BACKGROUND: The Aurora kinases control multiple aspects of mitosis, among them centrosome maturation, spindle assembly, chromosome segregation, and cytokinesis. Aurora activity is regulated in part by a subset of Aurora substrates that, once phosphorylated, can enhance Aurora kinase activity. Aurora A substrate activators include TPX2 and Ajuba, whereas the only known Aurora B substrate activator is the chromosomal passenger INCENP. RESULTS: We report that the C. elegans Tousled kinase TLK-1 is a second substrate activator of the Aurora B kinase AIR-2. Tousled kinase (Tlk) expression and activity have been linked to ongoing DNA replication, and Tlk can phosphorylate the chromatin assembly factor Asf. Here, we show that TLK-1 is phosphorylated by AIR-2 during prophase/prometaphase and that phosphorylation increases TLK-1 kinase activity in vitro. Phosphorylated TLK-1 increases AIR-2 kinase activity in a manner that is independent of TLK-1 kinase activity but depends on the presence of ICP-1/INCENP. In vivo, TLK-1 and AIR-2 cooperate to ensure proper mitotic chromosome segregation. CONCLUSIONS: The C. elegans Tousled kinase TLK-1 is a substrate and activator of the Aurora B kinase AIR-2. These results suggest that Tousled kinases have a previously unrecognized role in mitosis and that Aurora B associates with discrete regulatory complexes that may impart distinct substrate specificities and functions to the Aurora B kinase.
BACKGROUND: The Aurora kinases control multiple aspects of mitosis, among them centrosome maturation, spindle assembly, chromosome segregation, and cytokinesis. Aurora activity is regulated in part by a subset of Aurora substrates that, once phosphorylated, can enhance Aurora kinase activity. Aurora A substrate activators include TPX2 and Ajuba, whereas the only known Aurora B substrate activator is the chromosomal passenger INCENP. RESULTS: We report that the C. elegans Tousled kinase TLK-1 is a second substrate activator of the Aurora B kinase AIR-2. Tousled kinase (Tlk) expression and activity have been linked to ongoing DNA replication, and Tlk can phosphorylate the chromatin assembly factor Asf. Here, we show that TLK-1 is phosphorylated by AIR-2 during prophase/prometaphase and that phosphorylation increases TLK-1 kinase activity in vitro. Phosphorylated TLK-1 increases AIR-2 kinase activity in a manner that is independent of TLK-1 kinase activity but depends on the presence of ICP-1/INCENP. In vivo, TLK-1 and AIR-2 cooperate to ensure proper mitotic chromosome segregation. CONCLUSIONS: The C. elegans Tousled kinase TLK-1 is a substrate and activator of the Aurora B kinase AIR-2. These results suggest that Tousled kinases have a previously unrecognized role in mitosis and that Aurora B associates with discrete regulatory complexes that may impart distinct substrate specificities and functions to the Aurora B kinase.
Authors: R R Adams; S P Wheatley; A M Gouldsworthy; S E Kandels-Lewis; M Carmena; C Smythe; D L Gerloff; W C Earnshaw Journal: Curr Biol Date: 2000-09-07 Impact factor: 10.834
Authors: J Y Hsu; Z W Sun; X Li; M Reuben; K Tatchell; D K Bishop; J M Grushcow; C J Brame; J A Caldwell; D F Hunt; R Lin; M M Smith; C D Allis Journal: Cell Date: 2000-08-04 Impact factor: 41.582