UMLS:C0149925 - FACTA Search

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Query: UMLS:C0149925 (small cell lung cancer)
6,491 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The retinoblastoma gene product (RB protein) plays a key role in the progression of the cell cycle from G1 to S phase in normal and neoplastic cells. The activity of RB is regulated by phosphorylation and dephosphorylation with cell-cycle-dependent protein kinases. We investigated the effect of the protein kinase inhibitors, staurosporine and 7-hydroxy-staurosporine (UCN-01), on RB protein expression of N417 small cell lung cancer cells (absent RB), H209 small cell lung cancer cells (mutant RB), and Ma-31 non-small cell lung cancer cells (wild-type RB), using immunologic blotting. Staurosporine and UCN-01 each suppressed the growth of N417, H209 and Ma-31 cells in a dose-dependent manner in MTT assay. IC50 values of staurosporine for N417, H209 and Ma-31 cells were 54, 29 and 602 nM, respectively. IC50 values of UCN-01 for N417, H209 and Ma-31 cells were 737, 181 and 2,197 nM, respectively. Exposure to staurosporine and UCN-01 for 72 h each suppressed the level of expression and altered the ratio of phosphorylated/dephosphorylated RB protein (ppRB/pRB) of Ma-31 cells. Conversely, these agents increased the expression level of RB protein at concentrations less than IC50, and did not change phosphorylation status of mutant RB protein of H209 cells at the concentrations studied. A time course study demonstrated that exposure to the IC50 concentration of staurosporine for 48-72 h increased the ratio of ppRB/ pRB of Ma-31 cells, while exposure to the IC50 concentration of UCN-01 decreased that ratio. UCN-01 increased % cells in G2 + M phase and decreased % cells in S phase, while staurosporine increased % cells in G1 phase and decreased % cells in G2 + M phase. UCN-01 did not induce apoptosis (DNA content < 2 N) of Ma-31 cells, but staurosporine induced it. These findings suggest that the differing effects of staurosporine and UCN-01 on RB protein expression and cell cycle phases of lung cancer cells may explain their differing in vivo antitumor effect of staurosporine and UCN-01 despite their similar chemical structures.
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PMID:Differing effects of staurosporine and UCN-01 on RB protein phosphorylation and expression of lung cancer cell lines. 896 Jan 46

Group C adenovirus is latent in human tissues and can malignantly transform cells. The purpose of this study was to investigate the association between this virus and lung cancer. We investigated latent adenoviral infection using the nested polymerase chain reaction and in situ hybridization in transbronchial biopsy specimens from patients with small-cell lung cancer and non-small-cell lung cancer. The polymerase chain reaction was performed on DNA extracts with two sets of primers directed at a 261-base-pair target sequence of the E1A region of the adenoviral genome. In situ hybridization was performed on histological sections using DNA representing the entire adenovirus type 5 genome. E1A target DNA was present in 11 (31%) of 35 cases of small-cell lung cancer but in none of the 40 cases of non-small-cell lung cancer (P < 0.01). Of the 11 cases found positive by PCR, 8 were positive for adenovirus DNA by in situ hybridization. Adenovirus was prominent in tumor cells in 5 of the 8 cases, and in normal epithelial cells in the 3 remaining cases. Adenovirus DNA was not detected by in situ hybridization in specimens in which E1A DNA was not detected by the polymerase chain reaction. Small-cell lung cancer has mutations or deletions in the p53 and retinoblastoma genes more frequently than are found in non-small-cell lung cancer. Therefore, we speculate that adenovirus infection might participate in the pathogenesis of SCLC by producing mutation in these genes, rather than by inhibiting the function of these proteins.
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PMID:Detection of group C adenovirus DNA in small-cell lung cancer with the nested polymerase chain reaction. 926 May 89

