Abstract A080: Target genes in pancreatic cancer cells of the pan-quadruplex clinical candidate compound QN-302 revealed by comparative transcriptome profiling

Abstract

Abstract QN-302 is a tetra-substituted naphthalene derivative designed to have high affinity to quadruplexes in cancer-related genes, which have multiple quadruplex occurrence in their promoter sequences. QN-302 has ca 1 nM in vitro activity against a panel of pancreatic ductal adenocarcinoma (PDAC) cell lines and shows high activity against four distinct PDAC in vivo models, including the KPC genetic model. QN-302 is currently being developed for clinical trials in solid tumors including PDAC. It has also recently been granted orphan drug drug (ODD) status by the FDA. We have previously reported on whole-genome transcriptome studies for QN-302, which show that it selectively targets quadruplex-rich genes in PDAC-related pathways, and thus acts as a pan-quadruplex agent. We have recently extended our analysis to include two closely related analogs of QN-302 as well as data from a gemcitabine-resistant line. QN-302 is consistently ca 10-fold more potent in PDAC cells and in vivo than the second-best analog. RNA-seq whole-cell and comparative bioinformatics analyses have been used to probe these differences. This has resulted in the identification of those target genes that the naphthalene diimide family have in common, many of which are involved in PDAC pathways such as hedgehog, axon guidance, WNT/β-catenin and hippo. It has also been possible to identify a small number of quadruplex target genes that are highly and selectively down-regulated by QN-302, and which are also highly up-regulated in human PDAC. We suggest that these contribute to the exceptional in vivo potency of this compound. Citation Format: Ahmed Ahmed, Tariq Arshad, Maria Roman-Escorza, Dan M. Neidle, Stephen Neidle. Target genes in pancreatic cancer cells of the pan-quadruplex clinical candidate compound QN-302 revealed by comparative transcriptome profiling [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Pancreatic Cancer; 2023 Sep 27-30; Boston, Massachusetts. Philadelphia (PA): AACR; Cancer Res 2024;84(2 Suppl):Abstract nr A080.