Abstract
Clotrimazole (CLT) is an antimycotic imidazole derivative that is known to inhibit cytochrome P-450, ergosterol biosynthesis and proliferation of cells in culture, and to interfere with cellular Ca(2+) homeostasis. We found that CLT inhibits the Ca(2+)-ATPase of rabbit fast-twitch skeletal muscle (SERCA1), and we characterized in detail the effect of CLT on this calcium transport ATPase. We used biochemical methods for characterization of the ATPase and its partial reactions, and we also performed measurements of charge movements following adsorption of sarcoplasmic reticulum vesicles containing the ATPase onto a gold-supported biomimetic membrane. CLT inhibits Ca(2+)-ATPase and Ca(2+) transport with a K(I) of 35 mum. Ca(2+) binding in the absence of ATP and phosphoenzyme formation by the utilization of ATP in the presence of Ca(2+) are also inhibited within the same CLT concentration range. On the other hand, phosphoenzyme formation by utilization of P(i) in the absence of Ca(2+) is only minimally inhibited. It is concluded that CLT inhibits primarily Ca(2+) binding and, consequently, the Ca(2+)-dependent reactions of the SERCA cycle. It is suggested that CLT resides within the membrane-bound region of the transport ATPase, thereby interfering with binding and the conformational effects of the activating cation.
Highlights
It is reported that CLT affects the Ca2ϩ pump activity of SR vesicles isolated from rabbit heart muscle, producing inhibition of the Ca2ϩ-dependent reactions of the ATPase (SERCA2) obtained from cardiac myocytes [5]
We investigated the effect of CLT on the Ca2ϩ-ATPase (SERCA1) associated with native membrane vesicles derived from rabbit fast-twitch skeletal muscle
With the aim of determining whether the effect of CLT is a total inhibition of SERCA activity or is rather because of interference with a specific partial reaction, we measured independently [45Ca]Ca2ϩ binding in the absence of ATP, E-P formation by utilization of [␥-32P]ATP in the presence of Ca2ϩ, and E-P formation by utilization of [32P]Pi in the absence of Ca2ϩ
Summary
It is reported that CLT affects the Ca2ϩ pump activity of SR vesicles isolated from rabbit heart muscle, producing inhibition of the Ca2ϩ-dependent reactions of the ATPase (SERCA2) obtained from cardiac myocytes [5]. In addition to biochemical characterization of the ATPase and its partial reactions, we performed direct measurements of charge translocation following adsorption of SR vesicles containing ATPase onto a biomimetic membrane supported by a gold electrode and activation by rapid mixing with a suitable substrate [19]. This technique has been used successfully in studies of electrogenic transport by several membrane proteins, such as Naϩ,Kϩ-ATPase [20, 21], melibiose permease [22], and Naϩ/proline antiporter [23], including the SERCA pump [24, 25]. The Ca2ϩ-dependent reactions of this enzyme are inhibited
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