The impact of genetic background and Bid on the phenotype of Bcl-2-deficiency in mice.

How a central apoptosis mechanism could be modulated during a specific developmental or homeostatic process to comply with the specific needs of a particular tissue is poorly understood. Bcl-2 is a key anti-apoptosis regulator and its deletion resulted in multiple defects in mice, indicating its broad involvement in development and homeostasis of various tissues. We found that the severity and extensiveness of the defects could be greatly influenced by the genetic background of the mice.

Promotion of Fas-mediated apoptosis in Type II cells by high doses of hepatocyte growth factor bypasses the mitochondrial requirement.

The death receptor pathway is coupled to the mitochondria apoptosis pathway. However, mitochondrial participation, which is stimulated by Bid but suppressed by Bcl-2/Bcl-x(L), is required in certain cells (Type II), but not in others (Type I). While these differences were originally characterized in the lymphoid cell lines, the typical Type II cells are represented by hepatocytes in vivo.

Deletion of Bid impedes cell proliferation and hepatic carcinogenesis.

Mechanisms that control the proliferation capability of the initiated cells during hepatocarcinogenesis are still largely unclear. We investigated the role of a pro-death Bcl-2 family protein, Bid, in liver tumor development using a neonatal diethylnitrosamine model. Diethylnitrosamine was administrated to 15-day-old wild-type and bid-null mice.

Bid-dependent generation of oxygen radicals promotes death receptor activation-induced apoptosis in murine hepatocytes.

Activation of tumor necrosis factor receptor 1 or Fas leads to the generation of reactive oxygen species, which are important to the cytotoxic effects of tumor necrosis factor alpha (TNF-alpha) or Fas ligand. However, how these radicals are generated following receptor ligation is not clear. Using primary hepatocytes, we found that TNF-alpha or anti-Fas antibody-induced burst of oxygen radicals was mainly derived from the mitochondria.