Issue 16, 2021

Single-molecule analysis of interaction between p53TAD and MDM2 using aerolysin nanopores

Abstract

Protein–protein interactions (PPIs) are regarded as important, but undruggable targets. Intrinsically disordered p53 transactivation domain (p53TAD) mediates PPI with mouse double minute 2 (MDM2), which is an attractive anticancer target for therapeutic intervention. Here, using aerolysin nanopores, we probed the p53TAD peptide/MDM2 interaction and its modulation by small-molecule PPI inhibitors or p53TAD phosphorylation. Although the p53TAD peptide showed short-lived (<100 ms) translocation, the protein complex induced the characteristic extraordinarily long-lived (0.1 s ∼ tens of min) current blockage, indicating that the MDM2 recruitment by p53TAD peptide almost fully occludes the pore. Simultaneously, the protein complex formation substantially reduced the event frequency of short-lived peptide translocation. Notably, the addition of small-molecule PPI inhibitors, Nutlin-3 and AMG232, or Thr18 phosphorylation of p53TAD peptide, were able to diminish the extraordinarily long-lived events and restore the short-lived translocation of the peptide rescued from the complex. Taken together, our results elucidate a novel mechanism of single-molecule sensing for analyzing PPIs and their inhibitors using aerolysin nanopores. This novel methodology may contribute to remarkable improvements in drug discovery targeted against undruggable PPIs.

Graphical abstract: Single-molecule analysis of interaction between p53TAD and MDM2 using aerolysin nanopores

Supplementary files

Article information

Article type
Edge Article
Submitted
21 Jan 2021
Accepted
19 Mar 2021
First published
25 Mar 2021
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2021,12, 5883-5891

Single-molecule analysis of interaction between p53TAD and MDM2 using aerolysin nanopores

S. Oh, M. Lee and S. Chi, Chem. Sci., 2021, 12, 5883 DOI: 10.1039/D1SC00386K

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