Characterization of glutathione efflux from Hep G2 cells

Previous studies have suggested that both cAMP-dependent signal transduction pathway and Ca2+/protein kinase C-dependent pathway are involved in GSH efflux from hepatocytes. In the present study, GSH efflux from Hep G2 cells, a human-derived hepatoma cell line, was further characterized. Both epidermal growth factor (0.1-10 ng/ml) and insulin (1 microgram/ml) significantly increased GSH efflux from Hep G2 cells. A fall in the membrane potential produced by the replacement of Na+ with equivalent K+ did not affect GSH efflux significantly. Neither ouabain, a Na+/K+ ATPase inhibitor, vanadate, a Ca2+ ATPase inhibitor, nor BaCl2, a K+ channel blocker, significantly affected the GSH efflux. Methionine (1mM) decreased GSH efflux from the cells, although total GSH content in the cells was not affected during the incubation time of 60 min. Signal transductions through tyrosine kinase-coupled receptors may also be involved in GSH efflux from hepatocytes.     

Differential rate of cholesterol efflux from the apical and basolateral membranes of MDCK cells

Epithelial cells contain two distinct membrane surfaces, the apical and basolateral plasma membranes, which have different lipid and protein compositions. In order to assess the effect of the compositional differences of the apical and basolateral membranes on their ability to undergo cholesterol efflux, MDCK cells were radiolabeled with [3H]cholesterol and grown as a polarized monolayer on filter inserts, that separate the upper apical compartment from the lower basolateral compartment. The rate of cholesterol efflux from the basolateral membrane into media containing HDL in the basolateral compartment was 6.3%/h +/-0.7, whereas HDL-mediated efflux from the apical membrane was approximately 3-fold slower (1.9%/h +/-0.3). In contrast, Fu5AH cells, which do not form distinct polarized membrane domains, had a similar rate of HDL-mediated cholesterol efflux into the apical and basolateral compartments. Similar to HDL, other cholesterol acceptors, namely LDL, bovine serum albumin, and a lipid emulsion, also showed a decreased rate of cholesterol efflux from the apical membrane surface versus the basolateral membrane. Compared to the basolateral membrane, the apical membrane was also found to be more resistant to cholesterol oxidase treatment, to bind less HDL, and to take up less cholesterol from the medium. In conclusion, cholesterol efflux occurred less readily from the apical membrane than from the basolateral membrane for all types of acceptors tested. These results suggest that differences in the composition of the apical and basolateral membrane lead to a relative decrease in cholesterol desorption from the apical membrane and hence a reduced rate of cholesterol efflux.     

Stimulatory effect of lymphocyte-derived factor on catecholamine efflux from cultured bovine adrenal medullary cells

The effects of lymphocytes and their conditioned medium on catecholamine efflux and uptake were examined in cultured bovine adrenal medullary cells. Co-culture of adrenal medullary cells with lymphocytes for 3 days caused an increase in appearance of catecholamines in the culture medium. Treatment of adrenal medullary cells with a conditioned medium prepared from lymphocytes also enhanced the appearance of catecholamines in culture medium in time- (8-48 h) and concentration-dependent manners. Heat treatment of the conditioned medium at 60 and 100 degrees C for 10 min reduced its stimulatory effect to 59 and 20% of control, respectively. After gel filtration on a Sephadex G-25 column or dialysis (<8 kDa molecular mass cutoff), the stimulatory activity of the conditioned medium was found in a high molecular fraction. The conditioned medium had little effect on the activity of lactate dehydrogenase in the medium of cultured adrenal medullary cells and on desipramine-sensitive [3H]norepinephrine uptake by the cells. These findings suggest that lymphocytes release a heat-sensitive factor(s) (molecular mass of more than 8 kDa) which increases efflux of catecholamines from cultured adrenal medullary cells.     

