Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P43026 (lipopolysaccharide)
 62,215 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide has been implicated as an important effector molecule involved in tumor cell growth and cytotoxicity. In these studies we examined mechanisms regulating nitric oxide production by hamster tumor cells. Cocultures of hamster alveolar macrophages (HAM) and spontaneously transformed hamster embryonic fibroblasts (STHE cells) produced significant quantities of nitric oxide in response to lipopolysaccharide (LPS). Culture supernatants from HAM treated with LPS also stimulated nitric oxide production by STHE cells, whereas tumor cell culture supernatants had no effect on HAM. These data, together with the findings that paraformaldehyde treatment of STHE cells, but not macrophages, completely abrogated nitric oxide production in the cocultures demonstrate that the tumor cells were the source of this mediator. In contrast to STHE cells, STHE-83/20 cells, a highly malignant variant, did not produce nitric oxide in response to HAM or HAM culture supernatants even in the presence of LPS. Both anti-tumor necrosis factor-alpha (TNF-alpha) and anti-interleukin-1alpha (IL-1alpha) antibodies inhibited HAM-induced nitric oxide production by STHE cells. However, the kinetics of their effects were different. Moreover, although the nitric oxide stimulating activity in HAM culture supernatants was abrogated by anti-TNF-alpha antibody, it was only minimally reduced by anti-IL-1alpha antibody. These data demonstrate that TNF-alpha and IL-1alpha play distinct roles in induction of nitric oxide synthesis in STHE cells. HAM were also found to suppress proliferation of STHE cells, an effect that was inhibited by anti-TNF-alpha antibody, but not NG-monomethyl-L-arginine, which blocks nitric oxide synthase. Abrogation of macrophage-induced cytostasis in STHE cells by anti-TNF-alpha antibody was associated with decreased nitric oxide production. Thus TNF-alpha released by macrophages may indirectly activate STHE cells for nitric oxide synthesis by suppressing tumor cell proliferation.
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PMID:Mechanisms regulating macrophage-induced nitric oxide production by spontaneously transformed hamster fibroblasts. 886 31

Nitric oxide has been shown to contribute to cytotoxicity in mouse and rat tumor cells. In these studies we examined the role of nitric oxide in cytostasis in hamster tumor cells varying in their malignant potential. Spontaneously transformed hamster embryonic fibroblasts (STHE cells) with low metastatic activity produced significantly greater amounts of nitric oxide in response to interleukin-1 (IL-1) or lipopolysaccharide (LPS)-activated hamster alveolar macrophages (HAM) than did tumor cell lines with high experimental metastatic activity (HET-SR, HET-SR1, STHE-83/20 cells). HET-SR cells, which exhibit low spontaneous metastastic activity, also produced relatively high levels of nitric oxide in response to IL-1, whereas the response of the spontaneously metastatic lines, HET-SR1 and STHE-83/20 cells, was low. IL-1 and HAM also induced cytostasis in nitric oxide-producing STHE and HET-SR cells. However, the nitric oxide synthase inhibitor, N(G)-monomethyl-L-arginine (L-NMMA), had no effect on this activity. These findings, together with the observation that anti-tumor necrosis factor alpha antibody prevented HAM-mediated cytostasis in all of the tumor cell lines demonstrate that nitric oxide is not involved in hamster macrophage-induced tumor cell growth suppression. In contrast to HAM, rat alveolar macrophages, which produced nitric oxide in response to LPS, exerted similar levels of cytostasis toward all of the hamster tumor cell variants, an action that was blocked by L-NMMA in HET-SR, HET-SR1, and STHE-83/20 cells. Thus production of nitric oxide by hamster tumor cells is inversely correlated with their malignant potential. However, nitric oxide does not appear to be involved in IL-1- or HAM-mediated cytostasis toward hamster tumor cells.
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PMID:Macrophage and interleukin-1 induced nitric oxide production and cytostasis in hamster tumor cells varying in malignant potential. 910 32

To study the possible role of the host macrophages in the selection of tumor cells and tumor progression, a series of Syrian hamster tumor cell lines all originating from a single spontaneously transformed Syrian hamster embryo cell line (STHE strain) have been established. These STHE tumor cell variants, selected either in vitro with resident and lipopolysaccharide-activated macrophages or in vivo, differ in tumorigenic and metastatic activity. The selected malignant STHE cells become resistant to cytotoxic activity of activated peritoneal macrophages and of exogenous hydrogen peroxide (H2O2). Since activated macrophages are a known source for both cytotoxic agents H2O2 and tumor necrosis factor (TNF), the purpose of the present study was to define the sensitivity of the STHE tumor cell lines to a direct cytotoxic activity mediated by recombinant TNF-alpha in an attempt to understand the role of the cytokine in in vitro selection of a malignant STHE cells by activated macrophages. The spontaneously transformed STHE cells (selected in vivo and in vitro) as well as the hamster embryo cells transformed in vitro by a tumorigenic Rous sarcoma virus (Schmidt-Ruppin strain) were used as targets. TNF-alpha-sensitive mouse L929 cells were included in the study as a positive control. Sensitivity of actinomycin D-pretreated target cells studied for cytotoxic activity of a recombinant TNF-alpha was examined over 21 h with a crystal violet dye assay. It was found that, in contrast to L929 cells, the spontaneously transformed STHE cells as well as tumorigenic Rous sarcoma virus hamster embryo transformants, were all significantly resistant to the TNF-alpha-mediated cytolysis. This indicates that TNF-alpha is not the single factor responsible in in vitro selection of malignant STHE cell variants by activated macrophages. It appears that H2O2 is involved in the selection of the hamster macrophage-resistant STHE tumor cells.
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PMID:Resistance of spontaneously transformed Syrian hamster embryo cells and their malignant variants to cytotoxic activity of recombinant tumor necrosis factor-alpha. 954 39