Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0012739 (disseminated intravascular coagulation)
 8,673 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied contact factors and kinin-kallikrein in normal non-pregnant and pregnant women, FXII deficient toxemia and DIC. The results obtained are as follows: 1. The levels of plasma prekallikrein, high molecular weight kininogen, kallikrein inhibitor, and C-1 INA were gradually decreased at delivery, and the levels of kallikrein like activity and bradykinin were increased during pregnancy and at the time of parturition. These facts indicate that kinin kallikrein systems played important role in uterine contraction. 2. The levels of contact factors (FXII and FXI) were lower at delivery than those of term. 3. In rat uterus, specific binding of bradykinin was observed by the method of radio receptor assay in the pelet of 10,000 X g fetal membranes, and its activity was 38%. 4. A synthetic kallikrein inhibitor (OS-291, MS) and bradykinin antagonist inhibited completely spontaneous uterine contraction of Wistar rats during delivery. 5. In the case of FXII deficiency, the levels of plasma prekallikrein, high molecular weight kininogen were normal, but at delivery, these levels were lower than those of term. The levels of kallikrein like activity which was half of normal parturition level was increased at parturition. 6. In cases of DIC (17) and severe toxemia (22), plasma prekallikrein levels were lower than the normal controls. The decrease was due to consumption of plasma prekallikrein to kallikrein activation.
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PMID:[Physiopathology of kinin forming system in reproduction]. 259 38

The mitomycin antibiotics, because of their preferential toxicities for hypoxic cells, have significant potential as adjuncts to ionizing radiation in the treatment of solid tumors. To gain information on the mechanism by which these agents exert their cytotoxicities to hypoxic and aerobic cells, the effects of MC, POR and several of their analogs were studied in EMT6 mammary carcinoma cells. The rate of uptake of POR by these cells was directly correlated with the cytotoxicity produced by this agent under both hypoxia and aeration. At equivalent concentrations, uptake of POR into hypoxic cells was more rapid than into aerobic cells. Hypoxic cells also accumulated the antibiotic in concentrations well in excess of that present in the extracellular medium, presumably as a result of reductive activation and covalent binding of POR to cellular structures. Such activation and binding occur to a much lesser degree in aerated cells, resulting in the rapid efflux of POR from these cells when the antibiotic is removed from the extracellular environment. To gain information on the reaction of POR with DNA, mono- and bis-adducts formed in EMT6 cells exposed to this agent were measured. Three major adducts were formed. Two were mono-adducts consisting of deoxyguanosine linked at its N2-position to the C-1 of POR and of 10-decarbamoyl POR. The third was a bis-adduct in which POR was cross-linked to two deoxyguanosines at their N2-positions. More adducts were formed in hypoxia than in air, and more bis-adducts were present in hypoxic cells. Simultaneous exposure of cells to both POR and DIC reduced the total adduct level and a new unknown adduct was formed, primarily under hypoxia. Several mitomycins were evaluated for their capacity to kill EMT6 cells and to produce DNA cross-links in both hypoxia and aeration. The number of cross-links required to produce a given amount of cell kill was similar, regardless of the mitomycin employed or the degree of oxygenation. The findings support the concept that DNA is a critical target in the action of the mitomycins and that cross-linking of the DNA creates an important lesion for cytodestruction.
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PMID:Studies on the mechanism of the cytotoxic action of the mitomycin antibiotics in hypoxic and oxygenated EMT6 cells. 835 15