Abstract
6532 Background: GCN2 is an evolutionarily conserved kinase and a pivotal regulator of the Integrated Stress Response (ISR) that is activated in response to amino acid scarcity. Active GCN2 phosphorylates translation initiation factor eIF2α resulting in the attenuation of global protein synthesis. ISR signaling primarily promotes cell survival but may trigger cell death, dependent on the cellular context. In hematological tumors GCN2 promotes tumor cell survival under conditions of nutrient scarcity. Several GCN2 inhibitors are in clinical development for treatment of both solid and hematological tumors. Here, we describe the preclinical results of a novel, selective ATP-competitive inhibitor of GCN2. Methods: GCN2 inhibition by AP030 was determined using a biochemical Lanthascreen assay and a cell based HTRF assay measuring eIF2a phosphorylation following stimulation with Borrelidin. Kinase selectivity was determined using KinomeScan, and bespoke biochemical and cell-based assays. Interaction of AP030 with GCN2 was determined using X-ray crystallography. AP030 activity in disease-relevant tumor cell lines was determined using cell viability, caspase activation, protein expression and qPCR gene expression endpoints. Inhibition of hematological tumor growth and induction of cell death was investigated in patient samples, and ALL and AML in vivo animal models. Results: Potent inhibition of GCN2 in the Lanthascreen assay was demonstrated with AP030 (Ki of 4.4nM). Following stimulation with Borrelidin, AP030 inhibited eIF2a phosphorylation with an IC50 of 50.8nM and inhibited downstream targets CHAC1 and DDIT3 measured by qPCR. X-ray crystallography confirmed that AP030 binds to the ATP-binding site of GCN2. The KinomeScan confirmed that AP030 was highly selective against the human kinome. AP030 led to partial or complete reduction of AML cell line viability as a single agent and acted synergistically with asparaginase in ALL cell lines. Caspase 3/7 induction was observed in the AML and ALL cell lines evaluated and AP030 increased the proportion of cells undergoing apoptosis in AML patient primary samples. In the CCRF-CEM ALL systemic in vivo tumor model AP030 inhibited tumor growth in combination with asparaginase (TGI 79.33%). Treatment with 0.5-5mg/kg (q.d.) of AP030 resulted in dose-dependent tumor growth inhibition and regression of the MOLM-16 AML in vivo model (TGI 97.37% 5mg/kg). RNA sequencing of residual tumor cells revealed disruption of amino acid and protein metabolism, consistent with GCN2 inhibition. Conclusions: Targeting hematological tumor reliance on the GCN2 arm of the ISR during nutrient scarcity is a novel approach to preventing tumor cell survival. AP030 a novel, potent, selective, ATP-competitive kinase inhibitor has been shown to lead to impressive efficacy in acute leukemia. Based on these preclinical results, a phase 1/2 study has been initiated in AML.
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