Continuous in situ electrochemical monitoring of doxorubicin efflux from sensitive and drug-resistant cancer cells

One of the least well understood problems in cancer chemotherapy is the cross-resistance of certain tumor cells to a series of chemically unrelated drugs. Multidrug resistance (MDR) can be attributed to several different biophysical processes, among them increased drug efflux. This has been found to correlate with overexpression of the cell surface 170-kDa P-glycoprotein that actively excludes cytotoxic drugs against their concentration gradient. To better understand MDR, experimental methods are needed to study drug efflux from cancer cells. Continuous measurement of efflux of nonfluorescent drugs on the same cell culture in situ, or assessing efflux from a few cells or even a single cell, is beyond the capabilities of existing technologies. In this work, a carbon fiber (CF) microelectrode is used to monitor efflux of doxorubicin from a monolayer of two cell lines: an auxotrophic mutant of Chinese hamster ovary cells, AUXB1, and its MDR subline, CHRC5. Because doxorubicin is both fluorescent and electroactive, the results could be validated against existing data obtained optically and with other techniques on the same cell lines, with good agreement found. The electrochemical detection, however, is capable of in situ monitoring with high temporal resolution and is suitable for single-cell studies.     

Methylmercury efflux from brain capillary endothelial cells is modulated by intracellular glutathione but not ATP

To reach its target tissue, methylmercury must traverse brain capillary endothelial cells, the site of the blood-brain barrier. Methylmercury uptake from blood plasma into these cells is mediated in part by an amino acid carrier that transports the methylmercury-L-cysteine complex; however, the mechanism by which it is released from the endothelial cells into brain interstitial space is unknown. Using bovine brain capillary endothelial cells in culture, the present study examined the hypothesis that methylmercury is transported out of these cells as a glutathione (GSH) complex. GSH concentration in cultured bovine brain capillary endothelial cells was 13.1 +/- 3.3 nmol/mg protein. Depletion of intracellular GSH in [203Hg]methylmercury-preloaded cells by exposure to 1-chloro-2,4-dinitrobenzene or diethyl maleate decreased the rate of [203Hg]methylmercury efflux. Incubation of [203Hg]methylmercury-preloaded cells with high concentrations of S-methylglutathione, S-ethylglutathione, S-butylglutathione, and sulfobromophthalein-glutathione inhibited [203Hg]methylmercury efflux. The GSH analogs gamma-glutamylglycylglycine and ophthalmic acid also inhibited [203Hg]methylmercury efflux, but to a lesser degree than the glutathione S-conjugates, whereas L-leucine, L-methionine, and L-alanine had no effect. Efflux was not affected by depletion of intracellular ATP with 2-deoxyglucose or antimycin A. These results indicate that complexation with GSH and subsequent transport of the complex by an ATP-independent mechanism may be involved in the transport of methylmercury out of brain capillary endothelial cells.     

Respiration-dependent efflux of magnesium ions from heart mitochondria

Energy-linked respiration causes a net movement of Mg2+ between rat heart mitochondria and the ambient medium. When the extramitochondrial concontration of Mg2+ is less that about 2.5 mM the net movement of Mg2+ constitutes an efflux, whereas a net influx of Mg2+ occurs when the external concentration of Mg2+ is greater than this. Both the efflux and the influx are induced to only a very small degree by externally added ATP. Evidence suggests that Pi may be required for the respiration-induced efflux of Mg2+.     

Drug retention, efflux, and resistance in tumor cells

This prospective, randomized trial of paediatric surgical outpatients, premedicated with oral midazolam, was designed to determine if an intravenous thiopentone induction of anaesthesia prolongs postoperative recovery compared to an inhalation induction with halothane. One hundred children, one to ten years of age, undergoing ENT surgical procedures of 30-60 min duration received midazolam 0.5 mg.kg-1 with atropine 0.03 mg.kg-1 and were randomized to either halothane (Group 1, n = 50) or a thiopentone induction (Group 2, n = 50) technique, followed by a standardized anaesthetic-protocol. Time to extubation was significantly greater in the thiopentone group (8.8 +/- 4 min vs 7.1 +/- 3 min, P < 0.05). Patients receiving thiopentone were also more sedated than the halothane group on arrival in the PARR (3.9 +/- 1.5, 3.3 +/- 1.7, respectively P < 0.05), but the differences disappeared after 30 min. Children premedicated with oral midazolam who receive an intravenous thiopentone induction have a slightly prolonged emergence from anesthesia compared to children induced with halothane.     

