Vassin Vitaly M, Wold Marc S, Borowiec James A
Department of Biochemistry and New York University Cancer Institute, New York University School of Medicine, New York, New York 10016, USA.
Mol Cell Biol. 2004 Mar;24(5):1930-43. doi: 10.1128/MCB.24.5.1930-1943.2004.
Mammalian replication protein A (RPA) undergoes DNA damage-dependent phosphorylation at numerous sites on the N terminus of the RPA2 subunit. To understand the functional significance of RPA phosphorylation, we expressed RPA2 variants in which the phosphorylation sites were converted to aspartate (RPA2(D)) or alanine (RPA2(A)). Although RPA2(D) was incorporated into RPA heterotrimers and supported simian virus 40 DNA replication in vitro, the RPA2(D) mutant was selectively unable to associate with replication centers in vivo. In cells containing greatly reduced levels of endogenous RPA2, RPA2(D) again did not localize to replication sites, indicating that the defect in supporting chromosomal DNA replication is not due to competition with the wild-type protein. Use of phosphospecific antibodies demonstrated that endogenous hyperphosphorylated RPA behaves similarly to RPA2(D). In contrast, under DNA damage or replication stress conditions, RPA2(D), like RPA2(A) and wild-type RPA2, was competent to associate with DNA damage foci as determined by colocalization with gamma-H2AX. We conclude that RPA2 phosphorylation prevents RPA association with replication centers in vivo and potentially serves as a marker for sites of DNA damage.
哺乳动物复制蛋白A(RPA)在RPA2亚基N端的多个位点发生DNA损伤依赖性磷酸化。为了解RPA磷酸化的功能意义,我们表达了RPA2变体,其中磷酸化位点被转换为天冬氨酸(RPA2(D))或丙氨酸(RPA2(A))。尽管RPA2(D)被整合到RPA异源三聚体中并在体外支持猿猴病毒40 DNA复制,但RPA2(D)突变体在体内选择性地无法与复制中心结合。在含有极低水平内源性RPA2的细胞中,RPA2(D)同样不会定位于复制位点,这表明支持染色体DNA复制的缺陷并非由于与野生型蛋白的竞争所致。使用磷酸特异性抗体表明,内源性过度磷酸化的RPA与RPA2(D)表现相似。相反,在DNA损伤或复制应激条件下,通过与γ-H2AX共定位确定,RPA2(D)与RPA2(A)和野生型RPA2一样,能够与DNA损伤灶结合。我们得出结论,RPA2磷酸化可防止RPA在体内与复制中心结合,并可能作为DNA损伤位点的标志物。
