oligomycins and sodium-bromide

Repeated extraction of bovine heart submitochondrial particles with ammonia and EDTA (AE) yields a preparation that is highly deficient in coupling factor B (FB). The activity of the thrice extracted particle (AE-P3) in ATP-driven NAD+ reduction by succinate and the 32Pi-ATP exchange activity were substantially stimulated, 8-fold and 5-fold, respectively, by purified FB. To decrease the basal activity of the particle further, the residual FB in AE-P3 was inactivated by treatment with the -SH reagent, 4-vinylpyridine. The resulting particle was depleted of F1 by treatment with 3.5 M NaBr. This particle was incorporated into asolectin liposomes alone and in the presence of added FB. Passive proton conduction in the FB-deficient proteoliposomes was negligible and restored in the presence of FB. The H+ conductance was inhibited extensively by oligomycin and partially by F1-ATPase. The results show absolute dependence on FB for functioning of the FO proton channel.

Topics: Adenosine Triphosphatases; Adenosine Triphosphate; Animals; Bromides; Cattle; Cell Fractionation; Ion Channels; Liposomes; Membrane Potentials; Mitochondria, Heart; Mitochondrial Proton-Translocating ATPases; Oligomycins; Oxidative Phosphorylation Coupling Factors; Proton-Translocating ATPases; Protons; Pyridines; Sodium; Sodium Compounds; Submitochondrial Particles

Mitochondrial H+ -ATPase complex, purified by the lysolecithin extraction procedure, has been resolved into a "membrane" (NaBr-F0) and a "soluble" fraction by treatment with 3.5 M sodium bromide. The NaBr-F0 fraction is completely devoid of beta, delta, and epsilon subunits of the F, ATPase and largely devoid of alpha and gamma subunits of F1, where F0 is used to denote the membrane fraction and F1, coupling factor 1. This is confirmed by complete loss of ATPase and Pi-ATP exchange activities. The addition of F1 (400 micrograms X mg-1 F0) results in complete restoration of oligomycin sensitivity without any reduction in the F1-ATPase activity. Presumably, this is due to release of ATPase inhibitor protein from the F1-F0 complex consequent to sodium bromide extraction. Restoration of Pi-ATP exchange and H+ -pumping activities require coupling factor B in addition to F1-ATPase. The oligomycin-sensitive ATPase and 32Pi-ATP exchange activities in reconstituted F1-F0 have the same sensitivity to uncouplers and energy transfer inhibitors as in starting submitochondrial particles from the heavy layer of mitochondria and F1-F0 complex. The data suggest that the altered properties of NaBr-F0 observed in other laboratories are probably inherent to their F1-F0 preparations rather than to sodium bromide treatment itself. The H+ -ATPase (F1-F0) complex of all known prokaryotic (3, 8, 9, 10, 21, 32, 34) and eukaryotic (11, 26, 30, 33, 35-37) phosphorylating membranes contain two functionally and structurally distinct entities. The hydrophilic component F1, composed of five unlike subunits, shows ATPase activity that is cold labile as well as uncoupler- and oligomycin-insensitive. The membrane-bound hydrophobic component F0, having no energy-linked catalytic activity of its own, is indirectly assayed by its ability to regain oligomycin sensitive ATPase and Pi-ATP exchange activities on binding to F1-ATPase (33). The purest preparations of bovine heart mitochondrial F0 show seven or eight major components in polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate or SDS-PAGE (1, 2, 12, 14), ranging from 6 to 54 ku in molecular weight (12). The precise structure and polypeptide composition of mitochondrial F0 is not known. The F0 preparations from bovine heart reported so far have been derived from H+ -ATPase preparations isolated in the presence of cholate and deoxycholate (11, 33, 36, 37).(ABSTRACT TRUNCATED AT 400 WORDS)

Topics: Adenosine Triphosphate; Animals; Bromides; Cattle; In Vitro Techniques; Mitochondria, Heart; Oligomycins; Phosphates; Protein Conformation; Proton-Translocating ATPases; Sodium; Sodium Compounds

1. Oligomycin and dicyclohexylcarbodiimide-sensitive ATPase was isolated from beef-heart mitochondria and treated with 3.5 M NaBr in order to remove F1. The residue, called F0, was found to consist of seven components. Five of these are stained by Coomassie blue after dodecylsulfate-polyacrylamide-gel electrophoresis. Two of them correspond to the oligomycin-sensitivity-conferring protein and coupling factor F6, with apparent molecular weights of 21,000 and 9,400, respectively. Three additional polypeptides of molecular weights 23,000, 10,500 and 8,600 were not identified with known proteins. Two components not stained with Coomassie blue were detected by autoradiography of the gels of F0 preincubated with [14C]dicyclohexylcarbodiimide. These two components probably represent monomeric and oligomeric forms of the dicyclohexylcarbodiimide-binding protein. 2. F0 induced an oligomycin and dicyclohexylcarbodiimide-sensitive enhancement of K+ + valinomycin-driven proton translocation across the membrane of artificial phospholipid vesicles. 3. The interaction of F0 with purified, soluble beef heart F1 was investigated. F0 was capable of binding F1 and conferring oligomycin and dicyclohexylcarbodiimide sensitivity and cold stability on its ATPase activity. Furthermore F0 was found to diminish the specific activity of F1-ATPase. A comparison of these effects at varying F0/F1 ratios shows that F0 binds F1 in both an oligomycin-sensitive and an oligomycin-insensitive manner, and that both types of binding involve a conferral of cold stability and a decrease in specific activity. High F0/F1 ratios favoured in oligomycin-sensitive type of binding, indicating that F1 binds preferentially to oligomycin-sensitivity-conferring sites. Treatment of ATPase complex with trypsin resulted in an F0 with a decreased proportion of oligomycin-sensitivity-conferring binding sites and a diminished ability to lower the specific activity an cold lability of F1. 4. Reconstitution of F0 treated with trypsin and F1, oligomycin-sensitivity-conferring protein and F6 showed that at a constant amount of F1 bound, both oligomycin-sensitivity-conferring protein and F6 increased the oligomycin sensitivity of ATPase activity. It was therefore concluded that both of these coupling factors are involved in the conferral of oligomycin sensitivity. 5. The effect of the order of addition of F1, oligomycin-sensitivity-conferring protein and F6 to F0 on the reconstitution of oligomycin-sensitive ATPase

Topics: Adenosine Triphosphatases; Animals; Bromides; Carbodiimides; Carrier Proteins; Cattle; Dicyclohexylcarbodiimide; Liposomes; Macromolecular Substances; Membrane Proteins; Mitochondria, Heart; Mitochondrial Proton-Translocating ATPases; Molecular Weight; Oligomycins; Oxidative Phosphorylation Coupling Factors; Proton-Translocating ATPases; Protons; Sodium; Sodium Compounds