Capture, mutual inhibition and release mechanism for aPKC-Par6 and its multi-site polarity substrate Lgl

The mutually antagonistic kinase-substrate relationship between the apical aPKC-Par6 heterodimer and the basolateral substrate Lgl is key to the establishment and maintenance of cell polarity across metazoa. Although aPKC-Par6 can phosphorylate Lgl at three serine sites to exclude it from the apical domain, paradoxically, aPKC-Par6 and Lgl can also form a stable kinase-substrate complex whose function remains unclear and with conflicting roles proposed for Par6. We report the structure of human aPKCι-Par6α bound to full-length Llgl1, captured through an aPKCι docking site and a Par6 ^PDZ contact. This soluble tripartite complex traps a phospho-S663 Llgl1 intermediate bridging between aPKC and Par6, impeding phosphorylation progression. Thus, aPKCι is effectively inhibited by Llgl1 ^pS663 whilst Llgl1 is captured by aPKCι-Par6. Mutational disruption of Lgl-aPKC interaction impedes complex assembly and Lgl phosphorylation, whereas disrupting the Lgl-Par6 ^PDZ contact promotes complex dissociation and completion of Lgl phosphorylation cycle. We incorporate these findings into a Par6 ^PDZ -regulated substrate capture-and-release model that we demonstrate requires binding by Cdc42-GTP and the apical partner Crumbs to drive complex disassembly. Our results provide an explanation for the opposing roles of Par6 underpinning the spatial control of aPKC-Par6 activity by Lgl relevant to polarised membrane contexts across multi-cellular organisms.