Abstract

Abstract Genomic instability is a hallmark of cancer which promotes oncogenic mutations in pancreatic ductal adenocarcinoma (PDAC), leading to more aggressive tumors with greater potential for drug resistance. Deregulation of the master transcription factor, MYC, is found in virtually all PDAC tumors and promotes genomic alterations by increasing replication stress, augmenting DNA repair pathways, and promoting cell survival. To resolve replication stress, stalled forks are trafficked to the nuclear pores where the necessary machinery accumulates. Activated MYC is spatially reorganized to the nuclear pores as well, a mechanism that is exacerbated in cancer. Whether MYC activity at the nuclear pores contributes to resolving replication stress in PDAC remains to be known. To investigate this mechanism, we are creating genomic and proteomic tools to determine MYC’s function at the nuclear pores during replication stress induced by olaparib treatment in PDAC cells. We found that olaparib significantly increases MYC accumulation at the nuclear pore in low-passage cell lines we established from PDAC patient tumors. Furthermore, we showed that MYC interacts with the nuclear pore resident SUMO protease, SENP1, which plays a key role in resolving stalled forks. Our preliminary data suggest a role for MYC resolving replication stress at nuclear pores, and could indicate MYC activity as a therapeutic target in olaparib-resistant PDAC. Citation Format: Gabriel M. Cohn, Colin J. Daniel, Daniel F. Liefwalker, Rosalie C. Sears. Studying MYC's contribution to replication stress at the nuclear pore [abstract]. In: Proceedings of the AACR Virtual Special Conference on Pancreatic Cancer; 2021 Sep 29-30. Philadelphia (PA): AACR; Cancer Res 2021;81(22 Suppl):Abstract nr PO-081.

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