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 cytotoxicities of 11 lupane series triterpenes against 3 human leukemias, 2 melanomas, 2 neuroblastomas and normal fibroblast cells were examined. Lupane triterpenes with a carbonyl group at C-17 (7-11) showed inhibitory effects on leukemia, melanoma and neuroblastoma cell growth. Lup-28-al-20(29)-en-3-one (8) markedly inhibited the cell growth of 3 leukemias to a greater extent than the other human cancers and normal lung fibroblast cells. The cytotoxicity profiles of 8 against human cancer cells showed that its cytotoxic effect against 3 lung cancer cell lines was strong and the cytotoxic effects against osteosarcoma, breast cancer and urinary bladder cancer cells were very weak. The morphological observations of leukemia nuclei and the gel electrophoresis analysis of DNA extracted from 8-treated leukemia cells revealed that 8 induced leukemia cell apoptosis. Furthermore, we investigated the cytotoxic effects of 8 on adriamycin (ADM)- and vincristine (VCR)-resistant K562 (K562/ADM and K562/VCR) cells. K562/ADM and K562/VCR cells showed greater resistance toward ADM and VCR when compared to parent K562 cells. However, 8 inhibited the drug-resistant K562 cell growth to the same extent as K562 cells by the induction of apoptosis.
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PMID:Anti-leukemia activities of Lup-28-al-20(29)-en-3-one, a lupane triterpene. 1269 74

Titan (formerly Trilex) is developing TriGem, a monoclonal antibody directed against I17, for the potential treatment of advanced cancers that express the GD2 ganglioside, including melanoma, small-cell lung cancer, neuroblastoma and sarcoma. Phase II trials of TriGem for use in advanced melanoma were ongoing by June 2002. TriGem also has potential for the treatment of psoriasis, for which phase II trials had begun by 1996.
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PMID:Technology evaluation: TriGem, Titan. 1277 13

RASSF1A is a recently identified 3p21.3 tumor suppressor gene. The high frequency of epigenetic inactivation of this gene in a wide range of human sporadic cancers including non-small cell lung cancer (NSCLC) and neuroblastoma suggests that RASSF1A inactivation is important for tumor development. Although little is known about the function of RASSF1A, preliminary data suggests that it may have multiple functions. To gain insight into RASSF1A functions in an unbiased manner, we have characterized the expression profile of a lung cancer cell line (A549) transfected with RASSF1A. Initially we demonstrated that transient expression of RASSF1A into the NSCLC cell line A549 induced G(1) cell cycle arrest, as measured by propidium iodide staining. Furthermore, annexin-V staining showed that RASSF1A-expressing cells had an increased sensitivity to staurosporine-induced apoptosis. We then screened a cDNA microarray containing more than 6000 probes to identify genes differentially regulated by RASSF1A. Sixty-six genes showed at least a 2-fold change in expression. Among these were many genes with relevance to tumorigenesis involved in transcription, cytoskeleton, signaling, cell cycle, cell adhesion, and apoptosis. For 22 genes we confirmed the microarray results by real-time RT-PCR and/or Northern blotting. In silico, we were able to confirm the majority of these genes in other NSCLC cell lines using published data on gene expression profiles. Furthermore, we confirmed 10 genes at the RNA level in two neuroblastoma cell lines, indicating that these RASSF1A target genes have relevance in non-lung cell backgrounds. Protein analysis of six genes (ETS2, Cyclin D3, CDH2, DAPK1, TXN, and CTSL) showed that the changes induced by RASSF1A at the RNA level correlated with changes in protein expression in both non-small cell lung cancer and neuroblastoma cell lines. Finally, we have used a transient assay to demonstrate the induction of CDH2 and TGM2 by RASSF1A in NSCLC cell lines. We have identified several novel targets for RASSF1A tumor suppressor gene both at the RNA and the protein levels in two different cellular backgrounds. The identified targets are involved in diverse cellular processes; this should help toward understanding mechanisms that contribute to RASSF1A biological activity.
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PMID:Identification of novel gene expression targets for the Ras association domain family 1 (RASSF1A) tumor suppressor gene in non-small cell lung cancer and neuroblastoma. 1450 Mar 66

p73 gene is a new member of the tumor suppressor gene p53 family. They are similar in the structure and function of the coding protein, but they also have notable distinctions in other aspects. Many studies have shown that the abnormal p73 gene is associated with neuroblastoma, malignant melanoma, prostatic carcinoma, and lung cancer, et al. Recently, many studies have demonstrated that p73 gene may involve the occurrence and development of a portion of the digestive system carcinoma. This review summarized the present conditions of the p73 gene and its correlation with the occurrence, development, prognosis, and expression in the digestive system carcinoma. We suggested that the further study about the p73 gene may be helpful to recognize the nature of the carcinoma and bring wish to overcome it finally.
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PMID:[Study progress of p73 gene in digestive system carcinoma]. 1472 Mar 84

