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)

Neurotensin (NT) has been postulated to act as a modulatory agent in the central nervous system. Besides its presence in mammalian brain, NT is produced by small cell carcinoma of the lung (SCLC) and cell lines derived from these tumors. Receptors have also been characterized in some SCLC cell lines leading to the suggestion that NT could regulate the growth of SCLC in an autocrine fashion similar to bombesin/GRP. Previously, we had reported that a 10 nM dose of NT and NT(8-13), but not NT(1-8), elevated cytosolic Ca2+, indicating that SCLC NT receptors may use Ca2+ as a second messenger. Using intact SCLC cells we report that time-course incubations with NT lead to the formation of the amino-terminal fragment NT(1-8) and small amounts of the C-terminal fragment NT(9-13). These fragments are formed by metalloendopeptidase 3.4.24.15 cleaving enzyme at the Arg8-Arg9 bond of NT. Significant levels of soluble 3.4.24.15 (10-17 nmoles/mg Pr-/min) are present in SCLC cell lines. Using the in vitro clonogenic assay we tested the effect of 0.5, 5.0 and 10.0 nM doses of NT, NT(1-8) and NT(8-13) on SCLC clonal growth. NT and the C-terminal fragment NT(8-13) stimulated colony formation whereas the N-terminal fragment did not. In summary, NT may function as a regulatory peptide in SCLC through the formation of peptide fragments.
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PMID:Neurotensin may function as a regulatory peptide in small cell lung cancer. 164 99

We tested whether Ca(2+)-mobilizing neuropeptides can function as growth factors for small cell lung carcinoma cells. The neuropeptides bradykinin, neurotensin, cholecystokinin, and vasopressin at nanomolar concentrations stimulated a rapid and transient increase in the intracellular concentration of Ca2+. Crucially, these peptides in the same concentration range also caused a marked increase in colony formation in semisolid medium in responsive small cell lung carcinoma cell lines. At optimal concentrations bradykinin, neurotensin, cholecystokinin, vasopressin, galanin, and gastrin-releasing peptide were equally effective in promoting clonal growth. These findings support the hypothesis that small cell lung carcinoma growth is sustained by an extensive network of autocrine and paracrine interactions involving multiple neuropeptides.
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PMID:Multiple neuropeptides stimulate clonal growth of small cell lung cancer: effects of bradykinin, vasopressin, cholecystokinin, galanin, and neurotensin. 171 14

Vasoactive intestinal peptide (VIP) stimulated the growth of murine Lewis lung carcinoma cells in culture. The growth promoting effect was dependent on the concentration of VIP. Exposure to VIP for 12 hours followed by removal of the peptide resulted in sustained growth promotion for 4 to 5 days in culture. Synthetic fragments of VIP, i.e., VIP (1-16) and VIP (22-28), and the unrelated peptide neurotensin failed to stimulate the growth of the Lewis lung carcinoma cells. The growth-promoting effect of VIP was also observed in a murine mammary tumor cell line and a human lung adenocarcinoma cell line.
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PMID:Stimulation of tumor cell growth by vasoactive intestinal peptide. 200 45

Several recent studies have confirmed the endocrine nature of small cell carcinoma of the lung. In extra-pulmonary sites, small cell 'undifferentiated' carcinomas have classical morphological features similar to their pulmonary counterpart. We therefore investigated, using immunocytochemistry, the possibility that the non-pulmonary neoplasms may also be endocrine in nature. Sections of 29 small cell carcinomas from oesophagus, stomach, larynx, colon and urinary bladder were immunostained using antisera to protein gene product 9.5 (PGP 9.5), neuron-specific enolase (NSE), cytokeratin, leucocyte common antigen and peptides including bombesin, the C-flanking peptide of human probombesin, adrenocorticotrophic hormone, neurotensin, calcitonin and pancreatic polypeptide. All the tumours showed immunoreactivity for at least one of the two general endocrine markers PGP 9.5 and NSE. Twenty-three of the 29 cases were immunoreactive for PGP 9.5, 27 for NSE. All were positive for cytokeratin and negative for leucocyte common antigen. Of the regulatory peptides, immunoreactivity was obtained with antisera to bombesin (one case), the C-flanking peptide of human pro-bombesin (14 cases), adrenocorticotrophic hormone (one case) and calcitonin (three cases). No PGP 9.5-, NSE- or peptide-like immunoreactivity was detected in 25 control tumours from similar sites, including lymphomas and poorly differentiated tumours. These results suggest that non-pulmonary small cell carcinoma has an endocrine character.
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PMID:Endocrine differentiation of extra-pulmonary small cell carcinoma demonstrated by immunohistochemistry using antibodies to PGP 9.5, neuron-specific enolase and the C-flanking peptide of human pro-bombesin. 302 89

