Polo-like kinases regulate many aspects of mitotic and meiotic progression from yeast to man. In early mitosis, mammalian Polo-like kinase 1 (Plk1) controls centrosome maturation, spindle assembly, and microtubule attachment to kinetochores. However, despite the essential and diverse functions of Plk1, the full range of Plk1 substrates remains to be explored. To investigate the Plk1-dependent phosphoproteome of the human mitotic spindle, we combined stable isotope labeling by amino acids in cell culture with Plk1 inactivation or depletion followed by spindle isolation and mass spectrometry. Our study identified 358 unique Plk1-dependent phosphorylation sites on spindle proteins, including novel substrates, illustrating the complexity of the Plk1-dependent signaling network. Over 100 sites were validated by in vitro phosphorylation of peptide arrays, resulting in a broadening of the Plk1 consensus motif. Collectively, our data provide a rich source of information on Plk1-dependent phosphorylation, Plk1 docking to substrates, the influence of phosphorylation on protein localization, and the functional interaction between Plk1 and Aurora A on the early mitotic spindle. Molecular & Cellular Proteomics 10: 10.1074/mcp.M110.004457, 1-18, 2011.During mitosis, multiple processes, such as mitotic entry, spindle assembly, chromosome segregation, and cytokinesis, must be carefully coordinated to ensure the error-free distribution of chromosomes into the newly forming daughter cells. The physical separation of the chromosomes to opposite poles of the cell is driven by the mitotic spindle, a proteinaceous and highly dynamic microtubule (MT) 1 -based macromolecular machine. Spindle assembly begins early in mitosis and is completed when the bipolar attachment of microtubules to kinetochore (KT) pairs is achieved (1, 2). Polo-like kinase 1 (Plk1), a serine/threonine-specific kinase first identified in Drosophila (3), is one of the key regulators of this essential mitotic process and has therefore attracted much attention (4 -6). In agreement with its diverse functions, the localization of Plk1 during mitosis is dynamic. Plk1 first associates with centrosomes in prophase before it localizes to spindle poles and KTs in prometaphase and metaphase. During anaphase, Plk1 is recruited to the central spindle and finally accumulates at the midbody during telophase. Proteomics studies using oriented peptide libraries have shown that two so-called polo boxes at the C-terminal end of Plk1, the polo box domain (PBD), are crucial for the localization of this kinase to cellular structures (7,8). This domain binds to specific phosphorylated sequence motifs that are created by other priming kinases or are self-primed by Plk1 itself, thus providing an efficient mechanism to regulate localization and substrate selectivity in time and space (9 -11). Despite the pleiotropic and critical functions of Plk1 during mitosis, only a limited number of target proteins and phosphorylation sites on substrates have so far been identified or studied in detail...
