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)

Little is known about the biology of Merkel cell carcinoma (MCC), also called small cell carcinoma of the skin. MCC has similarities with small cell lung cancer (SCLC): both are neuroendocrine malignancies with early metastasis to distant sites and a poor prognosis. Small cell lung cancer biopsies are known to have frequent losses on chromosome 3 in the region 3p21, yet MCCs have not been reported to have 3p deletions by karyotypic analysis. Considering the similarities between SCLC and MCC, we investigated 26 MCC tumours for loss of heterozygosity (LOH) on 3p. First, RFLP analysis was performed using PCR with nine primer sets from six loci. Second, 25 tumours were examined by microsatellite analysis for 3p markers D3S1289 and D3S1285 and SST on 3q. All 26 tumours were informative at one or more loci; of these, 18 (69%) demonstrated LOH for at least one marker on the short arm. For all informative loci the frequency of LOH was greater than 30% (range 33-75%). In a cell line derived from one tumour, it was possible to demonstrate rearrangement of chromosome 3 by in situ hybridisation. No LOH was seen in 15 informative cases for the 3q locus SST. A region 3p13-p21.1, centered on the marker D3S2, was deleted in all tumours demonstrating LOH, with a secondary deletion involving D3S30 detected in some tumours at 3p13. Our results indicate that LOH on 3p is a common occurrence in MCC; however, three tumours for which DNA was also available from a corresponding cell line suggest there may be a subset of MCC whose genesis is independent of deletions of 3p.
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PMID:Deletion mapping of the short arm of chromosome 3 in Merkel cell carcinoma. 883 73

Three cases of secondary acute myeloid leukemia (AML) that developed after long term treatment with oral etoposide were reported. Case 1 was a 72-year-old male in whom small cell lung cancer was diagnosed in January 1987. He developed AML (M4) in February 1993 after long-term treatment with oral etoposide (total dose 14,650 mg) t(9; 11) (p21; q23) with rearrangement of MLL genes was recognized. Case 2 was a 68-year-old female non-Hodgkin's lymphoma (NHL) was diagnosed in February 1989. AML (M4Eo) with inv(16) (p13q22) developed in March 1994 after long-term treatment with oral etoposide (total dose 5,100 mg). Case 3 was a 39-year-old male in whom NHL was diagnosed in January 1991. He developed AML(M2) with t(11; 19) (q23; p13) in May 1994 after long-term treatment with oral etoposide (total dose 20,450 mg). These three cases suggest that long-term treatment with oral etoposide may be associated with a risk of developing a secondary AML in patient with malignancies.
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PMID:[Three cases of secondary acute myeloid leukemia after long-term treatment with oral etoposide]. 896 Jun 61

Solcoseryl is composed of extracts from calf blood, and is a drug known to activate tissue respiration. In the present study, I demonstrated the cell biological effects of Solcoseryl on a human small cell lung cancer cell line, PC-6, by analyzing cell morphology, cell growth, expression of neuronal differentiation markers, and the ras proto-oncogene product(ras p21). Exposure of PC-6 cells to Solcoseryl at the concentration of 200 microliters/ml induced (1) cell morphological changes, including neurodendrite-like projections from the cell surface, and (2) complete inhibition of cell growth, that was shown by the loss of Ki-67 expression. Solcoseryl also induced the expression of neurofilament protein and acetylcholinesterase, both of which are markers of neuronal differentiation. Moreover, it upregulated the expression of the ras proto-oncogene product, ras p21. Taken together, these data suggest that Solcoseryl is composed of component(s) which can induce neuronal differentiation of the human small cell lung cancer cell line, PC-6.
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PMID:[Neuronal differentiation of human small cell lung cancer cell line PC-6 by Solcoseryl]. 946 15

Drug resistance is a major problem in patients with small cell lung cancer; in fact, most die of resistant disease, despite an initial response. Several markers of drug resistance have been described in preclinical models, but the mechanism of drug resistance in lung cancer patients remains unknown. The objective of this study was to evaluate the role of the expression of a number of markers of drug resistance, proliferation, and apoptosis in relation to response to chemotherapy and survival in patients with small cell lung cancer. Tumor samples were derived from 93 previously untreated patients who were randomized in a Phase III study to receive cyclophosphamide, epirubicine, and etoposide or cyclophosphamide, epirubicine and vincristine alternating with carboplatin and etoposide. Paraffin-embedded samples, derived from the primary tumor site prior to chemotherapy, were analyzed by immunohistochemistry for expression of markers implicated in drug resistance [topoisomerase (topo) IIalpha, topo IIbeta, and multidrug resistance-associated protein], apoptosis (p53, p21, and bcl-2), or proliferation (Ki67). Response prediction was analyzed by chi2 test and logistic regression analysis; overall and disease-free survival curves were compared by log-rank test and Cox regression analysis. Shorter survival was observed in patients with extensive disease (P = 0.037) and poorer performance status (P = 0.028) and in patients whose tumors expressed high topo IIalpha levels (P = 0.01) and high Ki67 (P = 0.024). By multivariate analysis, the following factors were found to be predictive for worse survival: high expression levels of topo IIalpha, Ki67, and bcl-2; male sex; and extensive disease. High topo IIbeta expression was found to be predictive for lower overall and complete response rate. No relationship between apoptotic pathway markers or MRP and response to chemotherapy was observed. In conclusion, high expression of topo IIalpha was predictive of worse survival, and high expression of topo IIbeta was predictive of lower response rates. Furthermore, lower survival probability was observed in patients with bcl-2-positive tumors. Immunohistochemical assessment of these markers in diagnostic biopsies may give important prognostic information and may help selecting patients in the worse prognostic categories for new therapeutic strategies.
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PMID:Expression of DNA topoisomerase IIalpha and topoisomerase IIbeta genes predicts survival and response to chemotherapy in patients with small cell lung cancer. 1047 85

