Abstract Notch signaling pathway is a mediator of cell differentiation and is critical for normal bone development. Four functional Notch ligands DLL1 and DLL4, and JAG1 and JAG2 showed various levels of affinity for Notch1-4 receptors. Dose dependent Notch signaling activation or blocking is attributed to anchored or soluble form of Notch ligands binding. Interestingly, Notch pathway is shown to play a dual role, either oncogenic or tumor suppressive, depending on signal dose and tissue-context. To understand Notch signaling activities in osteosarcoma (OS), we first studied the cell surface levels of Notch receptor expression in OS cell lines and patient derived xenograft (pdx) models. Cytometry based screening of NOTCH1-4 receptors showed NOTCH2 as a predominant surface expressed protein in most of the samples. Interestingly, the canonical Notch target genes HES1 and DTX1 were higher (~5-fold) in OS cells compared to mesenchymal cells (MSC). Subsequently, we evaluated selected Notch pathway gene expression in 48 patients with recurrent/metastatic OS by RNAseq analysis. High expression of Notch pathway-related genes was seen in a subset of patients. NOTCH2 expression was comparable between primary and metastatic OS specimens, highest as compared to other Notch receptors and was significantly higher than normal tissue. Thus we aimed to elucidate soluble Notch ligands mediated blocking of Notch signaling using immunoglobulin-G bound DLL-1, -3, and -4 and JAG-1, and -2 in in vitro studies using OS cells. Soluble DLL1-Fc treatment increased OS cell death as compared to the other Notch ligands as well as control-Fc cells. Addition of soluble DLL1 resulted in the decreased expression of Notch downstream genes such as HES1, DTX1 and HEY1. Taken together, these findings identify soluble DLL1 as a potent Notch pathway inhibitor in OS in vitro and support further exploration of NOTCH2 as a potential therapeutic target in OS. Citation Format: Sankaranarayanan Kannan, John A. Livingston, Michael Roth, Jonathan Benjamin, Yifei Wang, Zhongting Zhang, Wendong Zhang, Chia-Chin Wu, Hannah Beird, Andrew Futreal, Richard Gorlick. Notch2 inhibition as a therapeutic intervention in osteosarcoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 1291.