UMLS:C0684249 - FACTA Search

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Query: UMLS:C0684249 (lung carcinoma)
23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The secretion of insulin-like growth-factor-binding proteins (IGFBPs) and expression of the genes encoding IGFBP-1, IGFBP-2 and IGFBP-3 have been studied in a panel of cell lines derived from breast carcinomas, Wilms' tumour, neuroblastoma, retinoblastoma, colon carcinoma, liver adenocarcinoma, Burkitt's lymphoma and a non-small-cell lung carcinoma. All cell lines, with the exception of the Burkitt's lymphoma cell line, secreted IGFBPs, as detected by affinity labelling. A 34-kDa BP was present in the conditioned media of all IGFBP-secreting cell lines, whereas BPs ranging from 18 kDa to 53 kDa were variably secreted. All IGFBP-secreting cell lines expressed the IGFBP-2 gene as determined by Northern blot analysis. The Wilms' tumour, the neuroblastoma and the retinoblastoma cell line expressed the IGFBP-2 gene only. All other cell lines, with the exception of the Burkitt's lymphoma, expressed the IGFBP-2 gene and, in addition, either the IGFBP-1 gene and/or the IGFBP-3 gene. IGFBP-1 gene expression could be detected by reverse transcriptase polymerase chain reaction only. IGFBP-3 gene expression was detected by Northern blot analysis, but transcripts were less abundant than IGFBP-2 mRNAs. These findings indicate that the expression of multiple BP genes and the secretion of BPs may be a common property of tumour cells.
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PMID:Insulin-like growth-factor-binding protein gene expression and protein production by human tumour cell lines. 137 87

N-myc expression has been reported in neuroblastoma, retinoblastoma and small cell lung carcinoma. Increased expression associated with gene amplification in neuroblastoma correlates with disease stage and prognosis. N-myc expression has been observed in diverse murine tissues during early stages of development with loss of expression in later stages. Abelson murine leukemia virus (A-MuLV)-transformed pre-B cells express N-myc, whereas mature B cells do not. To determine whether human B-lymphocyte precursors also have increased N-myc expression, we extracted DNA and RNA from representative cell lines, prepared Southern and Northern blots and examined them with the N-myc probe, pNB-1. RNA from the following B-cell developmental stages were examined. One null, 1 pre-pre-B, 3 pre-B (including pre-B-lymphoblastic leukemia, a poor prognostic category) and 5 mature B. Neuroblastoma cells and tissues served as positive controls; negative controls included human muscle, placenta, epithelial cell lines, monocytic, promyelocytic, and T-cell lines. N-myc expression was detected in neuroblastoma cells, but in none of the mature human B or B-lymphocyte precursor cells. Additional immunocytochemical studies performed for N-myc nuclear protein likewise failed to detect this gene product. We conclude that human pre-B cells, unlike murine B-cell precursors, do not express increased levels of N-myc RNA. Expression of this oncogene in human neoplastic B cells does not appear to correlate with developmental stage or prognostic group.
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PMID:Human B-lymphocyte precursors do not express the N-myc gene. 157 Oct 96

Using the hydroxylamine-osmium tetroxide (HOT) technique, we have identified a constitutional point mutation in the retinoblastoma susceptibility gene (RB1) which segregates with the expression of retinoblastoma in five affected family members. One member developed a second primary tumor, a small-cell lung carcinoma (SCLC), which metastasized to the liver. Analysis of liver tumour DNA revealed homozygosity for the constitutional mutation, a G----A transition at the fifth base of intron 21, resulting in the excision of exon 21 from the mRNA. This is the first demonstration of homozygotization of a constitutional RB mutation in a metastatic second primary tumour and underlines the usefulness of the HOT technique for identification of mutations of the RB1 gene.
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PMID:A familial RB1 mutation detected by the HOT technique is homozygous in a second primary neoplasm. 166 95

