Ulrich Reiser

Abstract 2330: BI5: a novel SMAC mimetic that triggers tumor cell death and potentiates PD-1 mediated cancer therapy

Background: Inhibitors of apoptosis proteins (IAPs) regulate cellular apoptosis by interfering with the proteolytic activities of caspases. IAP inhibitors (SMAC mimetics) have been developed to restore the defective apoptosis that characterizes many tumour cells. Emerging evidence demonstrates that IAPs are critical components of immune-modulatory pathways that control innate and adaptive immunity. Accordingly, SMAC mimetics hold the promise of both inducing tumour cell killing and stimulating the immune system to recognize and eliminate dying tumour cells. Here we show that BI5 primes immune components and synergises with PD-1 checkpoint inhibitors to promote eradication of syngeneic tumors. Methods: Here we report the efficacy and modulation of the immune response by a potent and selective SMAC mimetic, BI5. We characterised the effect of BI5 on tumor growth inhibition as a single agent and in combination with an anti-PD-1 antibody in syngeneic mouse tumor models. A detailed 17-colour multi-color flow cytometry analysis was used to investigate the mechanisms by which the SMAC mimetic interacts with anti-PD-1 therapy in vivo. Results: Treatment of the syngeneic mouse tumor models MBT-2 and EMT-6 with the SMAC mimetic in combination with an anti-PD-1 antibody results in remarkable tumor regressions in vivo. Importantly, the combined effect of the SMAC mimetic and anti-PD-1 on tumor growth was dependent on the adaptive immune system in vivo. Mechanistic studies show that degradation of IAP triggers tumor cell death, which leads to a potent activation of dendritic cells in the draining lymph nodes and a subsequent influx of T and NK cells into the tumor microenvironment. Interestingly, in the presence of the SMAC mimetic alone, an induction of PD-1 expression on tumor-infiltrating CD8+ T cells was observed, which in turn resulted in the exhaustion of these cells and tumor outgrowth. In the presence of the anti-PD-1 antibody, T cells are reactivated leading to potent and long term tumor eradication. Conclusion: We show that our SMAC mimetic leads to a potent induction of immunogenic cell death and sets up a “virtuous cycle” by potentiating dendritic cell and T cell mediated immune responses that further promote induction of cell death. These effects are potentiated by checkpoint inhibitors, leading to long term tumor control. Tumours with minimal T-cell infiltration are poorly responsive to PD-1 monotherapy. These studies indicate that SMAC mimetics, such as BI5, represent promising and tolerated combination partners for checkpoint inhibitors in patients that lack a strong immune inflammatory signature. Citation Format: Markus Reschke, Maria Antonietta Impagnatiello, Ulrich Reiser, Dirk Scharn, Walter Spevak, Alexander Savchenko, Andreas Wernitznig, Martina Sykora, Rebecca Langlois, Elisabeth Zier, Daniel Zach, Sabine Kallenda, Pilar Garin-Chesa, Jens Quant, Mark Pearson, Darryl McConnell, Norbert Kraut, Juergen Moll. BI5: a novel SMAC mimetic that triggers tumor cell death and potentiates PD-1 mediated cancer therapy [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 2330. doi:10.1158/1538-7445.AM2017-2330

Pharmacological Profile of BI 847325, an Orally Bioavailable, ATP-Competitive Inhibitor of MEK and Aurora Kinases.

Although the MAPK pathway is frequently deregulated in cancer, inhibitors targeting RAF or MEK have so far shown clinical activity only in BRAF- and NRAS-mutant melanoma. Improvements in efficacy may be possible by combining inhibition of mitogenic signal transduction with inhibition of cell-cycle progression. We have studied the preclinical pharmacology of BI 847325, an ATP-competitive dual inhibitor of MEK and Aurora kinases. Potent inhibition of MEK1/2 and Aurora A/B kinases by BI 847325 was demonstrated in enzymatic and cellular assays. Equipotent effects were observed in BRAF-mutant cells, whereas in KRAS-mutant cells, MEK inhibition required higher concentrations than Aurora kinase inhibition. Daily oral administration of BI 847325 at 10 mg/kg showed efficacy in both BRAF- and KRAS-mutant xenograft models. Biomarker analysis suggested that this effect was primarily due to inhibition of MEK in BRAF-mutant models but of Aurora kinase in KRAS-mutant models. Inhibition of both MEK and Aurora kinase in KRAS-mutant tumors was observed when BI 847325 was administered once weekly at 70 mg/kg. Our studies indicate that BI 847325 is effective in in vitro and in vivo models of cancers with BRAF and KRAS mutation. These preclinical data are discussed in the light of the results of a recently completed clinical phase I trial assessing safety, tolerability, pharmacokinetics, and efficacy of BI 847325 in patients with cancer. Mol Cancer Ther; 15(10); 2388–98. ©2016 AACR.