A novel C-terminal kinesin is essential for maintaining functional acidocalcisomes in Trypanosoma brucei

Kinesins are cytoskeletal motor proteins that play roles in a variety of fundamental cellular processes including cell division and the anterograde transport of vesicles and organelles. We purified, cloned, and functionally characterized in Trypanosoma brucei a new member of the C-terminal kinesin family, TbKIFC1. Kinetic constants of the recombinant motor domain of TbKIFC1 were estimated at 0.56 muM for the microtubule dissociation constant (K-d) with a k(cat) of 0.2 s(-1). Immunolocalization analysis showed an association of TbKIFC1 with punctate structures. Because they were rapidly transported to the negative pole of the microtubule after NH4Cl treatment, these structures were considered to be associated with acidic vesicles. To determine the role of the kinesin in vivo, we produced an inducible kinesin-deficient strain by double-stranded RNA interference methodology. Mutant cells were loaded with the fluorescent reagent fura2/acetoxymethylester to measure intracellular free calcium ([Ca2+](i)). The resting [Ca2+](i) was unchanged in mutant cells; how. ever, alkalinization of acidic vesicles induced by NH4Cl or nigericin was not followed by release of Ca2+. These data and the relative importance of the ionomycin-releasable and the ionomycin-plus-NH4Cl-releasable Ca2+ pools suggest a lower Ca2+ content in acidocalcisomes and dysfunctional Ca2+ release.