Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Immunocytochemical analyses revealed the presence and distribution of apolipoprotein E (apo E) in normal human brain tissue as well as in 77 human intracranial neoplasms. In normal brain tissues, the perikarya of astrocytes exhibited a strong positive reaction, whereas the Bergmann glia were stained to a moderate degree. However, no immunoreactivity was observed with neurons, oligodendrocytes, ependymal cells, and choroidal epithelium. Among the intracranial neoplasms, oligodendroglioma, choroid plexus papilloma, hemangioblastoma, primary malignant lymphoma, neurinoma, meningioma, pituitary adenoma, and craniopharyngioma were all negative. Immunoreactivity in the peripheral neuroblastoma was nil. However, the perikarya of astrocytomas and glioblastomas showed a positive reaction. Analyses on the degree of anaplasia and the amount of apo-E as an intensity of immunostaining showed a negative correlation. The astrocytic elements were stained in mixed oligoastrocytomas and medulloblastomas with glial differentiation. A few cases of ependymomas showed weak perikaryal immunostaining. Western blot analyses with anti-apo E antibody of a freshly prepared surgical specimen with astrocytomas revealed a single band with a molecular weight of approximately 37,000. The well differentiated cultured human astrocytoma cells secreted apo E into the medium. These lines of evidence suggest that apo E may serve as a potential marker specific for astrocytomas and glioblastomas, as well as an indicator of astrocytic tumor cell differentiation. The apo E localization in human brain tumors could be clinically relevant and diagnostically useful.
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PMID:Immunohistochemical localization of apolipoprotein E in human glial neoplasms. 339 6

DNA prepared from cell lines and transplanted tumors originating from five representative types of BKV-induced hamster tumors was examined for the presence of the BKV genome by analyzing DNA/DNA reassociation kinetics. BKV DNA sequences were detected in all cases. There were only a few (1--4) copies of BKV DNA per cell in one osteosarcoma and two ventricular tumors (one choroid plexus papilloma and one ependymoma), but there were multiple (up to 150) copies in one osteosarcoma, one ventricular tumor (choroid plexus papilloma), two insulinomas, one pineocytoma, and one cerebral neuroblastoma. In some cases the number of copies of the viral DNA differed among sister cell clones derived from the same primary tumor. Apparently some tumors contained nonintegrated free viral DNA besides the integrated BKV genome.
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PMID:Presence of viral DNA sequences in hamster tumors induced by BK virus, a human papovavirus. 626 Oct 96

In normal conditions, neuron-specific enolase (NSE) is histochemically demonstrable only in neurons and cells of the amine precursor uptake and decarboxylation (APUD) system. This has been found not to be true for neoplastic cells. Several types of CNS tumors, including glioblastoma, astrocytoma, oligodendroglioma, ependymoma, medulloblastoma, pineocytoma , meningioma, and choroid plexus papilloma, focally stained positively for NSE. Reactive astrocytes were also frequently positive. In the peripheral nervous system, neuroblastoma, ganglioneuroma, and paraganglioma stained positively for NSE. A number of non-APUD tumors were focally positive. These included schwannoma, carcinoma and fibroadenoma of the breast, renal cell carcinoma, giant cell tumor of the tendon sheath, and chordoma. Caution should be exercised in relying on the immunohistochemical demonstration of NSE as a diagnostic marker in those tumors that do not belong to the APUD cell system. It seems of little value as evidence of differentiation in CNS tumors.
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PMID:Immunohistochemical demonstration of neuron-specific enolase in neoplasms of the CNS and other tissues. 654 18

The karyotypes of 47 pediatric brain tumors (14 cerebellar pilocytic astrocytomas, six cerebral pilocytic astrocytomas, seven anaplastic astrocytomas and glioblastomas, nine medulloblastomas [PNETs], one cerebral neuroblastoma, four ependymomas, and seven miscellaneous other neoplasms) are presented. Most of the pilocytic astrocytomas and ependymomas had normal karyotypes. In contrast, the majority of the anaplastic astrocytomas-glioblastomas were abnormal. The abnormalities included losses and structural abnormalities of chromosomes 9, 13, and 17, and double minutes. There were no losses of chromosomes 10 and 19q or gains of chromosome 7, which are among the most common abnormalities of adult glioblastomas. The chromosomal abnormalities in the medulloblastomas were similar to those reported in the literature but less frequent. Four tumors (choroid plexus papilloma, meningioma, cerebral malignant rhabdoid tumor, and immature teratoma) had losses of chromosome 22.
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PMID:Chromosomal abnormalities in 47 pediatric brain tumors. 762 8

This is a comprehensive immunohistochemical study of selected archival tumors of the nervous system applying human anti-neuronal nuclear autoantibodies of types 1 and 2 (ANNA-1 and -2), serum markers of paraneoplastic syndromes associated primarily with small cell lung cancer (SCLC). Neither ANNA-1 nor ANNA-2 bound to glial tumors regardless of histological grade and subtype; instead they labeled neurons in overrun normal parenchyma. Central neurocytomas and the neuronal components of mixed glioneuronal tumors were also immunoreactive for both. In addition, varying proportions of tumor cells were stained in dysembryoplastic neuroepithelial tumor, subependymal giant cell astrocytoma (SEGA), tuber and neuroblastoma. All other tumors were nonreactive, namely choroid plexus papilloma, pituitary adenoma, pineocytoma, pheochromocytoma, thymic and pulmonary carcinoid, chordoma, meningioma, schwannoma and metastatic melanoma. SCLC was immunonegative for ANNA-1 and ANNA-2 in paraffin preparations, but displayed strong immunoreactivity for both in frozen sections: this discrepancy was not observed in other tumors studied. In conclusion, the human IgG autoantibodies ANNA-1 and ANNA-2 provide novel tools for studying the cytogenesis of tumors of the nervous system in that they permit the identification of both normal and neoplastic, poorly differentiated and small neuronal cells that may escape detection using commercially available anti-neuronal antibodies.
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PMID:Anti-neuronal nuclear autoantibodies, types 1 and 2: their utility in the study of tumors of the nervous system. 979 96

