Prevention of Hepatic Apoptosis and Embryonic Lethality in RelA/TNFR-1 Double Knockout Mice

Mice deficient in the nuclear factor κB (NF-κB)-transactivating gene RelA (p65) die at embryonic days 14–15 with massive liver apoptosis. In the adult liver, activation of the NF-κB heterodimer RelA/p50 can cause hepatocyte proliferation, apoptosis, or the induction of acute-phase response genes. We examined, during wild-type fetal liver development, the expression of the Rel family member proteins, as well as other proteins known to be important for NF-κB activation. We found these proteins and active NF-κB complexes in the developing liver from at least 2 days before the onset of lethality observed in RelA knockouts. This suggests that the timing of NF-κB activation is not related to the timing of lethality. We therefore hypothesized that, in the absence of RelA, embryos were sensitized to tumor necrosis factor (TNF) receptor 1 (TNFR-1)-mediated apoptosis. Thus, we generated mice that were deficient in both RelA and TNFR-1 to determine whether apoptotic signaling through TNFR-1 was responsible for the lethal phenotype. RelA/TNFR-1 double knockout mice survived embryonic development and were born with normal livers without evidence of increased hepatocyte apoptosis. These animals became runted shortly after birth and survived an average of 10 days, dying from acute hepatitis with an extensive hepatic infiltration of immature neutrophils. We conclude that neither RelA nor TNFR-1 is required for liver development and that RelA protects the embryonic liver from TNFR-1-mediated apoptotic signals. However, the absence of both TNFR-1 signaling and RelA activity in newborn mice makes these animals susceptible to endogenous hepatic infection.