Abstract 1934: Modulation of protein homeostasis networks upon Hsp70 inhibition in cancer cells

Abstract

Abstract Cellular protein homeostasis is tightly regulated by balancing protein synthesis, folding, and degradation. Cancer cells constantly modulate protein folding and degradation efficiency to survive and proliferate without accumulating toxic misfolded proteins under acute stress conditions, such as low oxygen and energy, and exposure to chemotherapeutic agents. Many cancers rely on the unfolded protein response (UPR) to cope with stress, which increases the expression of molecular chaperones and mitigates the accumulation of misfolded proteins. Thus, it is unsurprising that the Hsp70 molecular chaperone, which serves as a master regulator of proteostasis, is upregulated in many cancers. Increased Hsp70 correlates with metastasis formation and poor patient prognosis in different cancers, like breast cancer. To define the role of Hsp70 in cancer survival and identify how cancer cells compensate for chaperone-mediated proteotoxicity, we investigated the response to a specific Hsp70 inhibitor, MAL3-101, in breast cancer cells. We discovered that breast cancer cells bin into distinct groups when subjected to Hsp70 inhibition based on their sensitivity to the compound. Moreover, we demonstrate that resistant cells have higher autophagy levels compared to more sensitive lines. Autophagy was further induced by MAL3-101 in resistant breast cancer cells, as evidenced by the accumulation of both autophagy related genes and proteins, as well as by autophagic-like structures detected by confocal microscopy. These data suggest that resistance to Hsp70 inhibition arises from autophagy induction. We then discovered that Hsp70 inhibition induces the UPR pathway, triggering apoptosis in sensitive cells. In particular, the activation of the UPR transducer, PERK, is required to induce apoptosis in sensitive cells when Hsp70 was inhibited. Overall, our work positions autophagy as a critical compensatory mechanism when molecular chaperone function is overwhelmed and misfolded proteins accumulate. Furthermore, our findings delineate a distinct role of PERK in apoptosis induction upon Hsp70 inhibition, highlighting the interplay between the PERK, Hsp70, and autophagy. Citation Format: Sara Sannino, Jeffrey L. Brodsky. Modulation of protein homeostasis networks upon Hsp70 inhibition in cancer cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1934.