Structural and Drug Targeting Insights on Mutant p53

Simple Summary The tumor suppressor protein p53 is frequently mutated in human cancers, and its reactivation represents an encouraging hope for precision anticancer therapy. Despite this, the clinical use of compounds capable of restoring the wild-type-like function to mutant p53 (mutp53) is not yet a reality. A more detailed understanding of the structural features of p53 mutations and the molecular mechanisms of mutp53 reactivators is critical to drive an efficient translation of these compounds into the clinic. In addition, this knowledge will provide insights into wild-type and mutp53 pharmacology at molecular levels, fostering the design and development of improved mutp53-targeted therapies to halt cancer. p53 is a transcription factor with a pivotal role in cell homeostasis and fate. Its impairment is a major event in tumor onset and development. In fact, about half of human cancers bear TP53 mutations that not only halt the normal function of p53, but also may acquire oncogenic gain of functions that favor tumorigenesis. Although considered undruggable for a long time, evidence has proven the capability of many compounds to restore a wild-type (wt)-like function to mutant p53 (mutp53). However, they have not reached the clinic to date. Structural studies have strongly contributed to the knowledge about p53 structure, stability, dynamics, function, and regulation. Importantly, they have afforded relevant insights into wt and mutp53 pharmacology at molecular levels, fostering the design and development of p53-targeted anticancer therapies. Herein, we provide an integrated view of mutp53 regulation, particularly focusing on mutp53 structural traits and on targeting agents capable of its reactivation, including their biological, biochemical and biophysical features. With this, we expect to pave the way for the development of improved small molecules that may advance precision cancer therapy by targeting p53.

Automated summary

This article provides an integrated view of mutp53 regulation, particularly focusing on the structural traits of mutp53 and targeting agents capable of its reactivation, including their biological, biochemical and biophysical features.