IPMK-1 (inositol phosphate multikinase) is required for optimal integrin adhesion complex assembly in C. elegans muscle

Integrin adhesion complexes (IACs) are a network of many proteins including the transmembrane protein integrin that anchor cells to the extracellular matrix (ECM). In C. elegans muscle IACs exist at the bases of dense bodies and M-lines, and at the boundaries of adjacent muscle cells (MCBs). We have reported that the proper assembly of IACs requires the Rac GEF PIX-1 and members of the PIX-1 pathway. Here we report that further investigation into the original Million Mutation Project strain that led us to uncover the role of PIX-1 in muscle, revealed a genetic enhancer of the PIX-1 phenotype. Genetic mapping shows that the enhancer is a recessive mutation in a single gene, ipmk-1 . ipmk-1 , encodes inositol phosphate multikinase and converts PIP2 to PIP3, IP3 to IP4, and IP4 to IP5. Loss of function of pix-1 results in reduced accumulation of IAC proteins at the MCB, and ipmk-1; pix-1 double mutants additionally display a large gap between adjacent muscle cells. ipmk-1 similarly enhances other members of the PIX pathway including PAK-1, and the RacGAP RRC-1. Lack of ipmk-1 itself results in abnormal clumping of IAC components at the MCB, decreased whole animal locomotion, and mild sarcomere disorganization. Analysis of ipmk-1; ipp-5 double mutants suggest that the MCB defect of ipmk-1 is due to decreased PIP3 in the cell membrane rather than the decreased IP3 and Ca2+ signaling. Overall, these studies provide in vivo evidence, specifically in muscle, that the level of PIP3 and PIP2 influence the proper assembly of IACs.