Among the various forms of human lung cancer, small cell lung cancer (SCLC) exhibits a characteristic neuroendocrine (NE) phenotype. Neural and NE differentiation in SCLC depend, in part, on the action of the basic-helix-loop-helix (bHLH) transcription factor human achaete-scute homologue-1 (hASH1). In nervous system development, the Notch signaling pathway is a critical negative regulator of bHLH factors, including hASH1, controlling cell fate commitment and differentiation. To characterize Notch pathway function in SCLC, we explored the consequences of constitutively active Notch signaling in cultured SCLC cells. Recombinant adenoviruses were used to overexpress active forms of Notch1, Notch2, or the Notch effector protein human hairy enhancer of split-1 (HES1) in DMS53 and NCI-H209 SCLC cells. Notch proteins, but not HES1 or control adenoviruses, caused a profound growth arrest, associated with a G1 cell cycle block. We found up-regulation of p21(waf1/cip1) and p27kip1 in concert with the cell cycle changes. Active Notch proteins also led to dramatic reduction in hASH1 expression, as well as marked activation of phosphorylated extracellular signal-regulated kinase (ERK)1 and ERK2, findings that have been shown to be associated with cell cycle arrest in SCLC cells. These data suggest that the previously described function of Notch proteins as proto-oncogenes is highly context-dependent. Notch activation, in the setting of a highly proliferative hASH1-dependent NE neoplasm, can be associated with growth arrest and apparent reduction in neoplastic potential.
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PMID:Notch signaling induces cell cycle arrest in small cell lung cancer cells. 1130 9

Osteopontin (OPN) is a phosphorylated glycoprotein with diverse functions including cancer development, progression and metastasis. Its expression is induced by a variety of stimuli such as TNF-alpha and Ras proto-oncogene. However, differential OPN expression and its regulation in each histologic type of lung cancer are not well established. In this study, we assessed expression of OPN in lung cancer tissues with immunohistochemical analysis. OPN was predominantly expressed in tumor cells of non-small cell lung cancer (NSCLC) tissues: 11 of 16 cases (68.8%) of squamous cell carcinoma (SCC), five of 24 cases (20.8%) of adenocarcinoma (AD), but only two of 18 cases (11%) of small cell lung cancer (SCLC). Expectedly, OPN was principally expressed in NSCLC cell lines (H322 cells and HL460 cells) but not in SCLC cell line (H69 cells) by Western blotting and Northern blotting. Interestingly, Ras-p21 was specifically co-expressed with OPN staining in eight of eight cases with SCC (100%), whereas it was demonstrated in three of ten cases (30%) with AD and only one of 18 cases (5%) with SCLC. Collectively, these results suggest that OPN is mainly expressed in NSCLC, especially among SCC. OPN expression may be tightly regulated by Ras oncogene, and its concomitant induction with Ras activation may play a crucial role in the development of SCC.
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PMID:Differential osteopontin expression in lung cancer. 1152 Jun 6

K562 leukaemic cells are known to be less sensitive to etoposide than other cell lines, despite having similar topo II mRNA levels and cleavable complex formation. We have investigated the effect of etoposide schedule on cell cycle distribution, apoptosis and p21(waf1) and cdk1(p34) status in two bcr-abl-positive chronic myeloid leukaemia (CML) cell lines (K562 and KU812) and two small cell lung cancer (SCLC) cell lines (H69 and GLC4). During a continuous 5-day exposure, the SCLC cell lines showed a time and concentration-dependent loss of cell viability, with an initial block in the G2/M phase of the cell cycle followed by apoptosis. In contrast, the two CML cell lines showed no significant apoptosis or loss of viability after a similar block in G2/M. However, when K562 or KU812 cells were placed in drug-free medium following a 3-day drug exposure there was marked, concentration-dependent apoptosis (% apoptosis after release at 1 microM etoposide in K562, 10% at 24 h, 30% at 48 h). Our data also show that p21(waf1) does not increase after etoposide treatment in either H69 or GLC4 (both with mutated-p53). Although K562 and KU812 cells are null-p53, the arrest in G2/M during drug exposure was associated with increased p21(waf1) and a decrease in cdk1 (both P<0.001 compared with controls). Upon release of these cells from drug-medium, p21(waf1) gradually returned to control levels, which was associated with an easing of the block at G2/M and an induction of apoptosis. This study highlights the importance of cell cycle regulatory proteins in drug sensitivity and resistance, and suggests that in cells such as K562 and KU812, a pulsed schedule may be more active than a single prolonged exposure.
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PMID:The importance of drug scheduling and recovery phases in determining drug activity. Improving etoposide efficacy in BCR-ABL-positive CML cells. 1193 20

