Abstract
Streptonigrin (CAS no. 3930-19-6) is a natural product shown to have antitumor activities in clinical trials conducted in the 1960s-1970s. However, its use in clinical studies eventually faded, and the molecular mechanisms of streptonigrin antitumor effects remain poorly defined. Despite its lack of current clinical use, efforts on its total synthesis have continued. Here, we show that streptonigrin binds and inhibits the SUMO-specific protease SENP1. NMR studies identified that streptonigrin binds to SENP1 on the surface where SUMO binds and disrupts SENP1-SUMO1 interaction. Site-directed mutations in combination with NMR chemical shift perturbation suggest key roles of aromatic π stacking interactions in binding streptonigrin. Treatment of cells with streptonigrin resulted in increased global SUMOylation levels and reduced level of hypoxia inducible factor alpha (HIF1α). These findings inform both the design of SENP1 targeting strategy and the modification of streptonigrin to improve its efficacy for possible future clinical use.