Abstract
Peptides with sequences based on the leader sequence of yeast cytochrome c oxidase subunit IV (pCOX IV-(1-25)) activate the electrophoretic uptake of K+ and other cations such as tetraethylammonium and lysine by rat liver mitochondria with EC50 = 11-15 microM. Uptake of these cations is dependent on respiration and is prevented by uncoupling agents, and the Vmax for K+ is 1.2-1.5 micromol/min/mg. Albeit more slowly, the non-electrolytes mannitol and sucrose are also transported by this pathway. Treatment of the peptides with proteinase K eliminates the stimulatory effect. Since the stimulated rate is not inhibited by ATP or by cyclosporin, we conclude that this pathway is not related to the mitochondrial KATP channel or the Ca2+-dependent permeability transition pore. Transport is stimulated by pCOX IV-(1-23), pCOX IV-(1-22), and pCOX IV-(1-12)Y, but not by a 13-amino acid peptide representing the nuclear location sequence of the SV40 large T antigen, which is responsible for directing that protein to the nucleus. Spermine, which has four positive charges, also has no stimulatory effect, and an amphiphilic 22-residue peptide derived from antithrombin III with seven net charges is only one-twentieth as effective as pCOX IV-(1-22). Thus, these data indicate that the sequence/structure is important for activation of transport. We also demonstrate that mitochondrial uncoupling, previously reported to be induced by these peptides, actually reflects coupled accumulation of salt. In view of our findings, it is also likely that the lytic effects attributed to these peptides are secondary to swelling and are not due to membrane damage per se. Finally, we show that, in non-ionic media, the peptide is an inhibitor of cytochrome c oxidase.
Highlights
Paper (11), we examined the properties of a Kϩ transport pathway in intact mitochondria that is stimulated by N-ethylmaleimide and inhibited by adenine nucleotides
PCOX IV-(1–22) Stimulates Kϩ Uptake in Respiring Mitochondria—In a previous study (11), we demonstrated that respiring mitochondria swell in Kϩ salts of permeant acids and that this transport can be partially inhibited by ATP
We have examined the effect of the leader sequence of cytochrome oxidase subunit IV on Kϩ transport in intact mitochondria
Summary
(Received for publication, August 13, 1996, and in revised form, March 18, 1997). Yun Lu and Andrew D. Peptides with sequences based on the leader sequence of yeast cytochrome c oxidase subunit IV (pCOX IV-(1– 25)) activate the electrophoretic uptake of K؉ and other cations such as tetraethylammonium and lysine by rat liver mitochondria with EC50 ؍11–15 M. That they activate a transport pathway that conducts Kϩ, tetraethylammonium, and lysine cations, and the non-electrolytes sucrose and mannitol Activation of this pathway does not uncouple mitochondria per se; the respiration-coupled uptake of salts probably explains the reported respiratory stimulation (3, 13, 14, 16). The swelling that ensues probably explains the reported peptide-induced disruption of mitochondria (16) We suggest that this pathway could be involved in protein import
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