Insulin-like growth factor (IGF)-II is an important growth factor in development of the central nervous system. The purpose of this study was to evaluate expression of IGF-II and IGF receptor type 1 (IGFR1) in various pediatric brain tumors. Immunohistochemistry for IGF-II and IGFR1 was performed on 15 choroid plexus papillomas (CPPs) including 1 atypical CPP, 2 choroid plexus carcinomas (CPCs), 5 anaplastic ependymomas, 7 nonanaplastic ependymomas (simply referred to as "ependymoma"), 5 medulloblastomas, 1 cerebral neuroblastoma, and 1 atypical teratoid/rhabdoid tumor (ATRT) along with 10 non-neoplastic choroid plexus and 3 non-neoplastic ependymal linings. All non-neoplastic choroid plexus, CPPs, CPCs, anaplastic ependymomas, ATRT, 71% of ependymomas, and 67% of non-neoplastic ependymal linings showed cytoplasmic positivity for IGF-II, whereas all medulloblastomas and the cerebral neuroblastoma were negative for IGF-II. In addition to cytoplasmic positivity for IGFR1, membranous positivity was observed in 73% of CPPs, both CPCs, the ATRT, 22% of non-neoplastic choroid plexus, 80% of anaplastic ependymomas, and 29% of ependymomas, but not in any medulloblastoma, cerebral neuroblastoma, or non-neoplastic ependymal lining. IGF-II and IGFR1 may play roles in the pathogeneses of CPP, CPC, anaplastic ependymoma, ependymoma, and ATRT. Immunohistochemical testing for IGF-II and IGFR1 may be useful in differentiating ATRT, CPC, and anaplastic ependymoma from medulloblastoma and cerebral neuroblastoma.
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PMID:Comparative immunohistochemical study of insulin-like growth factor II and insulin-like growth factor receptor type 1 in pediatric brain tumors. 1120 Apr 87

Specialized cells transport vitamin C in its reduced form using sodium-dependent cotransporters (SVCT1 and SVCT2). Additionally, different cells transport the oxidized form of vitamin C, dehydroascorbic acid, through glucose transporters (GLUTs). We have proposed recently a model for vitamin C uptake that resolves the apparent contradiction that although only ascorbic acid is detectable in vivo, there are cells that transport only dehydroascorbic acid. We carried out a detailed kinetic analysis to compare the mechanisms of vitamin C uptake in normal human melanocytes, neurons isolated from brain cortex, hypothalamic ependymal-glial cells, and astrocytes. Uptake of ascorbic acid was also analyzed in the human oligodendroglioma cell line TC620, in human choroid plexus papilloma cells (HCPPC-1), and in the neuroblastoma cell line Neuro-2a. Melanocytes were used to carry out a detailed analysis of vitamin C uptake. Analysis of the transport data by the Lineweaver-Burk plot revealed the presence of one functional component (K(m) 20 microM) involved in ascorbic acid transport by melanocytes. Vitamin C sodium-dependent saturable uptake was also observed in neurons and hypothalamic tanycytes. We confirmed SVCT2 expression in neurons by in situ hybridization; however, SVCT2 expression was not detected in astrocytes in situ. Functional data indicate that astrocytes transport mainly dehydroascorbic acid, using the glucose transporter GLUT1. Our functional uptake analyses support the hypothesis that astrocytes are involved in vitamin C recycling in the nervous system. This recycling model may work as an efficient system for the salvage of vitamin C by avoiding the hydrolysis of dehydroascorbic acid produced by antioxidative protection.
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PMID:Vitamin C uptake and recycling among normal and tumor cells from the central nervous system. 1557 7

A cytohistological correlation with determination of accuracy rate of smear preparation result was done in a retrospective study of 306 cases of intracranial tumors. Cytomorphology of few new entities of CNS tumors are described. The cytological features and WHO grading of the tumors were described on smear preparation. The cases with discrepancy in cytological and histological diagnosis were reviewed again and a final possible diagnosis on smear preparation which should have been given is discussed. The clinical details like the age, sex, and site of the tumors were analyzed. The age range of the patients was from 3 years to 63 years with male:female ratio of 1.5:1. Of the total 306 cases, a cytohistological correlation was seen in 93% cases. Twenty-two (7.3%) cases showed discrepancy between the crush preparation diagnosis and final histopathological diagnosis. Majority of the tumors were located in the cerebral hemisphere (56%) and the most frequently diagnosed tumor was astrocytoma, in particular, pilocytic astrocytoma (18.5%) followed by meningioma (11.9%), medulloblastoma (7.3%), anaplastic oligodendroglioma (5%), ependymoma (4.3%), pituitary adenoma (3.3%), schwannoma (3.3%), etc. A few rarer tumors, in central nervous system like differentiating neuroblastoma, pineocytoma, atypical choroid plexus papilloma, piloxmyxoid astrocytoma, rosette forming glioneuronal tumor, etc. are also described, Smear/crush preparation is a very effective, simple, rapid and reliable technique for the diagnosis and WHO grading of central nervous system tumors. Diagnostic accuracy of cytology with final histopathological report is established with accuracy rate of 93%.
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PMID:Smear preparation of intracranial lesions: a retrospective study of 306 cases. 2176 76