Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Coumarin in vivo has antitumor activity in various types of cancer. In vitro, coumarin and 7-hydroxycoumarin, its major biotransformation product in humans, inhibit the proliferation of several human tumor cell lines. The molecular mechanisms of these effects are unknown. To gain information about these mechanisms, we studied the effects of coumarin and 7-hydroxycoumarin in the human lung adenocarcinoma cell line A-427 on the inhibition of: (i) cell proliferation; (ii) cell cycle progression; and (iii) expression of cyclins D1, E and A. The inhibitory concentrations 50 (IC(50)) of both compounds were estimated by cytostatic assays of tetrazolium (MTT) reduction. The effects on cell cycle progression were assayed with propidium iodide and BrdU using DNA histograms and multiparametric flow cytometry. The percentages of cells expressing cyclins D1, E, and A were estimated by means of bivariate flow cytometry using propidium iodide, and FITC-conjugated monoclonal antibodies for each cyclin. The IC(50) (+/-S.E.M. n=3) of 7-hydroxycoumarin and coumarin at 72 h exposure, were 100+/-4.8 and 257+/-8.8 microg/ml, respectively. 7-Hydroxycoumarin at the concentration of 160 microg/ml (1 mM), inhibited the G(1)/S transition of the cell cycle, an action consistent with the cytostatic effect. No significant decreases of cyclins E and A were observed. In contrast, cyclin D1 significantly decreased, which appears to indicate an action of 7-hydroxycoumarin in early events of phase G(1). However, messenger RNA of cyclin D1, assayed by RT-PCR, did not change. This suggests a posttranscriptional effect. The effects of coumarin were not significant. Cyclin D1 is overexpressed in many types of cancer, and its inhibition has been proposed as a pharmacological and therapeutic target for novel antitumor agents. Knowledge of the decrease of cyclin D1 by 7-hydroxycoumarin may lead to its use in cancer therapy, as well as to the development of more active compounds.
Lung Cancer 2001 Nov
PMID:Decrease of cyclin D1 in the human lung adenocarcinoma cell line A-427 by 7-hydroxycoumarin. 1167 77

The Myc gene family which includes c-Myc, N-Myc and L-Myc, are transcription factors that play a role in cell proliferation, apoptosis and in the development of human tumors. Myc amplification and overexpression has been detected in lung cancer of different histologic subtypes. Although the mechanism of Myc action is not yet fully understood, Myc has been proposed to play a role in growth control and cell cycle progression by stimulating and repressing the expression of key cell cycle regulators. This review will focus on the role of Myc in stimulating the G1/S transition of the cell cycle by regulating the levels and activity of cyclins, cyclin dependent kinases (cdk), cdk inhibitors and the pRb-binding transcription factor E2F. It is proposed that both the overexpression of Myc and the deregulation of the pRB/E2F pathway promotes the G1 to S transition in parallel by activating cyclinE/cdk2 complexes in lung cancer cells.
Lung Cancer 2001 Dec
PMID:Myc oncogene: a key component in cell cycle regulation and its implication for lung cancer. 1172 Jul 40

Caffeine is a model radiosensitizing agent that is thought to work by abrogating the radiation-induced G(2)-phase checkpoint. In this study, we examined the effect that various concentrations of caffeine had on cell cycle checkpoints and apoptosis in cells of a human lung carcinoma cell line and found that a concentration of 0.5 mM caffeine could abrogate the G(2)-phase arrest normally seen after exposure to ionizing radiation. Surprisingly, at a concentration of 5 mM, caffeine not only induced apoptosis by itself and acted synergistically to enhance radiation-induced apoptosis, but also induced a TP53-independent G(1)-phase arrest. Examination of the molecular mechanisms by which caffeine produced these effects revealed that caffeine had opposing effects on different cyclin-dependent kinases. CDK2 activity was suppressed by caffeine, whereas activity of CDC2 was enhanced by suppressing phosphorylation on Tyr15 and by interfering with 14-3-3 binding to CDC25C. These data indicate that the effect of caffeine on cell cycle checkpoints and apoptosis is dependent on dose and that caffeine acts through differential regulation of cyclin-dependent kinase activity.
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PMID:Caffeine induces TP53-independent G(1)-phase arrest and apoptosis in human lung tumor cells in a dose-dependent manner. 1183 80

