BNIP3 and genetic control of necrosis-like cell death through the mitochondrial permeability transition pore.

Many apoptotic signaling pathways are directed to mitochondria, where they initiate the release of apoptogenic proteins and open the proposed mitochondrial permeability transition (PT) pore that ultimately results in the activation of the caspase proteases responsible for cell disassembly. BNIP3 (formerly NIP3) is a member of the Bcl-2 family that is expressed in mitochondria and induces apoptosis without a functional BH3 domain. We report that endogenous BNIP3 is loosely associated with mitochondrial membrane in normal tissue but fully integrates into the mitochondrial outer membrane with the N terminus in the cytoplasm and the C terminus in the membrane during induction of cell death.

Nix and Nip3 form a subfamily of pro-apoptotic mitochondrial proteins.

We have identified Nix, a homolog of the E1B 19K/Bcl-2 binding and pro-apoptotic protein Nip3. Human and murine Nix have a 56 and 53% amino acid identity to human and murine Nip3, respectively. The carboxyl terminus of Nix, including a transmembrane domain, is highly homologous to Nip3 but it bears a longer and distinct asparagine/proline-rich N terminus.

The E1B 19K/Bcl-2-binding protein Nip3 is a dimeric mitochondrial protein that activates apoptosis.

Nip3 (nineteen kD interacting protein-3) is an E1B 19K and Bcl-2 binding protein of unknown function. Nip3 is detected as both a 60- and 30-kD protein in vivo and in vitro and exhibits strong homologous interaction in a yeast two-hybrid system indicating that it can homodimerize. Nip3 is expressed in mitochondria and a mutant (Nip3(163)) lacking the putative transmembrane domain and COOH terminus does not dimerize or localize to mitochondria.

Relationship of c-myc amplification to progression of breast cancer from in situ to invasive tumor and lymph node metastasis.

Background: Amplification of the c-myc gene (also known as MYC) occurs in up to 20%-30% of breast cancers and has been associated with poor prognosis.

Purpose: The purpose of this study was to define the relationship between c-myc amplification and breast cancer progression in order to better understand the biological significance of c-myc amplification.

Methods: We identified invasive tumors with grossly detectable c-myc amplification by using Southern blot analysis to examine frozen tissue from 135 breast carcinomas and polymerase chain reaction (PCR) analysis to examine archival paraffin-embedded tissue from an additional 19 invasive tumors.