Abstract We sought to determine if naturally occurring mutations in HER3 could drive oncogenic growth of HER3KO HER2+ HCC1569 cells in which endogenous HER3 has been eliminated via CRISPR-Cas9. A series of HER3 mutations identified in breast cancer patients (F94L, V104L, G284R, D297Y, T355I, and E928G) were introduced using lentiviral transduction and stable cell lines were generated in HER3KOHCC1569 cells via puromycin selection. We identified HER3V104L mutation to have higher cell proliferation and higher p-HER3 expression compared to wild-type (wt) and empty-vector (EV) HER3. We observed that HCC1569HER3KO cells stably expressing WT and V104L were sensitive to increasing doses of neratinib (0.1-0.5 µM) concentration. Next we analyzed if this mutation rendered resistance to the recently FDA- approved irreversible HER2 tyrosine kinase inhibitor, tucatinib. Our data indicated that both that V104L cells were sensitive to higher concentration of tucatinib compared to neratinib. In parallel experiments, we utilized COS7 cells to examine the signaling properties of HER3V104L. Our data indicated that transient transfection of COS7 cells with HER3V104L mutant significantly induces p-HER3/p-AKT and p-HER2 expression compared to WT HER3 in a ligand dependent manner. In addition, we observed that the V104L mutation stabilizes HER3 protein expression independent of HER2 and ligand stimulation. Experiments are ongoing to determine whether V104L induced HER3 stabilization and downstream signaling activation is dependent on HER3 binding partners including EGFR, HER2 or HER4. We also aim to understand how the V104L mutation stabilizes HER3 expression. Structural modeling of V104L mutation will provide insight about the mechanism of stabilization of the HER3 protein. We will use MCF10A and HEK293 cells to determine the effect of the V104L mutation on HER3 expression and downstream signaling. We also aim to decipher the signaling mechanism that drives the oncogenic potential of V104L mutation. In addition, we are using various PDXs with different HER3 mutations to determine other driver HER3 mutations in breast cancer and how this can be targeted in the clinic using HER targeted therapy. Citation Format: Rosalin Mishra, Mary Kate Kilroy, Hima Patel, Samar Alanazi, Joan T. Garrett. Role of her3 mutations on breast cancer oncogenesis [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 5412.