Flavopiridol treatment can lead to apoptosis via a mechanism that has been associated with down-regulation of Mcl-1. Likewise, recent studies from our laboratory demonstrated that E2F1 leads to transcriptional repression of Mcl-1 and subsequently apoptosis. Given the ability of cyclin/cyclin-dependent kinase 2 antagonists to kill transformed cells, we surmised that flavopiridol may stabilize E2F1 and enhance apoptosis via repression of Mcl-1. Here we demonstrate that flavopiridol is associated with a dose-dependent increase in E2F1 protein levels, a corresponding reduction in Mcl-1, and apoptosis in H1299 lung carcinoma cells. Treatment of H1299 cells with 200 nM flavopiridol resulted in the rapid elevation of E2F1 and reduction in Mcl-1 levels within 12 h of treatment. The elevation of E2F1 and reduction in Mcl-1 clearly preceded the induction of apoptosis. Both H1299 and NIH3T3 fibroblast cell lines that constitutively express Mcl-1 under the control of the cytomegalovirus promoter have no reductions in Mcl-1 levels with flavopiridol treatment and are resistant to apoptosis induced by flavopiridol. H1299 cells that have E2F1 deleted through RNAi vector targeting are less sensitive to flavopiridol-induced cell death, and likewise, mouse embryo fibroblast cell lines deficient in E2F1 are less susceptible to apoptosis induced by flavopiridol compared with wild-type control fibroblasts. These data suggest that apoptosis induced by flavopiridol is dependent on the enhancement of E2F1 levels and the repression of Mcl-1.
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PMID:Flavopiridol-induced apoptosis is mediated through up-regulation of E2F1 and repression of Mcl-1. 1253 75

Aberrations in cell cycle progression occur in the majority of human malignancies. The main pathway affected is the retinoblastoma (Rb) pathway. The tumor suppressor gene Rb is an important component in the G(1)/S transition and its function is abnormal in most human neoplasms. Loss in Rb function occurs by the hyperactivation of the cyclin-dependent kinases (cdk's). Therefore, modulation of cdk's may have an important use for the therapy and prevention of human neoplasms. Efforts to obtain small-molecule cdk modulators yielded two classes of modulators: direct and indirect modulators. Direct cdk modulators are small molecules that specifically target the ATP binding site of cdk's. Examples for this group include flavopiridol, roscovitine and BMS-387032. In contrast, indirect cdk modulators affect cdk function due to modulation of upstream pathways required for cdk activation. Some examples include perifosine, lovastatin, and UCN-01. The first example of a direct small-molecule cdk modulator tested in the clinic, flavopiridol, is a pan-cdk inhibitor that not only promotes cell cycle arrest but also halts transcriptional elongation, promotes apoptosis, induces differentiation, and has antiangiogenic properties. Clinical trials with this agent were performed with at least three different schedules of administration: 1-, 24- and 72-h infusions. The main toxicities for infusions >/=24-h are secretory diarrhea and proinflammatory syndrome. In addition, patients receiving shorter infusions have nausea/vomiting and neutropenia. A phase II trial of patients with advanced non-small-cell lung carcinoma using the 72-h infusion every 2 weeks was recently completed. The median overall survival for the 20 patients who received treatment was 7.5 months, a survival similar to that obtained in a randomized trial of four chemotherapy regimens containing platinum analogues in combination with taxanes or gemcitabine, or with gefitinib, a recently approved EGFR inhibitor for the treatment of advanced lung cancer. Based on these encouraging results, a phase III trial comparing standard combination chemotherapy versus combination chemotherapy plus flavopiridol is currently under investigation. The second example of direct small-molecule cdk modulator tested in clinical trials is UCN-01 (7-hydroxystaurosporine). UCN-01 has interesting preclinical features: it inhibits Ca(2+)-dependent PKCs, promotes apoptosis, arrests cell cycle progression at G(1)/S, and abrogates checkpoints upon DNA damage. The first phase I trial of UCN-01 demonstrated a very prolonged half-life. Based on this novel feature, UCN-01 is administered as a 72-h continuous infusion every 4 weeks (in second and subsequent cycles UCN-01 is administered as a 36-h infusion). Other shorter schedules (i.e. 3 h) are being tested. Dose-limiting toxicities include nausea/vomiting, hypoxemia, and insulin-resistant hyperglycemia. Combination trials with cisplatin and other DNA-damaging agents are being tested. Recently, phase I trials with two novel small-molecule cdk modulators, BMS 387032 and R-Roscovitine (CYC202), have commenced with good tolerability. In summary, novel small-molecule cdk modulators are being tested in the clinic with interesting results. Although these small molecules are directed towards a very prevalent cause of carcinogenesis, we need to test them in advanced clinical trials to determine the future of this class of agents for the prevention and therapy of human malignancies.
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PMID:Small-molecule cyclin-dependent kinase modulators. 1452 86

