Abstract
In recent years, the restoration of p53 physiological functions has become an attractive therapeutic approach to develop novel and efficacious cancer therapies. Among other mechanisms, the oncosuppressor protein p53 is functionally regulated by MDM2 through its E3 ligase function. MDM2 promotes p53 ubiquitination and degradation following homodimerization or heterodimerization with MDM4. Recently, we discovered Pep3 (1, Pellegrino et al., 2015), a novel peptidic inhibitor of MDM2 dimerization able to restore p53 oncosuppressive functions both in vitro and in vivo. In this work, we were able to identify the key interactions between peptide 1 and MDM2 RING domain and to design peptide 2, a truncated version of 1 that is still able to bind MDM2. Integrating both computational and biophysical techniques, we show that peptide 2 maintains the conserved peptide 1-MDM2 interactions and is still able to bind to full-length MDM2.
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