The retinoblastoma gene product (RB protein), one of the tumor suppressor proteins has been found as wild-type in most non-small cell lung cancer (NSCLC) cells, usually showing multidrug chemoresistance. Recently, carboplatin (CBDCA) and etoposide (VP-16) have been introduced for the treatment of NSCLC as well as small cell lung cancer (SCLC). We examined the correlation of RB protein expression levels and chemosensitivities of a panel of NSCLC cell lines with wild-type RB for CBDCA and VP-16 in order to clarify the role of RB protein in chemoresistance of NSCLC cells. There was significant correlation between chemosensitivity and high level of RB protein expression (P=0.049 for VP-16, P=0.016 for CBDCA). We next examined the effect of VP-16 on RB protein status and cell cycle phases of two NSCLC cell lines (Ma-12, the most chemosensitive cell line; Ma-31, the most chemoresistant cell line). VP-16 suppressed RB protein expression level of Ma-12 cells but did not suppress that of Ma-31 cells, following 24 h exposure at 0.1-10 microM. And the alteration of phosphorylation status of Rb protein expression were quite different in these cells. After the treatment of VP-16, dephosphorylated RB protein became dominant in Ma-12 cells, but phosphorylated RB protein became dominant in Ma-31. High sensitive non-small lung cancer Ma-12 cells were accumulated in G2/M phases of the cell cycle. But no major changes were found in low sensitive non-small lung cancer Ma-31 cells. This shows that phosphorylation status of RB protein might be useful for the assessment for the sensitivity to VP-16 and for the cell cycle inhibition.
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PMID:RB protein status and chemosensitivity in non-small cell lung cancers. 946 77

The retinoblastoma protein (pRB), p16, and cyclin D1 are major components of the RB pathway, which controls the G1 checkpoint of the cell cycle. Proper regulation of this pathway is crucial for normal cell proliferation. Abnormal forms of these proteins have been found in various types of malignant tumours. In the present report, immunohistochemical techniques were applied to study the expression of pRB, p16, and cyclin D1 in 161 samples of primary small cell lung cancer (SCLC) and 20 samples of non-small cell lung cancer (NSCLC). While pRB and cyclin D1 staining was negative in 161 specimens of SCLC, expression of p16 was observed in 153 samples. In contrast to SCLC, 16 out of 20 NSCLC cases exhibited pRB expression and 15 showed cyclin D1 expression, but only very weak p16 staining was found in five samples. These observations could provide additional criteria for the distinction between SCLC and NSCLC. Furthermore, these findings, based on primary tissues, implicate different mechanisms in the tumourigenesis of SCLC and NSCLC.
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PMID:Expression of p16 and lack of pRB in primary small cell lung cancer. 1054 97

Small cell lung cancer (SCLC) is characterized by multiple genetic alterations that include inactivation of the retinoblastoma protein (Rb), the establishment of several autocrine loops including that induced by coexpression of stem cell factor (SCF) and Kit, and the ectopic expression and activation of Src family kinases. Previous studies have shown that Lck associates with, and becomes activated by, Kit after SCF stimulation of SCLC cells. In the present study, we have demonstrated that PP1, a pharmacological inhibitor of Src kinases, blocked SCF-mediated activation of mitogen-activated protein (MAP) kinase, but it also inhibited Kit activation. However, MAP kinase activation was more sensitive than Kit activation to the effects of PP1. Overexpression of Lck reduced the sensitivity of MAP kinase activation to PP1 without altering the sensitivity of Kit activation, which suggested a role for Lck in SCF-mediated MAP kinase activation. Inducible expression of a dominant negative Lck inhibited MAP kinase activation in a dose-dependent manner, which confirmed that Src family kinase activity is required for SCF-induced MAP kinase activation. The growth of cells that expressed dominant negative Lck was unaffected, however, despite the inhibition of MAP kinase. Growth was also unaffected by the inhibition of the MAP kinase pathway using PD 98059, but sensitivity to the MAP/extracellular signal-regulated kinase kinase inhibitor could be partially restored by expression of wild-type Rb. Therefore, MAP kinase activation seems to be dispensable for the growth of SCLC only in the absence of Rb expression. These data suggest that the SCF/Kit autocrine loop, through activation of Lck and subsequently MAP kinase, and the mutational inactivation of Rb contribute to the loss of G1-S phase checkpoint regulation during the pathogenesis of SCLC. Furthermore, the data demonstrate that, in established SCLC cell lines, proliferative signal transduction initiated by Kit is mediated by pathways other than the classic MAP kinase pathway.
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PMID:Src family kinase activity is required for Kit-mediated mitogen-activated protein (MAP) kinase activation, however loss of functional retinoblastoma protein makes MAP kinase activation unnecessary for growth of small cell lung cancer cells. 1091 97