It has become clear in the past decade that most human malignancies, including lung neoplasms, have aberrations in cell cycle control. The tumor suppressor gene retinoblastoma is an important player in the G1/S transition and its function is abnormal in most human neoplasms. Retinoblastoma function is lost as a result of phosphorylation by the cyclin-dependent kinases (CDKs). Thus, modulation of CDKs may have an important use for the therapy and prevention of human neoplasms. Direct CDK modulators are small molecules that target specifically the adenosine triphosphate binding site of CDKs. In contrast, indirect CDK modulators affect CDK function by modulation of upstream pathways required for CDK activation. The first example of a direct small-molecule CDK modulator tested in the clinic, flavopiridol, is a pan-CDK inhibitor that not only promotes cell cycle arrest but also halts transcriptional elongation, promotes apoptosis, induces differentiation, and has antiangiogenic properties. The second example of direct small-molecule CDK modulators tested in clinical trials is UCN-01 (7-hydroxystaurosporine). UCN-01 has interesting preclinical features: it inhibits Ca2+-dependent protein kinase C, promotes apoptosis, arrests cell cycle progression at G1/S, and abrogates checkpoints upon DNA damage. In summary, novel small-molecule CDK modulators are being tested in the clinic with interesting results. Although these small molecules are directed toward a very prevalent cause of carcinogenesis, their role in the clinical armamentarium is still uncertain.
Clin Lung Cancer 2003 Nov
PMID:Cell cycle modulators for the treatment of lung malignancies. 1466 71

The relation between expression of cell cycle-regulator molecules and apoptosis was examined in surgical specimens and cultured human lung carcinoma cell lines. Immunohistochemical analysis for 133 cases revealed 2 types of staining pattern. The first group consisted of 95 cases (71.4%) characterized by apoptotic cells showing intensely positive staining for cdk4 and cyclin D1 but negative for other proteins (type A). In the second group (type B), comprising 38 cases (28.6%), apoptotic cells exhibited intense positive staining for any cyclins and cdks. Most of the latter cases had lost expression of Rb protein. When tumor cells retrieved from paraffin-embedded tissue were examined by flow cytometry, higher proportions of cells expressing only cdk4 or cyclin D1 in type A cases and of cells expressing any cyclin or cdk in type B cases showed a subdiploid DNA content. In survival analysis using the LI of apoptotic cells and cyclin/cdk-positive cells, the high-apoptosis/high-cyclin D1 group showed the poorest prognosis. Furthermore, forced overexpression of only cdk4 or cyclin D1 induced apoptosis in cultured cells with normal Rb protein, whereas overexpression of any cyclin or cdk induced apoptosis in cells defective for Rb protein. In conclusion, upregulation of cdk4/cyclin D1 may be a primary and critical factor in induction of apoptosis in human lung carcinomas in vivo. Moreover, inactivation of Rb protein renders cells more prone to apoptosis by abnormal expression of any cell-cycle protein.
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PMID:Overexpression of cdk4/cyclin D1, a possible mediator of apoptosis and an indicator of prognosis in human primary lung carcinoma. 1512 85

