FAM122A inhibition of PP2A-B55 through a bipartite binding mechanism

FAM122A regulates cell cycle progression through inhibition of the PP2A-B55 phosphoprotein phosphatase. Recent structural work has uncovered helical elements in the N-terminus of FAM122A as binding determinants for PP2A-B55 but whether FAM122A inhibition towards PP2A-B55 is regulated is presently unclear. To address this we performed a systematic analysis of the PP2A-B55 interaction with FAM122A in cells uncovering a novel region in the C-terminus of FAM122A, spanning residues 150-170, required for binding. This C-terminal region and the N-terminal helices are both required for efficient binding to PP2A-B55 suggesting a bipartite binding mechanism. We perform amino acid resolution scans of FAM122A 150-170 uncovering several residues in this region contributing to binding including the conserved Ser158, a reported phosphorylation site. We show that Ser158 is important for PP2A-B55 inhibition in human cells as well as efficient stimulation of mitotic entry in Xenopus laevis egg extracts. In human cells and in Xenopus laevis Ser158 phosphorylation is regulated with increased occupancy correlating with cell cycle stages requiring PP2A-B55 inhibition. Collectively our work uncovers novel aspects of FAM122A interaction with PP2A-B55 and provides a possible mechanism for how the inhibitory activity of FAM122A can be regulated during the cell cycle.