Parent Award - PROJECT SUMMARY/ABSTRACT Although early stage colorectal cancer (CRC) is curable with surgery, there is a critical need to stratify high-risk early stage patients that would benefit from adjuvant treatment. In contrast to early stage CRC, late-stage metastatic CRC (mCRC) is usually lethal presenting a critical need to match treatment modalities to patients based on molecular phenotyping. To address these unmet clinical needs the proposed study aims to understand the molecular mechanisms enabling primary CRCs to metastasize with the longer-term goal of rationally guiding treatment decisions. While transcriptome sequencing has provided an unbiased method for discovering lncRNAs, existing large-scale sequencing projects are comprised of predominantly primary tumors without matched metastatic samples. This represents a critical barrier to studying lncRNAs involved in the progression of primary to metastatic disease. To address this gap, we conducted the first meta-analysis of normal, primary, and distant metastatic tissues across CRC patients to identify differentially expressed RNAs Associated with Metastasis (RAMS). We prioritized a previously uncharacterized nuclear localized lncRNA, RAMS11, since: (1) its expression correlated with metastatic progression, (2) its expression associated with poor disease-free survival across multiple independent patient cohorts, and (3) it promoted oncogenic phenotypes in vitro and in vivo. Further, subsequent mechanistic experiments demonstrated RAMS11- dependent recruitment of Chromobox protein 4 (CBX4) to transcriptionally activate Topoisomerase II alpha (TOP2α). This provides a strong rationale for our hypothesis that RAMS11 interacts with CBX4 to epigenetically regulate genes to promote oncogenic phenotypes and treatment resistance. This study will focus on dissecting how RAMS11 dependent CBX4 target gene regulation confers oncogenic phenotypes in vitro and in vivo. We will also assess whether RAMS11 can help identify high-risk CRC patients and its role in chemotherapy resistance. Overall, our proposal will significantly advance the lncRNA tumor biology field by providing mechanistic insight into RAMS11 epigenetic regulation to promote mCRC. Our research has translational impact by evaluating the potential role of RAMS11 to stratify CRC patients at high-risk of develop recurrent/metastatic disease that would benefit from specific adjuvant therapies.