Deubiquitination Detection of p53 Protein in Living Cells by Fluorescence Cross-Correlation Spectroscopy.

Abstract

Deubiquitination is a reverse post-translational modification of ubiquitination and plays significant roles in various signal transduction cascades and protein stability. The p53 is a very important tumor-suppressor protein and closely implicates more than 50% of human cancers. Although extracellular studies on the deubiquitination of p53 were reported, the process of p53 deubiquitination in living cells due to the shortage of an efficient in situ method for single living cells is still not clear. In this study, we described an in situ method for studying p53 deubiquitination in living cells by combining fluorescence cross-correlation spectroscopy with a fluorescent protein labeling technique. We first constructed the stable cell line expressing EGFP-Ub-p53-mCherry as the substrate of p53 deubiquitination. Then, we established a method for in situ monitoring of the deubiquitination of p53 in living cells. Based on the amplitudes of fluorescence correlation spectroscopy and fluorescence cross-correlation spectroscopy curves from living cells, we obtained the deubiquitination percentage for evaluating the level of p53 protein deubiquitination. Furthermore, we studied the effects of ubiquitin structures on p53 deubiquitination in living cells and found that the C-terminal Gly75-Gly76 motif of ubiquitin is a key location for p53 deubiquitination and the deubiquitination cannot occur when ubiquitin lacks the C-terminal Gly75-Gly76 motif. Our results documented that the developed strategy is an efficient method for in situ study of deubiquitination of proteins in living cells.