doi: 10.1073/pnas.96.24.13777.
Phosphorylation of Ser-20 mediates stabilization of human p53 in response to DNA damage
Affiliations
- PMID: 10570149
- PMCID: PMC24141
- DOI: 10.1073/pnas.96.24.13777
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Phosphorylation of Ser-20 mediates stabilization of human p53 in response to DNA damage
Proc Natl Acad Sci U S A.
.
Abstract
Stabilization of p53 in response to DNA damage is caused by its dissociation from Mdm2, a protein that _targets p53 for degradation in the proteasome. Dissociation of p53 from Mdm2 could be caused by DNA damage-induced p53 posttranslational modifications. The ATM and ATR kinases, whose activation in response to ionizing radiation (IR) and UV light, respectively, is required for p53 stabilization, directly phosphorylate p53 on Ser-15. However, phosphorylation of Ser-15 is critical for the apoptotic activity of p53 and not for p53 stabilization. Thus, whether any p53 modifications, and which, underlie disruption of the p53-Mdm2 complex after DNA damage remains to be determined. We analyzed the IR- and UV light-induced stabilization of p53 proteins with substitutions of Ser known to be posttranslationally modified after DNA damage. Substitution of Ser-20 was sufficient to abrogate p53 stabilization in response to both IR and UV light. Furthermore, both IR and UV light induced phosphorylation of p53 on Ser-20, which involved the majority of nuclear p53 protein and weakened the interaction of p53 with Mdm2 in vitro. ATM and ATR cannot phosphorylate p53 on Ser-20. We therefore propose that ATM and ATR activate an, as yet unidentified, kinase that stabilizes p53 by phosphorylating it on Ser-20.
Figures
Diagrams of wild-type p53 (p53wt) and of the variant p53 proteins
(p53V1 and p53V2) that were used to study p53 stabilization after DNA
damage. Tx, transactivation domain; DNA-B, sequence-specific
DNA-binding domain; 4, native tetramerization domain; R, C-terminal
regulatory region for the DNA-binding activity of p53; HA,
hemagglutinin tag; IND, modified (independent) tetramerization domain
that does not form heterotetramers with the native p53 tetramerization
domain; H273, histidine substitution for Arg-273. Substitutions of Ser
residues with Ala or Asp were performed in the context of p53V1 and
p53V2.
Substitution of Ser-20 abrogates p53 protein stabilization after DNA
damage in U2-OS osteosarcoma cells. p53V1 proteins with Ser/Thr
substitutions were expressed by transient transfection. The transfected
cells were exposed to IR (A) or UV light
(B) and p53 protein levels were determined by
immunoblotting (IB) with an antibody that reacts with the HA tag in
p53V1. Designations of the expressed p53 proteins correspond to the
amino acid substitutions introduced in p53V1, indicating the
position(s) of the replaced residue(s) and the type of residue
introduced by using the single-letter code. p53V1wt has no Ser/Thr
substitutions, p53V1QS has substitutions of Leu-22 → Gln and Trp-23
→ Ser, and p53V1Δ1–39 has amino acids 1–39
deleted.
Substitution of Ser-20 abrogates p53 protein stabilization after DNA
damage in p53-nullizygous MEFs stably transfected with constructs
expressing p53V1 (A–D) or p53V2
(E) proteins. The transfected cells were exposed to IR
(A and C–E), UV light
(B), or the proteasome inhibitor lactacystin (Lc)
(C). p53 protein levels were determined by
immunoblotting (IB) with antibody DO1
(A–C, E) and
p53 mRNA levels by Northern blotting (D).
The mutants are designated as in Fig. 2.
Phosphorylation of endogenous wild-type p53 on Ser-20 in
response to DNA damage. (A) Specificity of antibodies
DO1 and AbS20p for p53 not phosphorylated and phosphorylated on Ser-20,
respectively. Biotinylated peptides corresponding to residues
7–29 of human p53 were coupled to avidin-agarose beads and incubated
with antibodies DO1 or AbS20p. Antibodies bound to the beads were
detected by fractionation on denaturing polyacrylamide gels and
immunoblotting. -p, nonphosphorylated peptide; S15p, T18p, and S20p,
peptides phosphorylated on Ser-15, Thr-18, and Ser-20, respectively.
(B) Phosphorylation of p53 on Ser-20 in response to IR
and UV light in U2-OS cells, as determined by immunoreactivity of p53
to antibodies DO1 and AbS20p. The fractions of p53 IP with antibody DO1
(not phosphorylated on Ser-20) and antibody AbS20p (phosphorylated on
Ser-20) were determined by immunoblotting (IB) with antibody DO7.
Because p53 protein levels increase in response to DNA damage, to
facilitate comparisons between nonirradiated and irradiated cells, the
amounts of cell extracts used were adjusted to have equal p53 protein
levels in all reactions [as shown by immunoblotting (IB) with antibody
DO7 control reactions not subjected to IP]. (C) Effect
of protein phosphatase on the immunoreactivity of p53 to antibody DO1.
Extracts from untreated or irradiated U2-OS cells were treated with
protein phosphatase (PPase +) or mock-treated (PPase −) before IP with
antibody DO1. The amounts of cell extracts used were adjusted to have
equal p53 protein levels in all reactions.
Effect of phosphorylation of Ser-20 on the interaction of p53 with
Mdm2. (A) Capture of 35S-labeled in
vitro-translated full-length or N-terminally truncated (ΔN61)
Mdm2 by phosphorylated and nonphosphorylated p53 peptides corresponding
to residues 7–29 of human p53; -p, nonphosphorylated peptide; S15p,
T18p, and S20p, peptides phosphorylated on Ser-15, Thr-18, and Ser-20,
respectively. (B) Three-dimensional structure of the
p53–Mdm2 complex (PDB ID code 1YCR). The p53 peptide shown (residues
17–29) is the entire p53 region that associates with Mdm2. Selected
amino acid side chains of p53 and Mdm2 are shown and labeled by using
the codon number and single-letter residue code: F, Phe; L, Leu; M,
Met; Q, Gln; S, Ser; T, Thr; and W, Trp. The oxygen atoms of the
hydroxyl groups of Thr-18 and Ser-20 are colored red. The figure was
prepared by using molscript (58) and
raster3d (59).
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