Acentrosomal spindle assembly and maintenance in C. elegans oocytes requires a kinesin-12 non-motor microtubule interaction domain

• Published in: Molecular biology of the cell p. mbcE22020056
• Main Authors: Wolff, Ian D, Hollis, Jeremy A, Wignall, Sarah M
• Format: Journal Article
• Language: English
• Published: United States 20.05.2022
• ISSN: 1939-4586

During the meiotic divisions in oocytes, microtubules are sorted and organized by motor proteins to generate a bipolar spindle in the absence of centrosomes. In most organisms, kinesin-5 family members crosslink and slide microtubules to generate outward force that promotes acentrosomal spindle bipolarity. However, the mechanistic basis for how other kinesin families act on acentrosomal spindles has not been explored. We investigated this question in oocytes where kinesin-5 is not required to generate outward force and the kinesin-12 family motor KLP-18 instead performs this function. Here we use a combination of biochemical assays and mutant analysis to provide insight into the mechanism by which KLP-18 promotes acentrosomal spindle assembly. We identify a microtubule binding site on the C-terminal stalk of KLP-18 and demonstrate that a direct interaction between the KLP-18 stalk and its adaptor protein MESP-1 activates non-motor microtubule binding. We also provide evidence that this C-terminal domain is required for KLP-18 activity during spindle assembly and show that KLP-18 is continuously required to maintain spindle bipolarity. This study thus provides new insight into the construction and maintenance of the oocyte acentrosomal spindle as well as into kinesin-12 mechanism and regulation. [Media: see text] [Media: see text].