The etiology of small cell lung cancer (SCLC) is strongly tied to cigarette smoking, and now there is considerable information concerning molecular abnormalities involved in the pathogenesis of SCLC. Autocrine growth factors such as neuroendocrine regulatory peptides (eg, bombesin/gastrin-releasing peptide) are prominent in SCLC. Dominant oncogenes of the Myc family are frequently overexpressed in both SCLC and non-small cell lung cancer (NSCLC), while the K-RAS oncogene is never mutated in SCLC but it is in 30% of NSCLCs. The most frequent genetic abnormalities involve tumor suppressor genes (TSGs). The TSG p53 is mutated in more than 90% of SCLCs and more than 50% of NSCLCs; the retinoblastoma TSG is inactivated in over 90% of SCLC but only 15% of NSCLCs, and p16, the other component of the retinoblastoma/p16 pathway, is almost never abnormal in SCLC but is inactivated in more than 50% of NSCLCs. The FHIT TSG is inactivated in 50% to 70% of all lung cancers. Recently, we completed a genome-wide allelotyping study using approximately 400 polymorphic markers distributed at around 10 cM resolution across the human genome comparing SCLCs and NSCLCs, looking for all possible TSG sites by loss of heterozygosity. We found that, on average, 17 loci showed loss of heterozygosity in individual SCLCs and 22 for NSCLC, with an average size of loss of 50 to 60 cM, and an average frequency of microsatellite abnormalities of five per tumor. There were 22 different "hot spots" for loss of heterozygosity, 13 with a preference for SCLC, seven for NSCLC, and two affecting both. This provides clear evidence on a genome-wide scale that SCLC and NSCLC differ significantly in the TSGs that are inactivated during their pathogenesis. Acquired hypermethylation of the promoter region of key genes has become one of the most common mechanisms that tumors use to inactivate the function of tumor suppressor and other genes. We recently completed a study of tumor-acquired promoter hypermethylation for nine genes (p16, DAPK, MGMT, GSTP1, RAR beta, FHIT, ECAD, p14ARF, and TIMP1). We found differences in the frequency of RAR beta methylation (70% for SCLC and 40% for NSCLCs). Finally, we looked at the bronchial epithelium accompanying SCLC and NSCLC for the occurrence of clonal alterations using precise laser capture microdissection with subsequent allelotyping for polymorphic markers. In NSCLC, we frequently find clones of cells with molecular abnormalities in histologically affected epithelium (eg, carcinoma in situ, dysplasia, hyperplasia) and occasionally in normal-appearing epithelium in the cases of current or former smokers. In SCLC these histologic preneoplastic changes were minimal. However, in studies of histologically normal respiratory epithelium, we found a several-fold increased rate of allele loss in SCLC compared with NSCLC patients. Thus, the smoking-damaged histologically normal epithelium associated with SCLC appeared genetically scrambled and has incurred significantly more damage than the epithelium accompanying NSCLCs. We conclude that SCLC and NSCLCs do not differ significantly in the number of genetic alterations that occur. However, SCLCs do differ significantly from NSCLCs in the specific genetic alterations that occur. In addition, smoking-damaged bronchial epithelium accompanying SCLCs appears to have undergone significantly more acquired genetic damage than that accompanying NSCLCs. Future studies need to identify the specific genes involved at these multiple sites and determine if these provide new tools for early molecular detection and monitoring of chemoprevention efforts, and serve as specific targets for developing new therapies. Semin Oncol 28 (suppl 4):3-13.
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PMID:Molecular genetics of small cell lung carcinoma. 1147 91

Previous studies have shown that MCR peptides possessing the retinoblastoma protein (RB) fragment LFYKKV as the active site are able to inhibit the proliferation of human non-small cell lung cancer (NSCLC) cells in vitro and in vivo. The goal of the present study was to test these compounds against human small cell lung cancer (SCLC) in vivo since this tumor is notoriously resistant to conventional therapy or, respectively, is characterized by rapid relapse after initially successful treatment. We herein report that the MCR peptides MCR-4 and MCR-14 display potent antiproliferative activity against RB-negative H82 SCLC xenograft tumors in nude mice, whereas the chemotherapeutic agent VP-16 tested in parallel in a clinically relevant dose had no anti-tumor effect. These encouraging results warrant accelerating the introduction of MCR peptides into clinical trials in patients with RB-negative tumors such as SCLC in the near future.
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PMID:Potent in vivo antineoplastic activity of MCR peptides MCR-4 and MCR-14 against chemotherapy-resistant human small cell lung cancer. 1295 36