Saturable P-glycoprotein kinetics assayed by fluorescence studies of drug efflux from suspended human KB8-5 cells

This article describes a new and rapid method to determine the pumping rate of P-glycoprotein (P-gp) in intact cells. Multidrug resistant (MDR) human epidermoid carcinoma KB8-5 cells (containing P-gp) were loaded with daunorubicin (DNR) in the absence or in the presence of verapamil, sufficient to inhibit DNR pumping by P-gp. In either case, the cells were resuspended in medium devoid of DNR and the subsequent increase of the DNR fluorescence intensity was measured as a function of time. For cells loaded with the same amount of drug, the free cytosolic drug concentration (Ci(t)) was a unique function of the DNR medium concentration (Co(t)). The cellular drug content in the presence of verapamil decreased nonlinearly with decreasing extracellular drug concentration, indicating that the intracellular drug apparent distribution volume increased with decreasing cellular drug content. At each fluorescence intensity, we calculated the P-gp mediated (verapamil-inhibitable) DNR transport rate from the rate of increase of the DNR fluorescence intensity in the absence of verapamil minus the rate of increase of the DNR fluorescence intensity in the presence of verapamil. When plotted against the intracellular free drug concentration (as calculated from the total cellular drug content and a separately determined relation between the total cellular drug content and the intracellular free drug concentration: the apparent distribution volume), this P-gp mediated DNR transport rate showed saturation of P-gp at higher DNR concentrations. The results imply that P-gp mediated DNR transport is saturable (the value of Km is in the order of 1 microM).     

A novel method for direct and fluorescence independent determination of drug efflux out of leukemic blast cells

Multi drug resistance (MDR) is often due to an increased efflux of anti cancer drugs out of leukemic blast cells. Efflux assays are used to get an impression of functional resistance in those cells. Dyes like rhodamine 123 or 3'3'-diethyloxocarbocyanine iodide are commonly used for this purpose. A major known disadvantage is that dyes do not behave like cytotoxic drugs in efflux experiments. Assays using the self fluorescence of drugs like anthracyclines can not reveal a real impression of intracellular or effluxed drug due to quenching of the drug fluorescence in the nuclei of the cells. We have developed a reproducible and sensitive assay for direct and quantitative determination of drug efflux out of blast cells. This was done by a novel double radioactive labelling using a 3H-labelled drug and 14C-labelled sucrose as extracellular marker. So this assay can be applied to every drug of interest. Quenching of fluorescence is also by-passed with this technique as well as protracting washing or silicon oil procedures. As a model system we used the T-lymphoblastoid cell line CCRF CEM and its resistant sublines vincristine 100 and adriamycin 5000. The results were also transferable to clinical specimens of leukemic patients. In conclusion our assay may be used for precise and direct efflux measurement of a broad range of anti-cancer drugs in clinical MDR evaluation.     

Voltammetric studies on mechanisms of dopamine efflux in the presence of substrates and cocaine from cells expressing human norepinephrine transporter

The effects of substrates m-tyramine and beta-phenethylamine, as well as cocaine, on the DA efflux from a cell line stably expressing the human norepinephrine transporter (hNET) were investigated by using rotating disk electrode voltammetry. Both the substrates and cocaine induced apparent DA efflux in a concentration-dependent manner. Their EC50 values for inducing DA efflux were similar to their IC50 values for inhibiting DA uptake. The substrate-induced DA efflux was inhibited by various NET blockers, enhanced by raising the internal [Na+] with Na+,K+-ATPase inhibition, but was insensitive to membrane potential-altering agents valinomycin, veratridine, and high [K+]. The initial rate of m-tyramine-induced DA efflux was related to preloaded [DA] in a manner defined by a Michaelis-Menten expression. In contrast, DA efflux in the presence of cocaine displayed a much slower efflux rate, lower efficacy, was not stimulated by elevated internal [Na+], and was nonsaturable with preloaded [DA]. Single exponential kinetic analysis of the entire time course of the DA efflux showed that the apparent first-order rate constant for m-tyramine-induced DA efflux declined with increased preloaded [DA], whereas that for the DA efflux in the presence of cocaine was unchanged with varying preloaded [DA]. These results suggest that the substrates stimulate the NET-dependent DA efflux by increasing the accessibility of the NET to internal DA, whereas cocaine "uncovers" NET-independent DA efflux by reducing the accessibility of diffused/leaked external DA to the NET.     

