Lopez-Girona A, Kanoh J, Russell P
Department of Molecular Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.
Curr Biol. 2001 Jan 9;11(1):50-4. doi: 10.1016/s0960-9822(00)00026-9.
Maintenance of genome integrity requires a checkpoint that restrains mitosis in response to DNA damage [1]. This checkpoint is enforced by Chk1, a protein kinase that targets Cdc25 [2--7]. Phosphorylated Cdc25 associates with 14-3-3 proteins, which appear to occlude a nuclear localization signal (NLS) and thereby inhibit Cdc25 nuclear import [6, 8--14]. Proficient checkpoint arrest is thought to require Cdc25 nuclear exclusion, although definitive evidence for this model is lacking. We have tested this hypothesis in fission yeast. We show that elimination of an NLS in Cdc25 causes Cdc25 nuclear exclusion and a mitotic delay, as predicted by the model. Attachment of an exogenous NLS forces nuclear inclusion of Cdc25 in damaged cells. However, forced nuclear localization of Cdc25 fails to override the damage checkpoint. Thus, nuclear exclusion of Cdc25 is unnecessary for checkpoint enforcement. We propose that direct inhibition of Cdc25 phosphatase activity by Chk1, as demonstrated in vitro with fission yeast and human Chk1 [15, 16], is sufficient for proficient checkpoint regulation of Cdc25 and may be the primary mechanism of checkpoint enforcement in fission yeast.
维持基因组完整性需要一个能在DNA损伤时抑制有丝分裂的检查点[1]。这个检查点由Chk1执行,Chk1是一种靶向Cdc25的蛋白激酶[2 - 7]。磷酸化的Cdc25与14 - 3 - 3蛋白结合,这些蛋白似乎会遮蔽一个核定位信号(NLS),从而抑制Cdc25的核输入[6, 8 - 14]。尽管缺乏该模型的确切证据,但有效的检查点阻滞被认为需要Cdc25核排除。我们在裂殖酵母中测试了这一假设。我们发现,如该模型所预测的,去除Cdc25中的NLS会导致Cdc25核排除和有丝分裂延迟。在受损细胞中,附加一个外源性NLS会迫使Cdc25进入细胞核。然而,强制Cdc25的核定位并不能越过损伤检查点。因此,Cdc25的核排除对于检查点的执行并非必要。我们提出,如在裂殖酵母和人类Chk1的体外实验中所证明的,Chk1直接抑制Cdc25磷酸酶活性,对于Cdc25的有效检查点调控是足够的,并且可能是裂殖酵母中检查点执行的主要机制。
