NPP-21/TPR is required for developmental control of spindle checkpoint strength in C. elegans

The spindle checkpoint ensures accurate chromosome segregation by monitoring whether chromosomes, via kinetochores, are properly attached to the spindle. If chromosomes fail to establish bipolar attachment, the checkpoint delays the cell cycle to enable error correction. In C. elegans early embryos, activation of the spindle checkpoint produces a longer mitotic delay in primordial germ cells than somatic cells. We show that the conserved nucleoporin and spindle matrix component, NPP-21/TPR, is required for the stronger spindle checkpoint in germline cells. A checkpoint-proficient NPP-21::GFP transgene localizes to a spindle-like structure during mitosis and is enriched in germline cells, consistent with a cell-fate specific function for this protein. Finally, NPP-21 controls spindle checkpoint strength in germline cells via two, potentially linked, mechanisms: concentrating PCH-2 around mitotic chromosomes and promoting the localization of the checkpoint effector, Mad2, to unattached kinetochores. These experiments demonstrate a developmental role for NPP-21, and the spindle matrix, in controlling spindle checkpoint strength in immortal germline cells in C. elegans.