Reduced expression of the retinoblastoma gene (RB)2/p130 protein, as well as mutation of exons 19, 20, 21, and 22 of the same gene, has been reported in primary lung cancer. However, it has been suggested by other investigators that mutational inactivation and loss of the RB2/p130 gene and protein, respectively, are rare events in lung cancer. In order to determine the contribution and mechanisms of RB2/p130 gene inactivation to lung cancer development and progression, we quantified RB2/p130 mRNA expression levels in a range of human lung cancer cell lines (n = 13) by real-time reverse transcription (RT)-polymerase chain reaction (PCR) analysis. In comparison to normal lung tissue, reduced transcription of the RB2/p130 gene was found in all small cell lung cancer cell lines examined, along with six out of the eight nonsmall cell lung cancers tested, most of which had inactivation of RB/p16 pathway. On the basis of Western blot analysis, the expression of RB2/p130 protein was consistent with RNA expression levels in all lung cancer cell lines examined. In addition, the mutational status of the RB2/p130 gene (specifically, exons 19, 20, 21, and 22) was determined in 30 primary lung cancers (from patients with distant metastasis) and 30 lung cancer cell lines by PCR-single strand conformation polymorphism (SSCP) analysis and direct DNA sequencing. There was no evidence of somatic mutations within the RB2/p130 gene in the 60 lung cancer samples (both cell lines and tumors) assessed, including the 11 lung cancer cell lines that displayed reduced expression of the gene. Furthermore, hypermethylation of the RB2/p130 promoter was not found in any of the above-mentioned 11 cell lines, as determined by a DNA methylation assay, combined bisulfite restriction analysis (COBRA). The results of the present study suggest that the reduced RB2/p130 expression seen in lung cancer may be in part transcriptionally mediated, albeit not likely via a mechanism involving hypermethylation of the RB2/p130 promoter. The observed reduction in RB2/p130 gene expression may be due to histone deacetylation, altered mRNA stability, and/or other forms of transcriptional regulation.
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PMID:Reduced transcription of the RB2/p130 gene in human lung cancer. 1458 97

A small cell carcinoma of the extrahepatic bile duct in a 75-year-old Japanese man is reported. The patient suffered from obstructive jaundice, and percutaneous transhepatic cholangiography-drainage (PTCD) revealed a massive lesion in the lower common bile duct. Because it was diagnosed as a malignant tumor, pancreaticoduodenectomy was performed. A nodular infiltrating tumor measuring 4.5 x 3.0 x 2.0 cm was located in the intrapancreatic portion of the extrahepatic bile duct. Histologically, the tumor was composed of a dense proliferation of small atypical cells with a little region of high-grade dysplasia in the adjacent epithelium of the common bile duct. Tumor cells were immunoreactive to neuroendocrine markers such as chromogranin A, synaptophysin, CD56, and Leu7. Although carcinoma cells invaded into pancreas and duodenum, there were no histological findings that indicated the carcinoma arose from the mucosa of either the pancreatic duct or duodenum. These results indicated that the tumor was a small cell carcinoma derived from the epithelium of the extrahepatic bile duct; a rare neoplasm with only a few cases reported. A few neuroendocrine cells were recognized in the adjacent epithelium of the extrahepatic bile duct, suggesting that the tumor cells might be derived from them. Using immunohistochemical examination, no p53 abnormality was found. Tumor cells showed positive nuclear staining for p16, while negative for cyclin D1, suggesting that functional retinoblastoma protein (pRB) might be lost in the p16/pRB pathway, as in small cell lung cancer.
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PMID:Small cell carcinoma of the extrahepatic bile duct: case report and immunohistochemical analysis. 1462 56

The retinoblastoma (RB)-Cyclin (CCN)D1-p16 cell cycle pathway has a crucial role in lung tumorigenesis. Impairment of the RB pathway has been shown to occur in almost all lung tumors. A deregulation at any level of this core RB pathway seems to make cells insensitive to the mitogenic signaling that is required for cell cycle progression. To date, almost all participants in this pathway have been shown to be altered to a various degree in lung tumors. Some of the alterations are mutually exclusive, including RB and p16INK4A . In small cell lung cancer, the RB tumor suppressor gene is inactivated in almost 90% of the tumors, whereas in non-small cell lung cancer, the cyclin-dependent kinase (CDK)4 inhibitor p16INK4A is inactivated in 40-60% of the tumors. Many mechanisms may be responsible for activating the RB-Cyclin D1 pathway, including activating (CDK4) and inactivating mutations (p16INK4A ), deletions (RB and p16INK4A ), amplifications (CCND1 and CDK4), silencing methylation (p16INK4A and RB), and hyper-phosphorylation (RB). As some of these alterations, such as p16INK4A methylation, can also be detected in bronchial lavage and serum, they could potentially serve as useful markers for the early detection of lung cancer. This review summarizes recent experiments describing the variable roles of key-player molecules of the RB pathway and different mechanisms by which the RB pathway can be altered in lung cancer.
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PMID:Regulation of the G1/S phase of the cell cycle and alterations in the RB pathway in human lung cancer. 1661 40

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