Abstract
Hsp70 is a promising anti-cancer target. Our JG-98 series of Hsp70 inhibitors show anti-cancer activities affecting both cancer cells and tumor-associated macrophages. They disrupt Hsp70 interaction with a co-chaperone Bag3 and affect signaling pathways important for cancer development. Due to a prior report that depletion of Hsp70 causes similar responses as depletion of Hsp90, interest to Hsp70 inhibitors as drug prototypes is hampered by potential similarity of their effects to effects of Hsp90 inhibitors. Here, using the Connectivity Map platform we demonstrate that physiological effects of JG-98 are dissimilar from effects of Hsp90 inhibitors, thus justifying development of these compounds. Using gene expression and ActivSignal IPAD platform, we identified pathways modulated by JG-98. Some of these pathways were affected by JG-98 in Bag3-dependent (e.g. ERK) and some in Bag3-independent manner (e.g. Akt or c-myc), indicating multiple effects of Hsp70 inhibition. Further, we identified genes that modulate cellular responses to JG-98, developed approaches to predict potent combinations of JG-98 with known drugs, and demonstrated that inhibitors of proteasome, RNApol, Akt and RTK synergize with JG-98. Overall, here we established unique effects of novel Hsp70 inhibitors on cancer cell physiology, and predicted potential drug combinations for pre-clinical development.
Highlights
L1000 platform generates signatures of perturbations (~20000 compounds) in multiple cell lines. In this experiment five cell lines, including MCF7, PC3, HepG2, HT29 and Jurkat were treated with five concentrations of JG-98 for 24 hours
The effects of JG-98 and tanespimycin on gene expression were compared with effects of other drugs in the Connectivity Map database
The protospacer-adjacent motif (PAM) sequence is highlighted in red. (B) Protein levels of POLR2A in parental and isogenic POLR2A-loss HCC1937 and BT549 cell lines. β-actin is used as a control. (C) The sensitivity of the POLR2A-neutral and POLR2A-loss cell lines to the treatment of JG-98 in the presence of the sub-toxic concentration of α-amanitin. 0.1 μg/ml and 0.2 μg/ml of α-amanitin were used to treat HCC1937 and BT549 cell lines, respectively. (D) Synergistic effect of combined treatments of JG-98 and α-amanitin in human TNBC cells with hemizygous loss of POLR2A
Summary
By acting through the tumor stroma, JG-98 shows potent anti-cancer effects even if tumor is formed by cancer cells resistant to it[25] Though these inhibitors do not distinguish between highly homologous Hsp[70] family members, focusing on cancer specific functions addresses the daunting challenge of safety of Hsp[70] inhibitors. We undertook a series of tests in order to uncover pathways regulated by JG-98-mediated inhibition of Hsp[70] family members in cancer cells. These tests were followed by genetic analysis to dissect physiological significance of the pathways in response of cancer cells to JG-98 series of Hsp[70] inhibitors. We used this information to identify known drugs that show synergistic effects on cancer cell killing when combined with JG-98
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