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Target Concepts:
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Query: EC:1.6.99.3 (
diaphorase
)
5,903
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The relative levels of mitochondrial specific gene transcripts were compared in two murine large cell lymphoma cell lines that differ in their propensities to form
liver metastases
and in their sensitivity to macrophage mediated antitumor cytostasis and cytolysis. Full-length transcripts of the mitochondrial genes were hybridized on electroblots from citrate/urea gels with specific gene prodes. The mitochondrially encoded gene NADH dehydrogenase subunit 5 (ND5), that encodes a component of
NADH dehydrogenase
(complex I) of the electron transport chain, was significantly overexpressed in the highly metastatic RAW117-H10 compared to low metastatic RAW117-P cells. Results from analysis of RNA blots were confirmed in an S1 nuclease protection assay. Since RAW117-H10 cells are significantly more resistant to cytostasis by activated macrophages in coculture and such macrophage activity can inhibit RAW117 tumor cell respiration and growth, a mechanism was suggested that allows RAW117 cell escape from certain host effector mechanisms that block cellular respiration by an increase in the in vivo concentrations of translatable messenger RNA (mRNA) that codes for key components of the electron transport chain.
...
PMID:Transcripts of the mitochondrial gene ND5 are overexpressed in highly metastatic murine large cell lymphoma cells. 138 22
Using in vivo selection methods, we obtained metastatic sublines of the murine RAW117 large cell lymphoma that form multiple
liver metastases
. The highly metastatic subline RAW117-H10 has a low number of gp70 molecules expressed at the cell surface and low cytostatic sensitivity to activated syngeneic macrophages. This subline was infected with endogenous RNA tumor virus isolated from a high virus-expressing RAW117-P subline of low metastatic potential. After superinfection the H10 subline gradually increased its expression of cell surface gp70 and showed enhanced sensitivity to macrophage-mediated cytostasis, suggesting that gp70 might be involved in host macrophage-mediated surveillance. Culture of RAW117-P and H10 cells in media conditioned by activated macrophages indicated that parental cells are severely growth inhibited in a dose dependent fashion while H10 cells showed almost no effect. Examination of differentially expressed genes in the highly metastatic RAW117-H10 cells by analysis of RNA blots indicated that a mitochondrial gene was expressed at a level that was approximately 10 times higher in H10 cells than in parental cells. This gene was identified as ND5, which codes for a subunit of
NADH dehydrogenase
(complex I of the mitochondrial electron transport chain); this complex is the target for an activated macrophage-released cytostatic factor. Among other possibilities, the results are consistent with the suggestion that highly metastatic RAW117 cells may escape macrophage surveillance by decreasing the synthesis of specific cell-surface receptors for cytostatic molecules and increasing the synthesis of specific cellular targets for such molecules.
...
PMID:Gene expression and tumor cell escape from host effector mechanisms in murine large cell lymphoma. 337 7
Focal hyperthermia, produced using laser, radio frequency, and microwave, is used to treat liver tumors. The exact mechanisms of tissue destruction using focal hyperthermia are, however, unknown. Clinical and experimental studies suggest a progression of injury after cessation of the initial heat stimulus. This study investigates the mechanisms and time sequence of progressive tissue necrosis induced using focal hyperthermia in a murine model of colorectal
liver metastases
. Focal hyperthermia produced using a neodymium-yttrium aluminum garnet (Nd-YAG) laser source was applied to the normal liver and colorectal cancer
liver metastases
in inbred male CBA strain mice. The extent of direct lethal thermal injury was assessed histochemically using vital stain for nicotinamide adenine dinucleotide (NADH)
diaphorase
immediately after laser application. Tissue injury at subsequent time points was assessed using both
NADH diaphorase
staining and routine histology to determine the temporal relationship between tissue necrosis and time. Thermal injury occurring immediately after the application of 100 joules of energy was greater in the tumor tissue than in the normal liver (mean [standard error of the mean (SEM)]), measuring 23.5 (3.4) and 16.3 (2.6) mm(3), respectively (P=0.046), despite similar tissue temperature profiles. There was a significant increase in tissue necrosis after initial injury that was greater in the normal liver than in the tumor tissue. In the normal liver, the peak volume of necrosis was 137.4 (9.8) mm(3) and occurred at 3 days, whereas in the tumor tissue the peak was 49.0 (3.5) mm(3) at 4.5 days (P < 0.001). Focal hyperthermia produces tissue necrosis that occurs in two phases. The first phase is caused by the direct lethal thermal injury followed by a second phase involving a progression of necrosis beyond the initial thermal effects. The normal liver and the tumor tissue responded differently to focal hyperthermia. In the tumor tissue, the direct injury is more pronounced, whereas the progression of injury is more rapid and extensive in the normal liver.
...
PMID:Focal hyperthermia produces progressive tumor necrosis independent of the initial thermal effects. 1574 5