High levels of neurotensin-like immunoreactivity were found in human small cell lung carcinoma lines. No immunoreactivity was present in non-small cell carcinoma lines and only low amounts in postmortem human lung tissue. The immunoreactive material co-eluted with synthetic neurotensin on two different chromatographic systems. No evidence was obtained for the presence of specific neurotensin binding sites in any of the small cell carcinoma lines examined. The results suggest that small lung cell carcinoma lines may be useful for studying the biosynthesis of human neurotensin.
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PMID:Neurotensin in human small cell lung carcinoma. 608 65

Vasoactive intestinal peptide (VIP), leucine-enkephalin (Leu-Enk), dynorphin (Dyn), neurotensin (NT) and substance P (SP) were measured by radioimmunoassay in lung and bronchoalveolar lavage (BAL) fluids of sham operated control rats and rats exposed to asbestos (5 and 10 mg, single intratracheal injections) for 3 and 6 months. Among these peptides, VIP, Leu-Enk and Dyn were the most abundant with 6 to 25 pmoles per g of lung tissue as compared with 0.95 to 1.2 pmoles per g for the other neuropeptides. In the presence of asbestos, VIP levels were selectively increased up to 2.7 times in lung tissue and 4.3 times in BAL fluids. On high pressure liquid chromatography (HPLC), the immunoreactive VIP coeluted with synthetic VIP. It is concluded that this selective increase may be involved in the pathogenesis of asbestos-related diseases. Exposure to asbestos causes chronic inflammatory reactions in the lung which may lead to fibrosis (1) and increase the incidence of pleuropulmonary cancers (2). Little is known concerning the biochemical changes responsible for the deleterious effects of asbestos on pulmonary functions. Previous studies have documented the vast complexity and diversity of lung biochemistry including its ability to metabolize lipids, inactivate certain enzymes and produce physiologically active amines (3-6). Recently, the lung has been recognized as an important source of peptidergic substances. VIP and SP were reported to be localized in nerve terminals of the main airways and in axons of the parasympathetic conducts (7-11). Other neuropeptides including bombesin (12, 13), calcitonin (13, 14) and Leu-Enk (13) were also detected in the lung. However, these latter peptides were mainly confined to diffuse granule-containing cells also known as APUD cells (amine precursor uptake and decarboxylation cells) (15). The role of these neuropeptides in normal lung function and in pulmonary diseases is unknown. However, it has recently been demonstrated that APUD cells proliferate in the rat lung following asbestos inhalation (16) and lung exposure to carcinogens (17, 18). In addition, Moody et al. (19) and Sorenson et al. (20) have observed high levels of bombesin in human cell lines derived from small-cell lung carcinoma. It was then of particular interest to verify if lung exposure to asbestos can induce some changes in the levels of various neuropeptides. In the present study, we report that VIP is significantly increased in the lungs and BAL fluids of rats exposed to asbestos while no significant change in the levels of Leu-Enk, Dyn, NT and SP is observed.
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PMID:Asbestos-related increase in pulmonary levels of vasoactive intestinal peptide (VIP). 619 89

Aberrant signal transduction pathways involved in the development of metastatic disease are poorly defined in both small cell lung carcinoma (SCLC) and non-small cell lung carcinoma (NSCLC). Neuropeptide-driven positive feedback loops stimulating cell proliferation are characteristic of SCLC. The activation of phospholipase C (PLC)-beta1 is an early and common response to stimulation of G protein-coupled receptors by these neuroendocrine growth factors. The importance of PLC-beta in neuropeptide signaling prompted us to compare PLC-beta isoform expression and activity in four independent SCLC cell lines and four independent NSCLC cell lines. We found that PLC-beta1 is more highly expressed in SCLC than in NSCLC, as indicated by Western blotting of cell lysates. All SCLC lines studied express PLC-beta1; only one of the NSCLC lines investigated showed detectable levels of the enzyme. NSCLC lines are significantly more sensitive to the antiproliferative effects of ET-18-OCH3 (edelfosine) compared with the SCLC lines, as indicated by [3H]thymidine uptake. The only SCLC cell line (NCI-H345) that is as sensitive as the NSCLC cell lines to ET-18-OCH3 also expresses uniquely low levels of PLC-beta1. The participation of PLC-beta1 in signaling by SCLC growth factor receptors is indicated by our finding that PLC-beta1 (but not PLC-beta3) coimnunoprecipitates with G(alpha)q/11 upon activation of neurotensin receptors; this association is inhibited by ET-18-OCH3. Ca2+ mobilization mediated by neurotensin receptors is also inhibited by ET-18-OCH3. The binding of GTPgammaS to G(alpha)q/11 upon treatment of SCLC cells with neurotensin is not inhibited by ET-18-OCH3. These findings indicate that ET-18-OCH3 does not interfere with G(alpha)q/11 activation but rather inhibits the association of G(alpha)q/11 with PLC-beta1. Our data suggest that PLC-beta is an important mediator of both SCLC and NSCLC proliferation. Differences in PLC-beta1 expression may be exploitable in the development of effective diagnostic and therapeutic tools.
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PMID:Small cell lung carcinoma exhibits greater phospholipase C-beta1 expression and edelfosine resistance compared with non-small cell lung carcinoma. 1082 48