Studies of mutated retinoblastoma (RB) proteins in human tumor cells potentially reveal regions of the normal RB gene product that are required for its cancer suppression function. We here characterize a mutated RB protein of Mr 104,000 (p104) from a primary small-cell lung carcinoma. Unlike normal RB protein (pp110RB), p104 was unphosphorylated and unable to bind T antigen of SV40 both in vivo and in vitro. On the other hand, nuclear localization and DNA binding activity were preserved in the mutated protein. p104 was immunoprecipitable with four separate polyclonal antibodies recognizing different epitopes of the RB polypeptide, suggesting the presence of most exons in their correct reading frame. Following reverse transcription and in vitro amplification, RB mRNA from this tumor was shown to lack nucleotides encoded by exon 16. Analysis of genomic DNA from this tumor showed that exon 16 and its flanking splice donor and acceptor sequences were present and entirely normal; however, a 43-base pair (bp) region containing the splice donor site of intron 15 was deleted instead. Exon 15 was joined directly to exon 17 during mRNA processing via a cryptic splice donor site; exon 16 was presumably skipped because the preceding mutated intron was of insufficient length (less than 80 bp) for normal RB mRNA processing. These results demonstrate that loss of a single small exon disrupts several important biochemical properties of RB protein. In addition, sequence features of the 43-bp depletion suggest involvement of a novel deletional mechanism.
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PMID:Deletion of a splice donor site ablates expression of the following exon and produces an unphosphorylated RB protein unable to bind SV40 T antigen. 196 74

Combined use of a simple, sensitive method of DNA analysis of nucleotide substitutions, namely, single-strand conformation polymorphism analysis of polymerase chain reaction products (PCR-SSCP), and the reverse transcriptase reaction (RT) is an effective method for mRNA analysis. We used this RT-PCR-SSCP method to detect abnormal retinoblastoma (RB) gene transcripts in human tumor cell lines. Results showed the presence of two types of RB gene transcripts in a giant cell lung carcinoma cell line Lu65: a minor mRNA species with a base substitution that created a stop codon in the nucleotide sequence corresponding to exon 2 of the gene, and a major species of mRNA without the nucleotide sequence corresponding to that of exon 2. PCR-SSCP analysis of the genomic DNA also revealed that Lu65 cells contained the mutated RB allele, but not the normal allele. These results suggested that in Lu65 cells, both RB alleles were inactivated. The transcript without the exon 2 sequence, probably due to alternative splicing, was also found in all the other human cells examined, as a very minor species.
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PMID:Inactivation of the retinoblastoma gene in a human lung carcinoma cell line detected by single-strand conformation polymorphism analysis of the polymerase chain reaction product of cDNA. 199 44

Loss of heterozygosity for chromosome 13q including the RB locus is a common genetic alteration in small-cell lung carcinoma (SCLC) as well as in retinoblastoma. We examined the RB cDNA sequences of exon 13 to 18 and exon 19 to 23 in 9 SCLC cell lines to detect mutations which cause inactivation of the remaining allele of the RB gene. Internal deletions of RB cDNA were observed in 3 of the 9 SCLC cell lines. In the Lu-24 cell line, a 114 base pairs (bp) deletion corresponding to exon 22 was due to abnormal splicing, which probably resulted from a two-base mutation within genomic exon 22, and aberrant 105 kilodaltons RB protein was detected by immunoprecipitation analysis. A base pair deletion within exon 20 in the Lu-135 cell line and a 1 bp deletion within exon 23 in the Lu-141 cell line were due to the deletions of the corresponding genomic DNA, and each deletion resulted in formation of a premature termination codon. These results indicate that both alleles of the RB genes are inactivated in SCLC by several different mechanisms, including small deletion, mutation and chromosomal loss.
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PMID:Variable mutations of the RB gene in small-cell lung carcinoma. 217 83

We have used polyclonal anti-synthetic peptide serum to study the role of retinoblastoma gene (RB) inactivation in a variety of human tumor cell lines. Our analysis indicates that inactivation of the RB protein, p105-Rb, is universal in retinoblastoma cells, vindicating the predictions of the Knudson "two-hit" hypothesis. In addition, our analysis has shown that inactivations of the RB gene are nearly as frequent in a more common human tumor, small cell lung carcinoma. One-third of bladder carcinomas surveyed also carry altered or absent p105-Rb. Other human tumors by contrast demonstrate only infrequent inactivation of the RB gene. These results suggest that inactivation of the RB gene is a critical step in the pathogenesis of a subset of human tumors.
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PMID:Frequent inactivation of the retinoblastoma anti-oncogene is restricted to a subset of human tumor cells. 218 49

