted in tyrosine phosphorylation and association of endogenous APP and Shc A. Thus, APP and Shc proteins interact in vitro, in cells, and in the mouse brain. Tyrosine phosphorylation of APP may promote the interaction with Shc proteins.
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PMID:Tyrosine phosphorylation of the beta-amyloid precursor protein cytoplasmic tail promotes interaction with Shc. 1187 20

The immunohistochemical localization of nerve growth factor receptor (NGFR)-high-affinity NGFR (trk A) and low-affinity NGFR (LNGFR)-was investigated in 23 neuroblastoma group tumors, 18 pheochromocytomas, 2 mixed neuroendocrine-neural tumors, and 16 retinoblastomas. trk A was expressed in the tumor cells of all neuroblastomas, pheochromocytomas, and retinoblastomas. Immunoreactive intensity was especially strong in the larger ganglionic tumor cells of ganglioneuroblastoma and ganglioneuroma. Messenger RNA (mRNA) of trk A was also strongly expressed in the ganglionic cells of ganglioneuroblastomas and chromaffin cells of pheochromocytomas by in situ hybridization method. LNGFR was negative in the tumor cells of neuroblastoma; however, it showed strong immunoreactivity in ganglionic tumor cells and Schwann cells of ganglioneuroblastoma/ganglioneuroma, and sustentacular cells of pheochromocytoma. Although normal retina expressed both trk A and LNG FR, tumor cells of retinoblastoma were positive for only trk A but negative for LNGFR. Such differences in the expression of trk A and LNGFR may reflect neuronglial interactions in the survival and maturation of the sympathetic nerves, retina, and tumors in these tissues.
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PMID:Tissue Localization of Nerve Growth Factor Receptors: trk A and Low-Affinity Nerve Growth Factor Receptor in Neuroblastoma, Pheochromocytoma, and Retinoblastoma. 1211 99

Neuroblastoma (NB) tumors with abundant schwannian stroma have a differentiated phenotype, low vascularity, and are associated with a favorable prognosis. These observations suggest that cross-talk between Schwann cells and neuroblasts may influence tumor biology. To test this hypothesis, we developed a novel NB xenograft model with infiltrating mouse Schwann cells. Human SMS-KCNR NB cells were injected intrafascicularly (sciatic nerve-engrafted NB, n = 19) or outside the sciatic nerve (control, n = 12). Xenografts were harvested 4 to 12 weeks after tumor cell inoculation for histological studies. Schwann cells were immunostained with S-100 and species-specific p75(NGFR), major histocompatibility complex, and human leukocyte antigen antibodies. The number of proliferating cells, infiltrating Schwann cells, apoptotic cells, differentiated neuroblasts, and blood vessels in the sciatic nerve-engrafted NB tumors were compared to controls. Significantly more Schwann cells were detected in the sciatic nerve-engrafted NB xenografts than controls (P < 0.001). The infiltrating Schwann cells were S-100-positive and reacted with anti-mouse major histocompatibility complex class Ib and p75(NGFR) but not anti-human p75(NGFR) and human leukocyte antigen class I antibodies. The sciatic nerve-engrafted tumors also had lower numbers of proliferating neuroblasts, higher numbers of differentiated neuroblasts and apoptotic cells, and decreased vascular density compared to controls. Our results indicate that infiltrating Schwann cells of mouse origin are capable of promoting human neuroblast differentiation, inducing apoptosis, and inhibiting proliferation and angiogenesis in vivo.
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PMID:Cross-talk between Schwann cells and neuroblasts influences the biology of neuroblastoma xenografts. 1574

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