Inner membrane efflux components are responsible for beta-lactam specificity of multidrug efflux pumps in Pseudomonas aeruginosa

A major feature of the MexAB-OprM multidrug efflux pump which distinguishes it from the MexCD-OprJ and MexEF-OprN multidrug efflux systems in Pseudomonas aeruginosa is its ability to export a wide variety of beta-lactam antibiotics. Given the periplasmic location of their targets it is feasible that beta-lactams exit the cell via the outer membrane OprM without interaction with MexA and MexB, though the latter appear to be necessary for OprM function. To test this, chimeric MexAB-OprJ and MexCD-OprM efflux pumps were reconstituted in delta mexCD delta oprM and delta mexAB delta oprJ strains, respectively, and the influence of the exchange of outer membrane components on substrate (i.e., beta-lactam) specificity was assessed. Both chimeric pumps were active in antibiotic efflux, as evidenced by their contributions to resistance to a variety of antimicrobial agents, although there was no change in resistance profiles relative to the native pumps, indicating that OprM is not the determining factor for the beta-lactam specificity of MexAB-OprM. Thus, one or both of inner membrane-associated proteins MexA and MexB are responsible for drug recognition, including recognition of beta-lactams.     

Uneven distribution of desmosterol and docosahexaenoic acid in the heads and tails of monkey sperm

Previously we demonstrated high concentrations of desmosterol and docosahexaenoic acid (DHA, 22:6 n-3) in monkey testes and sperm. Desmosterol, a cholesterol precursor, is not present elsewhere in the body. High concentrations of DHA are found elsewhere only in the retina and brain. To examine the distribution of these compounds in the heads and tails of sperm, we separated them and determined their sterol, fatty acid, and phospholipid molecular species composition. Desmosterol predominated in tails (134.4 vs. 1.7 microg/10(9) cells in heads). The cholesterol content was also greater in the tails (66.2 vs. 30.3 microg/10(9) cells in heads). Sperm tails had more polyunsaturated fatty acids than the heads (34.1 vs. 12.1% of total fatty acids) which resulted mainly from the higher contents of DHA (19.6 vs. 1.1%) and arachidonic acid (20:4 n-6) (6.4 vs. 1.6%) in the tails. These differences in fatty acid composition occurred mainly in phospholipids: phosphatidyl choline and phosphatidyl ethanolamine for n-3 fatty acids and phosphatidyl serine and cardiolipin for n-6 fatty acids. Fifteen phospholipid molecular species were identified. Sperm tails had more molecular species containing unsaturated fatty acids than the heads. Our results reveal the large differences in membrane lipid composition between the heads and tails of sperm. Most (99%) of the desmosterol and DHA in sperm is located in the tail. These differences may be responsible for the different functions of these two components of sperm. The large number of double bonds in DHA, six, and in desmosterol, two, may contribute to the membrane fluidity necessary for the motility of the sperm tails.     

Antibodies against high-density lipoprotein binding proteins enhance high-density lipoprotein uptake but do not affect cholesterol efflux from rat hepatoma cells

High-density lipoprotein plays a key role in the reverse cholesterol transport pathway as well as in the delivery of cholesterol to the liver and steroidogenic tissues. Metabolism of high-density lipoprotein is determined by one of its apolipoproteins, apolipoprotein A-I; however, the identity and function of cellular protein which binds high-density lipoprotein remains unclear. The effect of antibodies against rat high-density lipoprotein binding proteins, HB1 and HB2, on high-density lipoprotein metabolism in a rat hepatoma cell line were studied. Cells were preincubated with the antibodies and 125I-labeled high-density lipoprotein binding and uptake as well as cholesterol biosynthesis and cholesterol efflux to human plasma or isolated high-density lipoprotein were studied. Both antibodies reacted specifically with HB1 and HB2 on the ligand and Western blots, but their binding was not blocked by high-density lipoprotein. Both antibodies inhibited 125I-labeled high-density lipoprotein binding to cells by 20-40%, but stimulated 125I-labeled high-density lipoprotein uptake by up to 2.5-fold. The antibodies had no effect on cholesterol efflux or on cholesterol synthesis. It is concluded that high-density lipoprotein binding proteins, HB1 and HB2, may be involved in high-density lipoprotein uptake in the liver rather than in mediating cholesterol efflux.     

