Trypanosome morphogenesis involves recruitment of a pleckstrin homology domain protein by an orphan kinesin to the microtubule quartet

Kinesins are motor proteins found in all eukaryotic lineages that move along microtubule tracks to mediate numerous cellular processes such as mitosis and intracellular transport of cargo. In trypanosomatids, the kinesin protein superfamily has undergone a prominent expansion, giving these protists one of the most diverse kinesin repertoires. This has led to the emergence of two trypanosomatid-restricted groups of kinesins. Here, we characterize in Trypanosoma brucei TbKifX2, a hitherto orphaned kinesin that belongs to one of these groups. Representing a rare instance, TbKifX2 tightly interacts with TbPH1, a kinesin-like protein with an inactive motor domain. TbPH1 is named after a pleckstrin homology (PH) domain present within its carboxy-terminal tail. TbKifX2 recruits TbPH1 to the microtubule quartet (MtQ), a characteristic but poorly understood cytoskeletal structure that is part of the multipartite flagellum attachment zone (FAZ) and extends from the basal body to the anterior of the cell body. The proximal proteome of TbPH1 is comprised of four proteins that localize to the FAZ, consistent with the notion that the TbKifX2/TbPH1 complex are the first identified proteins to bind the MtQ along its whole length. Simultaneous ablation of both TbKifX2 and TbPH1 leads to the formation of prominent protrusions from the cell posterior. Thus, these two trypanosomatid-restricted proteins, which specifically localize to the MtQ in a microtubule-rich cell, appear to be contributors to morphogenesis in T. brucei.