Abstract
Ellipticine is an antitumor alkaloid capable of uncoupling mitochondrial oxidative phosphorylation. It behaves as a lipophilic weak base with pK = 7.40. We have investigated its molecular mode of action using several of its isomers with pK ranging between 5.8 and 7.7 and ellipticinium, which is a permanent cationic derivative. The effects of these molecules on mitochondrial oxygen uptake and transmembrane potential were compared at different pHs. Ellipticinium exhibited very low effects on both respiratory rate and membrane potential. By contrast, protonable derivatives showed maximal stimulation of oxygen uptake and depolarizing effects when the pH of the medium was close to the drug pK. These effects were lowered when the transmembrane delta pH was dissipated, which indicates that the neutral form of the drug is implicated in the uncoupling mechanism. In addition, protonable derivatives of ellipticine display a linear relationship between oxidation rate and transmembrane potential, which suggests that the uncoupling properties of these molecules result from a protonophoric mechanism. From these results, the following cyclic protonophoric mechanism is proposed for protonable ellipticines: (i) electrophoretical accumulation of the protonated form; (ii) deprotonation at the matrix interface; (iii) diffusion outwards; and (iv) reprotonation at the external interface.
Highlights
Ellipticine, a natural alkaloid from Ochrosia elliptica, has been shown to display some antitumor properties (1)
The possibility that these organelles rather than the nucleus might be a privileged pharmacological target has been suggested. This assumption has been supported by data indicating that ellipticine is a potent inhibitor of electron transfer in mitochondrial membranes
Ellipticine was mainly detected within the inner mitochondrial membrane, and its protonation equilibrium was shown to directly reflect the electrogenic Hϩ ion movement that occurs during energy coupling (10)
Summary
Ellipticine, a natural alkaloid from Ochrosia elliptica, has been shown to display some antitumor properties (1). Data based on microspectrofluorometric analyses have shown that an important fraction of ellipticine accumulates in mitochondria (6). The possibility that these organelles rather than the nucleus might be a privileged pharmacological target has been suggested. We had investigated the protonation state of ellipticine bound to mitochondrial membranes at low drug concentrations that do not affect mitochondrial functions (10). Based on the data obtained, a new cyclic protonophoric mechanism is proposed for ellipticine and its isomers This mechanism is discussed according to the physicochemical properties of these molecules
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