Abstract

Abstract The leading cause of cancer related deaths is the formation of metastasis, frequently caused by insufficient therapies and limited therapy options. Novel compounds able to interfere with metastasis formation are therefore of tremendous interest. Colorectal Cancer (CRC) is the third most prevalent and second most lethal cancer worldwide. In CRC, metastasis formation is linked to poor patient survival and treatment failure. Up to 90% of CRC related deaths are attributed to metastasis formation. Identification of causative drivers of metastasis represents the basis for effective anti-metastatic therapy. Our lab newly identified the gene MACC1 (Metastasis Associated in Colon Cancer 1) in 2009. Since then, MACC1 has been established as a key causal molecule for tumor progression and metastasis formation. It was shown that MACC1 can function as a stage independent prognostic marker, predicting the onset of metastasis in stages I, II and III, based on tumor tissue analyses or through a blood based test with an accuracy of up to 85%. MACC1 promotes several cancer hallmark capabilitites, providing cells with a malignant phenotype. Further, MACC1 has been established as a prognostic and predictive biomarker for metastasis in CRC and more than 20 other solid cancer entities. We therefore searched for novel compounds targeting MACC1 transcription. A high-throughput screen employing HCT116 cells stably transfected with a MACC1 promoter-luciferase reporter construct with more than 118,500 compounds was conducted at the EMBL in Heidelberg. The screen revealed a Tetrazolo-pyridazine based compound as a promising lead for effective inhibition of MACC1 expression. We demonstrated that several SAR and Medchem-generated analogues of our lead compound effectively inhibit MACC1 gene expression and MACC1 driven cancer cell motility in vitro in CRC and cross entity cell lines. Further, they inhibit MACC1-induced tumor progression and metastasis in vivo in a CRC xenograft model in mice. Moreover, ADMET studies were conducted, confirming our compounds are likely to be orally active drugs with high stability in human plasma, low plasma protein binding and great permeability with neglectable efflux in MDR1-MDCKII assay. Through RNA-sequencing and subsequent gene set enrichment analysis a first hypothesis on the mode of action was shaped. An immune pathway has been identified as the most promising signaling pathway targeted by these compounds and is currently explored through knock down and signaling studies. Taken together, this novel class of small molecules represents promising candidates for anti-metastatic therapy in CRC and other solid cancer patients in a personalized medicine setting. Funding: This study is adviced and financed by the SPARK BIH Program Citation Format: Paul Curtis Schöpe, Shixian Yan, Dennis Kobelt, Joe Lewis, Kerstin Putzker, Ulrike Uhrig, Edgar Specker, Jens Peter von Kries, Mathias Dahlmann, Hector E Sanchez-Ibarra, Anke Unger, Mia-Lisa Zischinsky, Bert Klebl, Peter Lindemann, Wolfgang Walther, Marc Nazaré, Ulrike Stein. Novel tetrazolo-pyridazine based MACC1 transcriptional inhibitors as promising anti-metastatic therapy [abstract]. In: Proceedings of the AACR Special Conference: Cancer Metastasis; 2022 Nov 14-17; Portland, OR. Philadelphia (PA): AACR; Cancer Res 2022;83(2 Suppl_2):Abstract nr A039.

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