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991.
992.
993.
Na,K-ATPase inhibition alters tight junction structure and permeability in human retinal pigment epithelial cells 总被引:2,自引:0,他引:2
Rajasekaran SA Hu J Gopal J Gallemore R Ryazantsev S Bok D Rajasekaran AK 《American journal of physiology. Cell physiology》2003,284(6):C1497-C1507
Na,K-ATPase regulates avariety of transport functions in epithelial cells. In cultures ofhuman retinal pigment epithelial (RPE) cells, inhibition of Na,K-ATPaseby ouabain and K+ depletion decreased transepithelialelectrical resistance (TER) and increased permeability of tightjunctions to mannitol and inulin. Electrophysiological studiesdemonstrated that the decrease in TER was due to an increase inparacellular shunt conductance. At the light microscopy level, thisincreased permeability was not accompanied by changes in thelocalization of the tight junction proteins ZO-1, occludin, andclaudin-3. At the ultrastructural level, increased tight junctionpermeability correlated with a decrease in tight junction membranecontact points. Decreased tight junction membrane contact points andincreased tight junction permeability were reversible inK+-repletion experiments. Confocal microscopy revealed thatin control cells, Na,K-ATPase was localized at both apical andbasolateral plasma membranes. K+ depletion resulted in alarge reduction of apical Na,K-ATPase, and after K+repletion the apical Na,K-ATPase recovered to control levels. Theseresults suggest a functional link exists between Na,K-ATPase and tightjunction function in human RPE cells. 相似文献
994.
The midgut proteases of the Bacillus thuringiensis resistant and susceptible populations of the diamondback moth, Plutella xylostella L. were characterized by using protease specific substrates and inhibitors. The midgut contained trypsin-like proteases of molecular weights of 97, 32, 29.5, 27.5, and 25 kDa. Of these five proteases, 29.5 kDa trypsin-like protease was the most predominant in activation of protoxins of Cry1Aa and Cry1Ab. The activation of Cry1Ab protoxin by midgut protease was fast (T(1/2) of 23-24 min) even at a protoxin:protease ratio of 250:1. The protoxin activation appeared to be multi-step process, and at least seven intermediates were observed before formation of a stable toxin of about 57.4 kDa from protoxin of about 133 kDa. Activation of Cry1Aa was faster than that of Cry1Ab on incubation of protoxins with midgut proteases and bovine trypsin. The protoxin and toxin forms of Cry proteins did not differ in toxicity towards larvae of P. xylostella. The differences in susceptibility of two populations to B. thuringiensis Cry1Ab were not due to midgut proteolytic activity. Further, the proteolytic patterns of Cry1A protoxins were similar in the resistant as well as susceptible populations of P. xylostella. 相似文献
995.
996.
Babu TS Akhtar TA Lampi MA Tripuranthakam S Dixon DG Greenberg BM 《Plant & cell physiology》2003,44(12):1320-1329
Metals and ultraviolet (UV) radiation are two environmental stressors that can cause damage to plants. These two types of stressors often impact simultaneously on plants and both are known to promote reactive oxygen species (ROS) production. However, little information is available on the potential parallel stress responses elicited by metals and UV radiation. Using the aquatic plant Lemna gibba, we found that copper and simulated solar radiation (SSR, a light source containing photosynthetically active radiation (PAR) and UV radiation) induced similar responses in the plants. Both copper and SSR caused ROS formation. The ROS levels were higher when copper was combined with SSR than when applied with PAR. Higher concentrations of copper plus PAR caused toxicity as monitored by diminished growth and chlorophyll content. This toxicity was more pronounced when copper was combined with SSR. Because the generation of ROS was also higher when copper was combined with SSR, we attributed this enhanced toxicity to elevated levels of ROS. In comparison to PAR-grown plants, SSR treated plants exhibited elevated levels of superoxide dismutase (SOD) and glutathione reductase (GR). These enzyme levels were further elevated under both PAR and SSR when copper was added at concentrations that generated ROS. Interestingly, copper treatment in the absence of SSR (i.e. copper plus PAR) induced synthesis of the same flavonoids as those observed in SSR without copper. Finally, addition of either dimethyl thiourea or GSH (two common ROS scavengers) lowered in vivo ROS production, alleviated toxicity and diminished induction of GR as well as accumulation of UV absorbing compounds. Thus, the potential of ROS being a common signal for acclimation to stress by both copper and UV can be considered. 相似文献
997.