A hallmark of small cell lung carcinoma (SCLC) is the expression of autocrine growth factors such as neurotensin and gastrin-releasing peptide, which bind to cellular receptors and stimulate cell division. The biological activity of autocrine growth factors requires the concurrent expression of prohormone convertases that cleave the growth factors to their active form, suggesting the expression of these genes is linked in SCLCs. RNase protection assays were used to detect the expression of autocrine growth factor and prohormone convertase mRNAs in a panel of lung cancer cell lines. These mRNAs are coexpressed in SCLC and lung carcinoid cell lines, but not in normal lung epithelium or in non-small cell lung cancers. These findings, together with earlier results from our laboratory, suggest the expression of prohormone convertases has an important role in the development and maintenance of the SCLC phenotype and that autocrine growth factor and prohormone convertase genes respond to a common transcriptional activator in SCLC.
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PMID:Prohormone convertase and autocrine growth factor mRNAs are coexpressed in small cell lung carcinoma. 1091 24

Small-cell lung cancer (SCLC) synthesises a wide range of neuropeptides and their corresponding receptors. Together, these can form autocrine growth loops. Non-small-cell lung cancer (NSCLC) does not generally share this neuroendocrine phenotype. In this study, we tested the hypothesis that multiple neuropeptides and their receptors are co-expressed in SCLC, constituting potential autocrine loops. Expression of mRNA for arginine vasopressin, gastrin, cholecystokinin, gastrin-releasing peptide, endothelin and neurotensin, together with their cognate receptors, was evaluated by reverse transcriptase-polymerase chain reaction (RT-PCR) in a panel of human lung cancer cell lines. We have assessed those neuropeptides and neuropeptide receptors that could be used as potential early markers to detect lung cancer cells both as micrometastases in blood and within dysplasia in bronchial biopsies. We establish that although no cell line expressed all neuropeptides, co-expression of neuropeptides and their receptors is common in SCLC but not in NSCLC. We conclude that mRNA for the neuropeptides gastrin-releasing peptide and arginine vasopressin and the cholecystokinin receptor B were most SCLC-specific and RT-PCR for these markers could be used to distinguish between SCLC and NSCLC.
Lung Cancer 2001 Jul
PMID:Use of RT-PCR to detect co-expression of neuropeptides and their receptors in lung cancer. 1142 90

The effects of carboxyamido-triazole (CAI) on small cell lung cancer (SCLC) cells were investigated. Using SCLC cell lines NCI-H209 or H345, 20 micro M CAI had little effect on basal cytosolic Ca(2+) but inhibited the ability of 10 nM bombesin (BB) or 1 nM neurotensin (NT) to elevate cytosolic Ca(2+). Also, CAI, impaired the ability of BB or NT to cause tyrosine phosphorylation of focal adhesion kinase. In contrast, CAI did not affect the ability of (125I-Tyr(4))BB or 125I-NT to bind with high affinity to NCI-H345 cells. These results indicate that CAI impairs SCLC second messenger activation, but not neuropeptide receptor binding. Using a MTT growth assay, CAI inhibited the proliferation of NCI-H209 or H345 cells in a concentration-dependent manner with little proliferation occurring using 100 micro M CAI. Also, CAI inhibited colony formation of NCI-H209 or H345 cells in a dose-dependent manner in vitro. In vivo, CAI (2 mg/day by gavage) inhibited significantly NCI-H209 xenograft proliferation in nude mice. Animals treated daily with CAI had significantly reduced CD31 immunostaining of microvessels in the tumor. Also, CAI inhibited the increase in vascular endothelial cell growth factor (VEGF) mRNA after addition of BB to SCLC cells. These results suggest that CAI inhibits the growth of SCLC cells as well as the angiogenesis of SCLC tumors in a VEGF-dependent manner.
Lung Cancer 2003 Mar
PMID:CAI inhibits the growth of small cell lung cancer cells. 1260 66


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