Abstract
p53 is activated in response to DNA damage and functions in the maintenance of genetic integrity. Loss of p53 function because of mutation of the p53 gene is associated with over half all human cancers. Certain human p53 mutants are conformationally flexible in vitro and are temperature sensitive, with partial or complete recovery of wild-type (wt) properties at 32 degrees C. We have now tested the functional capacities of selected p53 mutants in vivo, by transfection into established human cell lines. Unexpectedly, we found that wt p53 can be temperature sensitive for transactivation of a co-transfected target gene in vivo. Flexible mutants retained varying degrees of functional capacity in transfected cells, and the recipient cell line appeared to be a significant determinant of both wt and mutant p53 function; importantly, two p53 null cell lines commonly used to study p53 function (Saos-2 and Hep3B) differed markedly in this latter respect. We also show that the p53 mutant V272M, which exhibits sequence-specific DNA binding in vitro, is nonetheless defective for transactivation and is unable to induce apoptosis in vivo. The valine 272 residue may thus be crucial for properties (other than sequence-specific DNA binding) that are important for p53 function(s) in vivo.
Highlights
Summary p53 is activated in response to DNA damage and functions in the maintenance of genetic integrity
The p53 protein functions to activate the cellular response to DNA damage, thereby helping in the maintenance of genetic integrity and normal cell growth control
Missense point mutations can destabilize the 'wild-type' p53 conformation that is necessary for transactivation of p53 target genes and for the induction of G1 arrest. p53 can induce apoptosis, and recent evidence suggests that certain mutants of p53 that are unable to transactivate target genes retain the ability to induce apoptosis (Haupt and Oren, 1996)
Summary
Subsequent studies showed that V1 35A is structurally flexible and temperature sensitive for conformation when expressed in vitro (Milner and Medcalf, 1990), with wt and 'mutant' conformations correlating with the observed functional properties in cells. Correspondence to: J Milner as it is unable to induce apoptosis at 37°C (Friedlander et al, 1996a) This suggests that the effects of temperature on p53 structure and function are subtle and may be differentially affected by different missense point mutations of the protein. In the present study we have used these four human cell lines (Table 1) to study the functional capacity of human wild-type and mutant p53 proteins in transient transfection assays.
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