Abstract
Components of ORC (the origin recognition complex) are highly conserved among eukaryotes and are thought to play an essential role in the initiation of DNA replication. The level of the largest subunit of human ORC (ORC1) during the cell cycle was studied in several human cell lines with a specific antibody. In all cell lines, ORC1 levels oscillate: ORC1 starts to accumulate in mid-G1 phase, reaches a peak at the G1/S boundary, and decreases to a basal level in S phase. In contrast, the levels of other ORC subunits (ORCs 2-5) remain constant throughout the cell cycle. The oscillation of ORC1, or the ORC1 cycle, also occurs in cells expressing ORC1 ectopically from a constitutive promoter. Furthermore, the 26 S proteasome inhibitor MG132 blocks the decrease in ORC1, suggesting that the ORC1 cycle is mainly due to 26 S proteasome-dependent degradation. Arrest of the cell cycle in early S phase by hydroxyurea, aphidicolin, or thymidine treatment is associated with basal levels of ORC1, indicating that ORC1 proteolysis starts in early S phase and is independent of S phase progression. These observations indicate that the ORC1 cycle in human cells is highly linked with cell cycle progression, allowing the initiation of replication to be coordinated with the cell cycle and preventing origins from refiring.
Highlights
Components of origin recognition complex (ORC) are highly conserved among eukaryotes and are thought to play an essential role in the initiation of DNA replication
Arrest of the cell cycle in early S phase by hydroxyurea, aphidicolin, or thymidine treatment is associated with basal levels of ORC1, indicating that ORC1 proteolysis starts in early S phase and is independent of S phase progression
The 100-kDa band shown in Fig. 1 disappeared after cells were subjected to RNA interference with human ORC1specific small interference RNAs [24]
Summary
§ Present address: National Cancer Center Research Institute, 5-1-1 Tsukiji, Chuohku, Tokyo 104-0045, Japan. Budding yeast ORC is a static complex that is maintained at a constant level and remains bound to origins throughout the cell cycle [4, 5]. The cellular ORC1 level remains constant in hamster cells [21, 23] These data suggest that the activity of mammalian ORC is regulated by ubiquitination of ORC1, but ubiquitinated ORC1 has different fates in different species or cell lines. To elucidate the mechanisms that regulate ORC activity in mammals, and especially in humans, we determined the levels of ORC subunits in several human cell lines throughout the cell cycle.
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