Abstract
Abstract Objective: AKT is a component of the PI3K/AKT/mTOR (PAM) pathway, which plays an important part in cell proliferation, growth and survival, activated in many cancers and has been validated as a therapeutic target in the clinic. Inhibition of AKT activity can block the PAM pathway and proliferation of various types of tumor cells with loss of tumor suppressor PTEN, mutational activation of p110a catalytic subunit of PI3K and amplification of the gene encoding either AKT or PI3K. The purpose of this study is to investigate the in vitro and in vivo antitumor activity of HZB0071, a small molecule AKT kinase inhibitor, in preclinical models of solid cancer with AKT overexpression. Method: Kinase inhibiting activity of HZB0071 was determined with AKT1, 2, 3 kinase assays. Cellular anti-proliferative activity was evaluated with AKT overexpressed LNcap cell line and DU145 cell line without AKT overexpression. The antitumor activity of HZB0071 was evaluate in vivo and the synergistic effect combined with Paclitaxel in AKT highly expressed patient-derived mouse xenograft (PDX) models of Gastric Cancer ST-02-0013 and cell-derived mouse xenograft (CDX) models of Breast Cancer BT474. Result: HZB0071 displayed potent kinase inhibiting activity for AKT1, 2, 3 with IC50 1.3±0.41 nM, 50.3±13.4 nM and 90.4±5.84 nM, respectively. HZB0071 inhibited cell proliferation in AKT overexpressed LNcap cells with IC50 67±7 nM. In contrast, HZB0071 showed much weaker anti-proliferative activity in DU145 cells with IC50 >10,000 nM. HZB0071 showed antitumor efficacy in AKT highly expressed gastric cancer PDX model ST-02-0013 (TGI = 62% @30 mpk, QD as single agent; TGI = 61% @15 mpk + Paclitaxel @10 mpk, QD, in combination with Paclitaxel), as well as in the breast cancer BT474 CDX model (TGI = 88% @30 mpk + Paclitaxel @15 mpk, QD). Conclusion: We have identified a novel potent AKT inhibitor HZB0071. Preclinical studies shows antitumor efficacy of HZB0071 in AKT overexpressed solid cancer models. HZB0071 represents a promising clinical candidate for treating solid cancers with high AKT expression. Citation Format: Gang Li, Lihong Hu, Weifeng Mao, Dongfang Li, Charles Z. Ding, Shuhui Chen. Preclinical evaluation of HZB0071, a small molecule inhibitor of AKT [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 5788.
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