Flagellar calcium-binding protein (FCaBP) is a dually acylated Ca(2+) sensor in the Trypanosoma cruzi flagellar membrane that undergoes a massive conformational change upon Ca(2+) binding. It is similar to neuronal Ca(2+) sensors, like recoverin, which regulate their binding partners through a calcium acyl switch mechanism. FCaBP is washed out of permeabilized cells with buffers containing EDTA, indicating Ca(2+)-dependent flagellar membrane association. We hypothesized that, like recoverin, FCaBP projects its acyl groups in the presence of Ca(2+), permitting flagellar membrane and binding partner association and that it sequesters the acyl groups in low Ca(2+), disassociating from the membrane and releasing its binding partner to perform a presumed enzymatic function. The X-ray crystal structure of FCaBP suggests that the acyl groups are always exposed, so we set out to test our hypothesis directly. We generated T. cruzi transfectants expressing FCaBP or Ca(2+)-binding mutant FCaBP(E151Q/E188Q) and recombinant wildtype and mutant proteins as well. Both FCaBP and FCaBP(E151Q/E188Q) were found to associate with lipid rafts, indicating the Ca(2+)-independence of this association. To our initial surprise, FCaBP(E151Q/E188Q), like wildtype FCaBP, exhibited Ca(2+)-dependent flagellar membrane association, even though this protein does not bind Ca(2+) itself [16]. One possible explanation for this is that FCaBP(E151Q/E188Q), like some other Ca(2+) sensors, may form dimers and that dimerization of FCaBP(E151Q/E188Q) with endogenous wildtype FCaBP might explain its Ca(2+)-dependent localization. Indeed both proteins are able to form dimers in the presence and absence of Ca(2+). These results suggest that FCaBP possesses two distinct Ca(2+)-dependent interactions-one involving a Ca(2+)-induced change in conformation and another perhaps involving binding partner association.
Keywords: Calcium; Dimer; Flagellum; Trypanosome.
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