Abstract
The functionally related ATM (ataxia telangiectasia-mutated) and ATR (ATM-Rad3-related) protein kinases are critical regulators of DNA damage responses in mammalian cells. ATM and ATR share highly overlapping substrate specificities and show a strong preference for the phosphorylation of Ser or Thr residues followed by Gln. In this report we used a polyreactive phosphospecific antibody (alpha-pDSQ) that recognizes a subset of phosphorylated Asp-Ser-Gln sequences to purify candidate ATM/ATR substrates. This led to the identification of phosphorylation sites in the carboxyl terminus of the minichromosome maintenance protein 3 (MCM3), a component of the hexameric MCM DNA helicase. We show that the alpha-DSQ antibody recognizes tandem DSQ phosphorylation sites (Ser-725 and Ser-732) in the carboxyl terminus of murine MCM3 (mMCM3) and that ATM phosphorylates both sites in vitro. ATM phosphorylated the carboxyl termini of mMCM3 and human MCM3 in vivo and the phosphorylated form of MCM3 retained association with the canonical MCM complex. Although DNA damage did not affect steady-state levels of chromatin-bound MCM3, the ATM-phosphorylated form of MCM3 was preferentially localized to the soluble, nucleoplasmic fraction. This finding suggests that the carboxyl terminus of chromatin-loaded MCM3 may be sequestered from ATM-dependent checkpoint signals. Finally, we show that ATM and ATR jointly contribute to UV light-induced MCM3 phosphorylation, but that ATM is the predominant UV-activated MCM3 kinase in vivo. The carboxyl-terminal ATM phosphorylation sites are conserved in vertebrate MCM3 orthologs suggesting that this motif may serve important regulatory functions in response to DNA damage. Our findings also suggest that DSQ motifs are common phosphoacceptor motifs for ATM family kinases.
Highlights
ATM belongs to the extended family of highly conserved phosphoinositide 3-kinase-related kinases [2]
We show that ATM directly phosphorylates the carboxyl terminus of minichromosome maintenance protein 3 (MCM3) in vitro and in response to genotoxic stimuli and explore the effects of MCM3 phosphorylation on minichromosome maintenance (MCM) complex integrity and chromatin binding
These results strongly suggested that phosphorylated Ser-725 and Ser-732 of murine MCM3 (mMCM3) are recognized by the ␣-pDSQ antibody in vivo
Summary
Cell Culture and Antibodies—HEK 293T cells, HeLa cells, U-2 OS cells, and SV40 large T antigen transformed ATMϩ/ϩ and ATMϪ/Ϫ mouse embryo fibroblasts (MEFs) were maintained in Eagle’s minimum essential medium containing 5% fetal calf serum. Whole cell extracts were prepared using a high salt lysis buffer (25 mM HEPES (pH 7.40), 300 mM NaCl, 1.5 mM MgCl2, 1 mM EGTA, 0.5% Nonidet P-40) containing protease and phosphatase inhibitors. A human MCM3 (hMCM3) cDNA clone was obtained in similar fashion and its open reading frame subcloned into pCMV-Myc. HEK 293T cells and HeLa cell transfections were carried out using calcium phosphate-DNA precipitation and FuGENE 6 (Roche Applied Science), respectively. The pDSQ nuclear foci were observed in CREB-deficient MEFs, indicating they represent a protein distinct from CREB (data not shown) These findings suggested that the ␣-pDSQ antibodies crossreacted with one or more DNA damage inducible ATM substrates in cellulo. The presence of multiple MCM commutations were introduced using the QuikChange site-directed ponents in the ␣-DSQ immunoprecipitates strongly sugmutagenesis kit (Stratagene)
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