Most naturally occurring mutants of the retinoblastoma (RB) protein contain large deletions or truncations. The small cell lung carcinoma cell line H209 contains a normal-sized but unphosphorylated RB protein (Hensel et al., Cancer Res., 50: 3067-3072, 1990), which fails to form a complex with SV40 T antigen, suggesting that the RB gene of H209 may contain a subtle mutation. To define this mutation, the RB complementary DNA and genomic DNA were sequenced, revealing a point mutation in exon 21 that changed a G to a T. This results in an amino acid substitution of a Phe for Cys706. The mutant RB complementary DNA was used as a template for in vitro transcription and translation to synthesize the mutated protein. The resulting protein failed to bind to SV40 T antigen, demonstrating that a single missense mutation of the RB gene led to the complete inactivation of the ability of the RB protein to bind T antigen.
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PMID:A single Cys706 to Phe substitution in the retinoblastoma protein causes the loss of binding to SV40 T antigen. 228 78

The myc family of cellular oncogenes contains three known members. The N-myc and c-myc genes have 5'-noncoding exons, strikingly homologous coding regions, and display similar oncogenic potential in an in vitro transformation assay. The L-myc gene is less well characterized, but shows homology to N-myc and c-myc (ref. 6; also see below). c-myc is expressed in most dividing cells, and deregulated expression of this gene has been implicated in the development of many classes of tumours. In contrast, expression of N-myc has been found only in a restricted set of tumours, most of which show neural characteristics; these include human neuroblastoma, retinoblastoma and small cell lung carcinoma (SCLC). L-myc expression has so far been found only in SCLC. Activated N-myc and L-myc expression has been implicated in oncogenesis; for example, although N-myc expression has been found in all neuroblastomas tested, activated (greatly increased) N-myc expression, resulting from gene amplification, is correlated with progression of the tumour. We now report that high-level expression of N- and L-myc is very restricted with respect to tissue and stage in the developing mouse, while that of c-myc is more generalized. Furthermore, we demonstrate that N-myc is not simply a neuroectoderm-specific gene; both N- and L-myc seem to be involved in the early stages of multiple differentiation pathways. Our findings suggest that differential myc gene expression has a role in mammalian development and that the normal expression patterns of these genes generally predict the types of tumours in which they are expressed or activated.
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PMID:Differential expression of myc family genes during murine development. 241 62

A class of cellular genes in which loss-of-function mutations are tumorigenic has been proposed. Such genes would normally act to suppress the cancer phenotype at the cellular or organism level. The gene determining susceptibility to hereditary retinoblastoma (RB) appears to operate in exactly this fashion, and is the first cancer suppressor gene to be molecularly cloned. The RB gene contains 27 exons dispersed over more than 200 kb and ubiquitously expresses a 4.7 kb mRNA. From sequence analysis of RB cDNA clones, the predicted RB protein has 928 amino acids. The RB protein is a nuclear phosphoprotein capable of binding to DNA and forming a complex with oncoproteins of several DNA tumor viruses. Consistent with its ubiquitous expression pattern, RB gene inactivation was found in many other cancers such as osteosarcoma, breast carcinoma, small cell lung carcinoma and prostate carcinoma. A cloned RB gene was introduced, via retrovirus-mediated gene transfer, into such tumor cells that have inactivated endogenous RB genes. Expression of the exogenous RB gene consistently suppressed their tumorigenicity in nude mice, suggesting that RB may act as a general cancer suppressor. In an attempt to address the potential cellular function of this gene, we have observed that RB protein phosphorylation oscillates with cell-cycle and the unphosphorylated form is present predominantly in the G0/G1 phase. Furthermore, when cells were induced to differentiate only the unphosphorylated form of RB could be detected, suggesting that RB protein was modulated through phosphorylation, may play an important role in these cellular functions. A hypothesis is proposed to explain how RB participates in cell proliferation and differentiation and its role in tumorigenesis.
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PMID:The molecular basis of cancer suppression by the retinoblastoma gene. 248 31

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