Lung cancer is the leading cause of cancer death. Lung cancers produce a variety of mitogenic growth factors that stimulate tumor cell proliferation and migration. The cell surface protease, dipeptidyl peptidase IV (DPPIV), is involved in diverse biologic functions, including peptide-mediated cellular growth and differentiation. DPPIV is expressed in various normal tissues, including lung tissue, and its expression is lost in many types of human cancers. DPPIV expression and its enzymatic activity are detected in normal bronchial and alveolar epithelium but different histologic subtypes of lung carcinomas lose DPPIV expression. To investigate the role of DPPIV in lung carcinoma, we examined the expression of DPPIV at both mRNA and protein levels in non small cell lung cancer (NSCLC) cell lines and normal human bronchial epithelial cells. DPPIV expression was detectable in normal lung epithelial cells, but was absent or markedly reduced in all NSCLC cell lines at both mRNA and protein levels. Restoration of DPPIV expression in NSCLC cells resulted in profound morphologic changes, inhibition of cell proliferation, anchorage-independent growth, in vitro cell migration and tumorigenicity in nude mice. DPPIV reexpression also correlated with increased p21 expression, leading to induction of apoptosis and cell cycle arrest in G1 stage. These effects were accompanied by increased expression of cell surface proteins, fibroblast-activating protein (Fapalpha) and CD44 that are associated with suppression of tumor growth and metastasis. Thus, DPPIV functions as a tumor suppressor, and its downregulation may contribute to the loss of growth control in NSCLC cells.
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PMID:Role for dipeptidyl peptidase IV in tumor suppression of human non small cell lung carcinoma cells. 1502 19

Bortezomib (PS-341, Velcade, Millennium Pharmaceuticals, Cambridge, MA) is a novel inhibitor of the proteasome. The proteasome plays a critical role in the degradation and, therefore, regulation of many proteins involved in cell cycle regulation, apoptosis, and angiogenesis. Bortezomib inhibits the growth of lung cancer cell lines in vitro and in vivo in athymic nude mouse xenografts. Bortezomib produces a G(2)-M arrest, increases in cyclin A and cyclin B, increases in p21, and increases apoptosis in these preclinical models. Phase I studies established that a dose of 1.4 mg/m(2) given i.v. on days 1, 4, 8, and 11 of a 3-week cycle produced acceptable toxicity and serum levels that resulted in proteasome inhibition. Phase II studies showed high-response rates in refractory multiple myeloma. These response rates were sufficiently high to allow accelerated approval of bortezomib by the Food and Drug Administration for this indication. Phase II trials in both non-small cell lung cancer and small cell lung cancer are in progress. A number of Phase I combination studies are also underway. Hopefully, bortezomib will show sufficient activity in lung cancer to improve survival in this dread disease.
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PMID:The potential role of proteasome inhibitors in the treatment of lung cancer. 1521 71

Acetylcholine (Ach), one of the most important examples of a neurotransmitter, represents a phylogenetically old molecule, widely distributed from bacteria to humans. The finding that neuronal Ach receptors (nAChRs) are present in non-neuronal cells raised some interesting issues related to their specific activity. In humans, different studies have showed that many lung cancer cells expressed nAchRs and that low concentrations of nicotine blocked the induction of apoptosis in these cells. A recent study presents data that SCLC express a cholinergic autocrine loop that can regulate cell growth. Such work demonstrates that SCLC cells have a cholinergic phenotype and that ACh exerts as an autocrine growth factor in human lung tumors. Recently it has been shown that human malignant pleural mesothelioma express a cholinergic system, involved in cell growth regulation. Hence, mesothelioma cell growth as well as normal mesothelial cells growth is modulated by the cholinergic system in which agonists (i.e. nicotine) has a proliferative effect and antagonists (i.e. curare) has an inhibitory effect. Furthermore apoptosis mechanisms in mesothelioma cells are under the control of the cholinergic system (nicotine antiapoptotic via induction of NF-kappaB complexes and phosphorilation of Bad at Serine(112), curare proapoptotic via G(0)-G(1) arrest p21(waf-1)-dependent, but p53-independent). The involvement of the non-neuronal cholinergic system in lung cancer and mesothelioma appears reasonable and open up new therapeutic strategies.
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PMID:Role of the non-neuronal human cholinergic system in lung cancer and mesothelioma: possibility of new therapeutic strategies. 1557 18

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