Author:
Wojnarowicz Paulina M.,Escolano Marta Garcia,Huang Yun-Han,Desai Bina,Chin Yvette,Shah Riddhi,Xu Sijia,Ouerfelli Ouathek,Soni Rajesh Kumar,Philip John,Montrose David C.,Healey John H.,Rajasekhar Vinagolu K.,Garland William A.,Norton Larry,Rosen Neal,Hendrickson Ronald C.,Zhou Xi Kathy,Iavarone Antonio,Massague Joan,Dannenberg Andrew J.,Lasorella Anna,Benezra Robert
Abstract
SummaryId proteins are helix-loop-helix (HLH) transcriptional regulators frequently overexpressed in cancer. Id proteins inhibit basic HLH transcription factors through protein-protein interactions, often inhibiting differentiation and sustaining proliferation. We recently identified a small-molecule, AGX51, which targets Id proteins for degradation and impairs ocular neovascularization in mouse models. Here we show that AGX51 treatment of cancer cell lines impaired cell growth and viability that results from a dramatic increase in ROS production upon Id degradation. In mouse models, AGX51 treatment suppressed breast cancer colonization in the lung, regressed the growth of paclitaxel-resistant breast tumors when combined with paclitaxel and reduced tumor burden in a model of sporadic colorectal neoplasia. Furthermore, in cells and mice, we failed to observe acquired resistance to AGX51 likely the result of the immutability of the binding pocket and efficient degradation of the Id proteins. Thus, AGX51 is a first-in-class compound that antagonizes Id proteins, shows strong anti-tumor effects and may be further developed for the management of multiple cancers.
Publisher
Cold Spring Harbor Laboratory