Razani-Boroujerdi S Singh SP Knall C Hahn FF Peña-Philippides JC Kalra R Langley RJ Sopori ML 《Cellular immunology》2004,230(1):1-9
Epidemiological data suggest an association between smoking, respiratory infections, and impaired wound healing. Inflammation is critical in the body's defense against pathogens and in the wound-healing process. Although nicotine is used to treat some inflammatory conditions, the mechanism of this action is largely unknown. To determine how nicotine affects inflammation, rats and mice were exposed to nicotine via miniosmotic pumps, and the inflammatory response to turpentine or influenza virus was assessed. Results showed that while nicotine suppressed the migration of leukocytes to the inflammation/infection site, it increased the influenza titer in the lung. The decreased inflammation correlated with lower chemotaxis/chemokinesis of peripheral blood mononuclear cells (PBMC) toward formyl-methionyl-leucyl-phenylalanine and monocyte chemoattractant protein-1 without affecting the density of their respective receptors. However, nicotine suppressed the chemokine-induced Ca(2+) response in PBMC, indicating impaired chemokine signaling. Thus, because nicotine suppresses leukocyte migration, it might contribute to the delayed wound healing and increased incidence of respiratory infections among smokers. 相似文献
998.
999.
Flobufen (F) is an original nonsteroidal antiinflammatory drug that exists in two enantiomeric forms. Its biotransformation was investigated in male guinea pigs because of the similarities shown in a preliminary F metabolic study between guinea pig and man. Stereospecificity of the respective enzymes was studied in vitro, using microsomes and cytosol, and in vivo, in urine and feces. Rac-F, R-F, and S-F served as substrates. The amount of 4-dihydroflobufen stereoisomers (DHF) and other metabolites (M-17203 and UM-2) was determined by chiral HPLC using an R,R-ULMO column. It was observed that F reductases were distributed differently in microsomes and cytosol. The microsomal fraction showed higher activity and different stereospecificity in rac-F, R-F, and S-F reduction compared to cytosol. (2R;4S)-DHF was the principle metabolite in microsomes and (2S;4S)-DHF was the principle metabolite in cytosol. In vivo experiments revealed the excretion of a main metabolite UM-2 in addition to other metabolites M-17203 and DHF stereoisomers. UM-2 was predominantly excreted after S-F administration. Stereoselectivity of DHF stereoisomers excretion was different in urine and in feces. The absence of UM-2 and M-17203 in microsomes and cytosol and their presence in urine and feces showed that both could arise in some other extrahepatic tissue or cell compartment or that their formation depends on liver cell integrity. 相似文献
1000.
Lower chlorinated compounds such as cis-dichloroethene (cis-DCE) and vinyl chloride (VC) often accumulate in chloroethene-contaminated aquifers due to incomplete reductive dechlorination of higher chlorinated compounds. A highly enriched aerobic culture that degrades VC as a growth substrate was obtained from a chloroethene-contaminated aquifer material. The culture rapidly degraded 50-250 microM aqueous VC to below GC detection limit with a first-order rate constant of 0.2 day(-1). Besides VC, the culture also degraded ethene as the sole carbon source. In addition, the culture degraded cis-DCE, but only in the presence of VC. However, no degradation of trans-DCE or TCE occurred either in the presence or absence of VC. The ability of the TRW culture to degrade cis-DCE is significant for natural attenuation since both VC and cis-DCE are often found in chloroethene-contaminated groundwater. Experiments examining the effect of oxygen threshold on VC degradation showed that the culture was able to metabolize VC efficiently at extremely low concentrations of dissolved oxygen (DO). Complete removal of 150 micromoles of VC occurred in the presence of only 0.2 mmol of oxygen (1.8 mg/L DO). This is important since most groundwater environments contain low DO (1-2 mg/L). Studies showed that the culture was able to withstand long periods of VC starvation. For example, the culture was able to assimilate VC with minimal lag time even after 5 months of starvation. This is impressive from the point of its sustenance under field conditions. Overall the culture is robust and degrades VC to below the detection limit rendering this culture suitable for field application. 相似文献