TY - JOUR
T1 - Analysis of JNK, Mdm2 and p14(ARF) contribution to the regulation of mutant p53 stability
AU - Buschmann, Thomas
AU - Minamoto, Toshinari
AU - Wagle, Nikhil
AU - Fuchs, Serge Y.
AU - Adler, Victor
AU - Mai, Masyoshi
AU - Ronai, Ze'ev
N1 - Funding Information:
We thank Amy Ream for technical assistance, Curtis Harris for tumor cell lines used in the present studies and for mutant p53 constructs, Arnold Levine for Mdm2 reagents, Charles Sherr for p19 ARF antibodies and Craig Monnel of PharMingen for JNK antibodies. We thank Moshe Oren for valuable advice. Support by NIH grant CA 78419 to Z.R. is greatfully acknowledged.
PY - 2000/1/28
Y1 - 2000/1/28
N2 - Identification of Mdm2 and JNK as proteins that target degradation of wt p53 prompted us to examine their effect on mutant p53, which exhibits a prolonged half-life. Of five mutant p53 forms studied for association with the targeting molecules, two no longer bound to Mdm2 and JNK. Three mutant forms, which exhibit high expression levels, showed lower affinity for association with Mdm2 and JNK in concordance with greater affinity to p14(ARF), which is among the stabilizing p53 molecules. Monitoring mutant p53 stability in vitro confirmed that, while certain forms of mutant p53 are no longer affected by either JNK or Mdm2, others are targeted for degradation by JNK/Mdm2, albeit at lower efficiency when compared with wt p53. Expression of wt p53 in tumor cells revealed a short half-life, suggesting that the targeting molecules are functional. Forced expression of mutant p53 in p53 null cells confirmed pattern of association with JNK/Mdm2 and prolonged half-life, as found in the tumor cells. Over-expression of Mdm2 in either tumor (which do express endogenous functional Mdm2) or in p53 null cells decreased the stability of mutant p53 suggesting that, despite its expression, Mdm2/JNK are insufficient (amount/affinity) for targeting mutant p53 degradation. Based on both in vitro and in vivo analyses, we conclude that the prolonged half-life of mutant p53 depends on the nature of the mutation, which either alters association with targeting molecules, ratio between p53 and targeting/stabilizing molecules or targeting efficiency. (C) 2000 Academic Press.
AB - Identification of Mdm2 and JNK as proteins that target degradation of wt p53 prompted us to examine their effect on mutant p53, which exhibits a prolonged half-life. Of five mutant p53 forms studied for association with the targeting molecules, two no longer bound to Mdm2 and JNK. Three mutant forms, which exhibit high expression levels, showed lower affinity for association with Mdm2 and JNK in concordance with greater affinity to p14(ARF), which is among the stabilizing p53 molecules. Monitoring mutant p53 stability in vitro confirmed that, while certain forms of mutant p53 are no longer affected by either JNK or Mdm2, others are targeted for degradation by JNK/Mdm2, albeit at lower efficiency when compared with wt p53. Expression of wt p53 in tumor cells revealed a short half-life, suggesting that the targeting molecules are functional. Forced expression of mutant p53 in p53 null cells confirmed pattern of association with JNK/Mdm2 and prolonged half-life, as found in the tumor cells. Over-expression of Mdm2 in either tumor (which do express endogenous functional Mdm2) or in p53 null cells decreased the stability of mutant p53 suggesting that, despite its expression, Mdm2/JNK are insufficient (amount/affinity) for targeting mutant p53 degradation. Based on both in vitro and in vivo analyses, we conclude that the prolonged half-life of mutant p53 depends on the nature of the mutation, which either alters association with targeting molecules, ratio between p53 and targeting/stabilizing molecules or targeting efficiency. (C) 2000 Academic Press.
KW - JNK
KW - Mdm2
KW - Mutant p53
KW - Protein stability
KW - pl4(ARF)
UR - http://www.scopus.com/inward/record.url?scp=0034723138&partnerID=8YFLogxK
U2 - 10.1006/jmbi.1999.3387
DO - 10.1006/jmbi.1999.3387
M3 - Article
C2 - 10656807
AN - SCOPUS:0034723138
SN - 0022-2836
VL - 295
SP - 1009
EP - 1021
JO - Journal of Molecular Biology
JF - Journal of Molecular Biology
IS - 4
ER -