Proton efflux in human skeletal muscle during recovery from exercise

In recovery from exercise, phosphocreatine resynthesis results in the net generation of protons, while the net efflux of protons restores pH to resting values. Because proton efflux rate declines as pH increases, it appears to have an approximately linear pH-dependence. We set out to examine this in detail using recovery data from human calf muscle. Proton efflux rates were calculated from changes in pH and phosphocreatine concentration, measured by 31P magnetic resonance spectroscopy, after incremental dynamic exercise to exhaustion. Results were collected post hoc into five groups on the basis of end-exercise pH. Proton efflux rates declined approximately exponentially with time. These were rather similar in all groups, even when pH changes were small, so that the apparent rate constant (the ratio of efflux rate to pH change) varied widely. However, all groups showed a consistent pattern of decrease with time; the halftimes of both proton efflux rate and the apparent rate constant were longer at lower pH. At each time-point, proton efflux rates showed a significant pH-dependence [slope 17 (3) mmol x l(-1) x min(-1) x pH unit(-1) at the start of recovery, mean (SEM)], but also a significant intercept at resting pH [16 (3) mmol x l(-1) x min(-1) at the start of recovery]. The intercept and the slope both decreased with time, with halftimes of 0.37 (0.06) and 1.4 (0.4) min, respectively. We conclude that over a wide range of end-exercise pH, net proton efflux during recovery comprises pH-dependent and pH-independent components, both of which decline with time. Comparison with other data in the literature suggests that lactate/proton cotransport can be only a small component of this initial recovery proton efflux.     

Glutathione efflux associated with a low gamma-glutamyl transpeptidase activity in human melanoma cells

These experiments tested the hypothesis that a pool of PCR-derived RNA probes with defined length and even representation of the target sequences could produce more specific and intense in situ hybridization signals than randomly size-reduced, plasmid-derived RNA probes. In situ hybridization was performed with sense and anti-sense HIV-1 RNA probes that were derived from PCR products tailed with the T7 RNA polymerase promoter or from plasmid DNA. In situ hybridization using a pool of seven anti-sense or sense PCR-derived RNA probes (1805 nucleotides of HIV sequence, 257 nucleotides average probe length) was compared with hybridization using anti-sense or sense RNA probes made from a plasmid representing the HIV-1 env gene (3151 nucleotides of HIV-1 target). The pooled PCR-derived probes resulted in stronger in situ hybridization signals and less background than those produced with plasmid-derived RNA probes. This method for creating PCR-derived RNA probes improves the feasibility of synthesizing multiple, discrete RNA probes for studies of specific mRNA expression because it does not require the subcloning steps used to construct plasmids. PCR-derived RNA probes may provide a viable alternative to the use of plasmid-derived RNA probes for in situ hybridization.     

Potassium-evoked efflux of transmitter amino acids and purines from rat cerebral cortex

Repeated applications of elevated K+ (50 or 75 mM) in cerebral cortical cup superfusates was used to evoke an efflux of gamma-aminobutyric acid (GABA), glutamate, aspartate, glycine, adenosine, and inosine from the in vivo rat cerebral cortex. K+ (50 mM) significantly elevated GABA levels in cup superfusates but had little effect on the efflux of glutamate, aspartate, glycine, adenosine, or inosine. K+ (75 mM) significantly enhanced the efflux of GABA, aspartate, adenosine, and inosine and caused nonsignificant increases in glutamate and glycine efflux. The adenosine A1 receptor agonist N6-cyclopentyladenosine (CPA), applied in cup superfusates at a concentration of 10(-10) M had no effect on either basal or K(+)-evoked release of any of the amino acids or purines measured. At 10(-6) M CPA significantly enhanced aspartate release, and depressed GABA efflux. The selective A2 adenosine receptor agonist 2-p(2-carboxyethyl) phenethylamino-5'-N-ethyl-carboxamidoadenosine (CGS 21680) (10(-8) M) was without effect on either basal, or K(+)-evoked, efflux of amino acids or purines. The enhancement of aspartate (an excitotoxic amino acid) efflux by higher concentrations of CPA is likely due to activation of adenosine A2b receptors. This observation may be of relevance when selecting adenosinergic agents to treat ischemic or traumatic brain injuries. Overall, the results suggest that effects of adenosine receptor agonists on K(+)-evoked efflux of transmitter amino acids from the in vivo rat cerebral cortex may not be comparable to those observed with in vitro preparations.