The spindle assembly checkpoint in Caenorhabditis elegans: one who lacks Mad1 becomes mad one.

The spindle assembly checkpoint (SAC) monitors the microtubule attachment status of the kinetochore and arrests cells before anaphase until all pairs of sister kinetochores achieve bipolar attachment of microtubules, thereby ensuring faithful chromosome transmission. The evolutionarily conserved coiled-coil protein MAD1 has been implicated in the SAC signaling pathway. MAD1 forms a complex with another SAC component MAD2 and specifically localizes to unattached kinetochores to facilitate efficient binding of MAD2 to its target, CDC20, the mitotic substrate-specific activator of the anaphase promoting complex or cyclosome (APC/C). Thus, MAD1 connects 2 sequential events in the SAC signaling pathway-recognition of unattached kinetochores and inhibition of APC/C activity. However, the molecular mechanisms by which it specifically localizes to unattached kinetochores are largely unknown. Studies in multicellular organisms have revealed the role of MAD1 in development and tumor suppression, but the precise time at which MAD1 activity is required is unknown. Investigation of cellular and organismic functions of MAD1 in the simple multicellular organism C. elegans identified functional interactors of MAD1 in both kinetochore-oriented SAC signaling and kinetochore-independent cell cycle regulation. Studying the function of SAC components in C. elegans provides a new molecular insight into the SAC-regulated cell cycle progression in a context of a multicellular organism.