Simple tools for discrimination of lung tissues can be useful in a fast machine-aided diagnosis, for example, by tumor-specific microarrays. We demonstrate that an easy ratio technique, based on the expression levels of only two genes differentially expressed in lung tumor and normal lung samples, allows discrimination of normal and neoplastic lung with a sensitivity of 100% and specificity of 90.5%. DNA microarray analysis of 99 lung tumor samples and 15 normal lung tissues revealed that receptor for advanced glycation end products (RAGE) mRNA is reduced fourfold (p = 7.8 x 10(-11)) and cyclin-B2 mRNA is upregulated twofold (p = 5.9 x 10(-18)) in lung carcinoma compared with normal lung. The microarray-calculated expression ratio of RAGE to cyclin-B2 was used in polymerase chain reaction analysis of 84 independent blinded samples to discriminate tumor and corresponding normal lung tissues. In 94.7% of the samples this quotient correctly distinguished non-small cell lung cancer from normal lung tissue, suggesting the RAGE/cyclin-B2 quotient as a potential means for diagnosis of lung cancer.
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PMID:Discrimination of human lung neoplasm from normal lung by two target genes. 1533 90

Cell cycle is strictly regulated by complex and redundant mechanisms. Basically, cell cycle transition is promoted by accelerator molecules termed 'cyclin' and 'cyclin-dependent kinase' (cdk), and inhibited by brake molecules termed 'cdk-inhibitor' (CKI). Although based on the results of early experimental studies and of clinicopathological analyses, there was much speculation that gene aberration of those molecules would be common; this has not turned out to be the case. One reason may be that activation or inactivation of a single molecule by itself usually does not lead to cell transformation, but rather to apoptosis. Successful transformation and unchecked cell proliferation appears to require the coordinated up-regulation of cyclin/cdk and/or suppression of CKI. In this article, I focus on the precise regulation of the cell cycle and describe abnormalities found in these proteins in lung carcinoma. Notable findings in lung carcinoma include: (i) cyclin A/cdk2 plays a key role in cell proliferation, while protein amount of cyclin E does not necessarily reflect cellular proliferative activity, depending on the tumor type; (ii) CKI function not only as suppressors, but also as activators of cdk, depending on expression levels; and (iii) aberrant expression of cyclin/cdk can lead to apoptosis in vivo in humans. Another key point is that as lung carcinoma is composed of a mixture of heterogeneous histological subtypes, the growth control of carcinoma cells is diversely regulated, depending on each histological subtype. This diversity is also described with our experimental results.
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PMID:Cell cycle regulation and its aberrations in human lung carcinoma. 1574 17

Overexpression of cyclooxygenase-2 (COX-2) is frequently observed in several human cancers, including lung, colon, and head and neck. Malignancies are also associated with the dysregulation of cell cycle events and concomitant elevated activity of cyclin-dependent kinases (CDK). CDK2 is a key cell cycle regulatory protein that controls the transition of cells from G(1) to S phase. In this study, we furnish several lines of evidence that show a functional role for the CDK2 in interleukin-1beta (IL-1beta)-induced COX-2 expression in H358 human non-small cell lung carcinoma cell line by blocking CDK2 activity. First, we show that BMS-387032, a potent CDK2 inhibitor, blocks IL-1beta-induced expression as well as steady-state mRNA levels of COX-2. Second, we show that small interfering RNA that abrogates CDK2 expression also blocks IL-1beta-induced COX-2 expression. Third, results from in vitro kinase assays clearly show that IL-1beta induces CDK2 activity in H358 cells and this activity is significantly inhibited by BMS-387032. Moreover, CDK2 inhibition blocks IL-1beta-induced binding to the NF-IL6 element of the COX-2 promoter and inhibits transcription of the COX-2 gene. We also observed that BMS-387032 does not inhibit endogenous expression of COX-2 or prostaglandin synthesis in lung carcinoma cells. Finally, we provide evidence showing that IL-1beta-induced signaling events, such as p38 mitogen-activated protein kinase, phosphorylated stress-activated protein kinase/c-Jun NH(2)-terminal kinase, phosphorylated AKT, and phosphorylated extracellular signal-regulated kinase 1/2, are not inhibited by CDK2 inhibitor. Taken together, the data suggest that CDK2 activity may play an important event in the IL-1beta-induced COX-2 expression and prostaglandin E(2) synthesis and might represent a novel target for BMS-387032.
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PMID:The cyclin-dependent kinase 2 inhibitor down-regulates interleukin-1beta-mediated induction of cyclooxygenase-2 expression in human lung carcinoma cells. 1645 36


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