[Critical amino acids of ornitin decarboxylase degron: the presence and C-terminal arrangement is insufficient for alfa-fetoprotein degradation].

Mouse ornithine decarboxylase (ODC) degrades in proteasome in an ubiquitin-independent manner with an averagehalf-life of 2 h. The 37 amino acid long C-terminal fragment known as a degradation signal (degron) is responsible for the effective degradation of ODC. Recently, amino acids being critical for degradation in the ODC-degron have been mapped. Mutations of Cys441 and Ala442 led to protein stabilization, while a substitution of other amino acids composing ODC-degron had almost no effect on the protein turnover; whereas insertions or deletions in region between Ala442 and ODC C-terminus diminished greatly rate of protein degradation, e.g. positioning of the key amino acids from the C-terminus was shown to be crucial. Using these data we introduced both key amino acids into the alfa-fetoprotein with truncated exportation signal (deltaAFP), at the same distance from the C-terminus as they being in the ODC (deltaAFPCAG and deltaAFPLCAG). Removal of N-terminal exportation signal prevented secretion of modified proteins. Using in silico approach we demonstrated no significant difference in hydrophobicity or secondary structure between C-terminus of deltaAFP and mutated proteins. The degradation kinetics of deltaAFP, deltaAFPCAG, deltaAFPLCAG in cyloheximide-chase and proteasome inhibition assay (using MG132) was identical. Obtained results suggest that introduced substitutions are insufficient for effective recognition of mutated deltaAFP by26S proteasome. We assume thatadditional amino aci ds composing ODC-degron or their combine action could also affect degradation. Besides that, one cannot exclude that conformation of the mutated deltaAFP limits its C-terminus accessibility to proteasome.