Rescue of embryonic lethality in Mdm4-null mice by loss of Trp53 suggests a nonoverlapping pathway with MDM2 to regulate p53.

The p53 protein can inhibit cell cycling or induce apoptosis, and is thus a critical regulator of tumorigenesis. This protein is negatively regulated by a physical interaction with MDM2, an E3 ubiquitin ligase. This interaction is critical for cell viability; loss of Mdm2 causes cell death in vitro and in vivo in a p53-dependent manner. The recently discovered MDM2-related protein MDM4 (also known as MDMX) has some of the same properties as MDM2. MDM4 binds and inhibits p53 transcriptional activity in vitro. Unlike MDM2, however, MDM4 does not cause nuclear export or degradation of p53 (refs. 9,10). To study MDM4 function in vivo, we deleted Mdm4 in mice. Mdm4-null mice died at 7.5-8.5 dpc, owing to loss of cell proliferation and not induction of apoptosis. To assess the importance of p53 in the death of Mdm4-/- embryos, we crossed in the Trp53-null allele. The loss of Trp53 completely rescued the Mdm4-/- embryonic lethality. Thus, MDM2 and MDM4 are nonoverlapping critical regulators of p53 in vivo. These data define a new pathway of p53 regulation and raise the possibility that increased MDM4 levels and the resulting inactivation of p53 contribute to the development of human tumors.

Loss of one but not two mdm2 null alleles alters the tumour spectrum in p53 null mice.

The transcriptional activity of the p53 tumour suppressor is inhibited by binding to MDM2. The in vivo significance of this interaction was established in mdm2 null mice. Embryonic lethality due to loss of mdm2 is completely rescued by deletion of p53, indicating that the lethality is due to inability to down-modulate p53 function. The production of mice null for both p53 and mdm2 led to an assessment of the role of MDM2 in tumour development. Tumour latency and spectrum in p53 null mice were monitored in the presence or absence of mdm2. Two unusual findings resulted: tumour latency in p53 null/mdm2 heterozygous mice was longer than in p53/mdm2 double-null mice; and the incidence of sarcomas was higher in p53 null/mdm2 heterozygous mice than in p53 null or p53/mdm2 double-null mice. These data raise the possibility that heterozygosity at the mdm2 locus in the absence of p53 affects the development of tumours of mesenchymal origin.