A subset of stem cells, termed the "side population" (SP), has been identified in several tissues in mammalian species. These cells maintain a high efflux capability for antimitotic drugs. We have investigated whether functionally equivalent stem cells also may be detected in human cancers. We initially examined primary tumor cells from 23 patients with neuroblastoma and cell lines derived from a range of other tumors. A distinct SP was found in neuroblastoma cells from 15 of 23 patients (65%). The SP was capable of sustained expansion ex vivo and showed evidence for asymmetric division, generating both SP and non-SP progeny. These cells also expressed high levels of ABCG2 and ABCA3 transporter genes and had a greater capacity to expel cytotoxic drugs, such as mitoxantrone, resulting in better survival. A SP also was detected in breast cancer, lung cancer, and glioblastoma cell lines, suggesting that this phenotype defines a class of cancer stem cells with inherently high resistance to chemotherapeutic agents that should be targeted during the treatment of malignant disease.
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PMID:A distinct "side population" of cells with high drug efflux capacity in human tumor cells. 1538 73

p73, the homologue of p53, is a nuclear protein whose ectopic expression, in p53+/+ and p53-/- cells, recapitulates the most well-characterized p53 effects, such as growth arrest, apoptosis and differentiation. Unlike p53, which is mutated in half of human cancers, p73 is rarely mutated. However, altered expression of the p73 gene has been reported in neuroblastoma, lung cancer, prostate cancer and renal cell carcinoma. To investigate the potential involvement of p73 in acute myeloid leukemias (AMLs), we analyzed 71 samples from AML patients for the expression pattern of N-terminal transactivation-p73alpha (TA-p73alpha), its spliced isoforms and N-terminal-deleted-p73 transcripts (DeltaN-p73). We detected p73 gene expression in AML irrespective of FAB (French-American-British) subtypes. Notably, the analysis of DeltaN-p73 expression, which has been reported to inactivate both p53 and p73 antitumor effects, revealed a rather peculiar pattern. In fact, DeltaN-p73 transcript and protein were detectable in 27/28 (96.4%) cases of M0, M1, M2, M4, M5 and M6 AML and in 13/41 (31.7%) cases of PML-RARalpha-positive M3 AML (P<0.01). Thus, the distinct gene expression profile of p73 further supports the notion that acute promyelocytic leukemia is a biologically different subset of AML.
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PMID:Analysis of p73 expression pattern in acute myeloid leukemias: lack of DeltaN-p73 expression is a frequent feature of acute promyelocytic leukemia. 1538 38

There has been considerable debate about the relationship between epilepsy and cancer, in particular whether the incidence of cancer is increased in people with epilepsy and whether antiepileptic drugs promote or protect against cancer. We review available evidence from animal experiments, genotoxicity studies and clinico-epidemiological observations, and discuss proposed mechanisms underlying the association between epilepsy and cancer. A carcinoma-promoting effect has been seen unequivocally in rodent models for phenobarbital and phenytoin; phenobarbital promoted liver tumours and phenytoin caused lymphoid cell and liver tumours in rats. Early human epidemiological studies found an association between phenobarbital and hepatocellular carcinoma, and several subsequent studies suggested an association with lung cancer. An association with brain tumours has also been demonstrated. Phenytoin has been causally implicated in three human cancers: lymphoma, myeloma and neuroblastoma, the latter specifically in the setting of foetal hydantoin syndrome. However, despite considerable long-term pharmaco-epidemiological data being available for both antiepileptic drugs, evidence for human carcinogenicity is not consistent and both are considered only possibly carcinogenic to humans. Valproate, however, has been found to exert an antiproliferative effect on certain cancer cell lines both in vitro and in vivo. A corresponding cancer-suppressive effect has not been studied in human epidemiological studies, though there are now preliminary reports of the use of valproate in human haematological and solid tumours. The anticancer activity of valproate appears to be driven by histone deacetylase inhibition and to be independent of hormone or multidrug protein resistance dependent mechanisms. The newer antiepileptic drugs appear to be safe, as no carcinogenicity has been demonstrated either during regulatory testing or in post-marketing surveillance. Nevertheless, the subject of cancers and epilepsy constitutes a promising agenda for clinical and experimental research in the future.
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PMID:Cancer risk in people with epilepsy: the role of antiepileptic drugs. 1557 65

The search for new structures in tumors by genomics and proteomics methods is a major goal in tumor biology and may lead to the detection of markers or antigens for the generation of tumor vaccines. The aim of this study was to identify proteins that have been predicted so far based upon their nucleic acid sequence only or show poor identity to known proteins in tumor cell lines. Cell lines of neuroblastoma, colorectal, cervix carcinoma, adenocarcinoma of the ovary, lung and breast cancer, promyelocytic leukaemia, rhabdomyosarcoma, osteosarcoma and malignant melanoma were used. Cell lysates were run on 2D gel electrophoresis with subsequent in-gel digestion and MALDI-TOF-TOF analysis. A series of 10 hypothetical proteins (HPs) were observed and three of these proteins, hypothetical protein (Q9BTE6), CGI-83 protein (Q9Y392) and similar to CG11334 (Q9BV20), were so far described in tumors exclusively. The other seven proteins were already detected at the transcriptional level in normal and tumor cell lines or tissues. In conclusion, the three HPs observed in lung cancer and malignant melanoma may be candidates for development of tumor markers and generation of tumor vaccines.
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PMID:Detection of hypothetical proteins in 10 individual human tumor cell lines. 1568 Feb 40

