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Modulation of the intracellular stability and toxicity of diphtheria toxin through degradation by the N-end rule pathway

1998; Springer Nature; Volume: 17; Issue: 2 Linguagem: Inglês

10.1093/emboj/17.2.615

1460-2075

Pål Ø. Falnes,

Plant tissue culture and regeneration

The enzymatically active A-fragment of diphtheria toxin enters the cytosol of sensitive cells where it inhibits protein synthesis by inactivating elongation factor 2 (EF-2). We have constructed a number of diphtheria toxin mutants that are degraded by the N-end rule pathway in Vero cells, and that display a wide range of intracellular stabilities. The degradation could be inhibited by the proteasome inhibitor lactacystin, indicating that the proteasome is responsible for N-end rule-mediated degradation in mammalian cells. Previously, the N-end rule has been investigated by studying the co-translational degradation of intracellularly expressed beta-galactosidase. Our work shows that a mature protein entering the cytosol from the exterior can also be degraded by the N-end rule pathway with a similar, but not identical specificity to that previously found. We found a correlation between the intracellular stability of the mutants and their toxic effect on cells, thus demonstrating a novel manner of modulating the toxicity of a protein toxin. The data also indicate that the inactivation of EF-2 is the rate-limiting step in the intoxication process.