Signaling Protein Abundance Modulates the Strength of the Spindle Assembly Checkpoint

During mitosis, unattached kinetochores in a dividing cell signal to the spindle assembly checkpoint (SAC) to delay anaphase onset and prevent chromosome missegregation.1-4 The signaling activity of these kineto-chores and the likelihood of chromosome missegregation depend on the amount of SAC signaling proteins each kinetochore recruits.5-8 Therefore, factors that control SAC protein recruitment must be thoroughly un-derstood. Phosphoregulation of kinetochore and SAC signaling proteins due to the concerted action of many kinases and phosphatases is a significant determinant of the SAC protein recruitment to signaling kineto-chores.9 Whether the abundance of SAC proteins also influences the recruitment and signaling activity of hu-man kinetochores has not been studied.8,10 Here, we reveal that the low cellular abundance of the SAC signaling protein Bub1 limits its own recruitment and that of BubR1 and restricts the SAC signaling activity of the kinetochore. Conversely, Bub1 overexpression results in higher recruitment of SAC proteins, produc-ing longer delays in anaphase onset. We also find that the number of SAC proteins recruited by a signaling kinetochore is inversely correlated with the total number of signaling kinetochores in the cell. This correlation likely arises from the competition among the signaling kinetochores to recruit from a limited pool of signaling proteins, including Bub1. The inverse correlation may allow the dividing cell to prevent a large number of signaling kinetochores in early prophase from generating an overly large signal while enabling the last un-aligned kinetochore in late prometaphase to signal at the maximum strength.