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1.
Dennis W. Jung Gerald P. Brierley 《Biochemical and biophysical research communications》1982,106(4):1372-1377
Heart mitochondria respiring in the presence of Pi release endogenous K+ to a sucrose medium when an uncoupler is added. The uncoupled mitochondria retain K+, however, if the oxidation of NAD(P)H is prevented by the addition of rotenone or antimycin. Addition of rotenone, once the uncoupler-dependent K+-efflux has been initiated, results in a rapid reduction of NAD(P) and a simultaneous decrease in permeability to K+. These changes are independent of respiration. The results suggest that a latent pathway for K+-permeability is present in the membrane, that it can be opened and closed reversibly, and that it reflects, either directly or indirectly, the redox status of mitochondrial pyridine nucleotides. The possible relationship of this putative pathway to those available for Ca2+ uptake and release is considered. 相似文献
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Gerald P. Brierley Kemal Baysal Dennis W. Jung 《Journal of bioenergetics and biomembranes》1994,26(5):519-526
It is now well established that mitochondria contain three antiporters that transport monovalent cations. A latent, allosterically regulated K+/H+ antiport appears to serve as a cation-extruding device that helps maintain mitochondrial volume homeostasis. An apparently unregulated Na+/H+ antiport keeps matrix [Na+] low and the Na+-gradient equal to the H+-gradient. A Na+/Ca2+ antiport provides a Ca2+-extruding mechanism that permits the mitochondrion to regulate matrix [Ca2+] by balancing Ca2+ efflux against influx on the Ca2+-uniport. All three antiports have well-defined physiological roles and their molecular properties and regulatory features are now being determined. Mitochondria also contain monovalent cation uniports, such as the recently described ATP- and glibenclamide-sensitive K+ channel and ruthenium red-sensitive uniports for Na+ and K+. A physiological role of such uniports has not been established and their properties are just beginning to be defined. 相似文献
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Mitochondria isolated from potato tubers fail to undergo passive osmotic swelling when suspended in isotonic Na+ acetate or phosphate, in NaCl following addition of tripropyltin, or in Na+ nitrate following addition of an uncoupler. Swelling under each of these conditions in mitochondria from other sources has been attributed to the inward movement of Na+ on an endogenous Na+/H+ exchanger. Such a monovalent cation/H+ exchanger has also been implicated in respiration-dependent cation extrusion and contraction of swollen mitochondria. Potato mitochondria swollen in chloride and nitrate salts extrude ions and contract when respiration is initiated. The contraction reaction is slower and less efficient than that in beef heart mitochondria, but like the latter, is sensitive to uncouplers and stimulated by nigericin, butacaine, and Mg2+. These comparative studies suggest that a cation+/H+ exchanger is present in potato tuber mitochondria, but that it functions exclusively as a cation-extruding mechanism. They further suggest that cation+/H+ exchange activity is not identical in mitochondria from different sources and that these exchange components may have a directionality and regulatory features which differ with the metabolic needs of the source tissue. 相似文献
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The tuberculostatic and carcinogenic drug isonicotinic acid hydrazide (“isoniazid”) is oxidized to pyridine-4-carboxaldehyde by the horseradish peroxidase/Mn2+/O2 system. Eosin and related sensitizers greatly accelerate the reaction and generate light detectable with the liquid scintillation counter or with the photon counter. If the isoniazid concentration is raised, the rate and extent of O2 uptake are increased, but above a certain concentration of isoniazid, emission is reduced and even suppressed. The strong quencher of triplet eosin, potassium ferricyanide, abolished both effects of eosin, that is, catalysis and light emission. Superoxide dismutase at high concentrations partially suppressed the emission and almost totally removed the catalytic effect. It is tentatively proposed that the isoniazid/peroxidase/Mn2+/O2 system efficiently produces the aldehyde in the triplet state, which in turn transfers energy to eosin. Because of the presence of oxygen, only a small yield of triplet eosin is obtained and only a small fraction of these triplet eosin molecules is able to react with isoniazid. Nevertheless, it will contribute efficiently to a cyclic process of oxidation of the isoniazid. 相似文献