Genetic alterations occurring on human chromosome arm 1p are common in many types of cancer including lung, breast, neuroblastoma, pheochromocytoma, and colorectal. The identification of tumour suppressors and oncogenes on this arm has been limited by the low resolution of current technologies for fine mapping. In order to identify genetic alterations on 1p in small-cell lung carcinoma, we developed a new resource for fine mapping segmental DNA copy number alterations. We have constructed an array of 642 ordered and fingerprint-verified bacterial artificial chromosome clones spanning the 120 megabase (Mb) 1p arm from 1p11.2 to p36.33. The 1p arm of 15 small-cell lung cancer cell lines was analysed at sub-Mb resolution using this arm-specific array. Among the genetic alterations identified, two regions of recurrent amplification emerged. They were detected in at least 45% of the samples: a 580 kb region at 1p34.2-p34.3 and a 270 kb region at 1p11.2. We further defined the potential importance of these genomic amplifications by analysing the RNA expression of the genes in these regions with Affymetrix oligonucleotide arrays and semiquantitative reverse transcriptase-polymerase chain reaction. Our data revealed overexpression of the genes HEYL, HPCAL4, BMP8, IPT, and RLF, coinciding with genomic amplification.
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PMID:Genomic and gene expression profiling of minute alterations of chromosome arm 1p in small-cell lung carcinoma cells. 1578 53

Ranpirnase [Onconase] is an amphibian oocyte/early embryo ribonuclease (RNase) of 105 amino acids in length that is capable of controlling tumour growth by degrading RNA within cancer cells, resulting in inhibition of protein synthesis and arresting mitosis in G(1 )phase. It represents the first successful isolation, purification and characterisation of the oocytic/early embryonic factor that is capable of controlling cell growth activities of the early embryonic tissues. Alfacell Corporation is currently conducting clinical trials of ranpirnase in patients with unresectable malignant mesothelioma and non-small-cell lung cancer. The company may initiate phase II clinical trials in breast cancer and oesophageal cancer in 2006. Alfacell expanded a research agreement with the National Cancer Institute in September 2002, allowing the NCI to examine the effects of ranpirnase as a radiation enhancer. However, investigation in this use of ranpirnase now appears to be discontinued. Alfacell is conducting a confirmatory phase IIIb registration trial of ranpirnase plus doxorubicin versus doxorubicin alone in more than 360 patients with unresectable malignant mesothelioma, and will assess survival as the primary endpoint. The targeted treatment group in this trial represents 90% of malignant mesothelioma patients at the time of diagnosis. The trial is being conducted in the US, Canada, Poland, Italy, Germany, Australia, New Zealand, Russia, Romania, Mexico and Brazil. In April 2006, a total of 210 events (patient deaths) was reached, representing two-thirds of the required events for the study. Results from the protocol-specified first interim analysis based on one-third of the required events have been reported and the company has the option to conduct a second interim analysis of the data at any point after 210 events. A final analysis will be undertaken at 316 events. Alfacell completed a phase III trial of single-agent ranpirnase in patients with unresectable malignant mesothelioma in April 1999. The efficacy of ranpirnase was compared with that of doxorubicin (head-to-head). The primary objectives were overall survival, progression-free survival and quality of life. In preclinical studies, ranpirnase demonstrated significant activity against neuroblastoma, rhabdomyosarcoma and chemotherapy-resistant variants of these cancer cells. Development for these indications has been discontinued. Preclinical investigations conducted by Alfacell showed synergistic antitumour effects between ranpirnase and proteasome inhibitors. However, development is this area has been discontinued. Alfacell announced in May 2003 that it would be providing ranpirnase to the federal severe acute respiratory syndrome (SARS) testing programme for evaluation against the human coronavirus implicated in the disease. No further development has been reported. Alfacell has received nine US and four European patents for ranpirnase. Patents issued in the US range from the 1996-issued patent (No. 5 559 212) covering the amino acid sequence of ranpirnase, to the patent (No. 6 175 003 B1) issued in January 2001 protecting the gene sequences of the compound plus another genetically engineered variant, effectively protecting the company's proprietary technology. In August 2002, Alfacell received a US patent (No. 6 423 515 B1) entitled 'Methods of Making Nucleic Acids Encoding Ribonucleases'. This patent is effective until 2020.
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PMID:Ranpirnase: amphibian ribonuclease A, P-30 protein-alfacell. 1732 10

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