Characterization of a Novel Hunk Inhibitor in HER2+ Breast Cancer
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Abstract
Human Epidermal Growth Factor Receptor 2 (HER2)-targeted agents have proven to be effective, however, the development of resistance to these agents has become an obstacle in treating HER2+ breast cancer. Prior evidence implicates Hormonally Upregulated Neu-associated Kinase (HUNK) as an anti-cancer target for primary and resistant HER2+ breast cancers. An inhibitor Staurosporine (STU) has been identified as a HUNK inhibitor in HER2+ breast cancer. While STU was determined as a promising tool for inhibiting HUNK, it is a broad-spectrum kinase inhibitor and has not moved forward clinically. Therefore, identifying a more selective inhibitor of HUNK could be critical for targeting HUNK in HER2+ breast and understanding mechanisms by which HUNK promotes resistance to HER2-inhibitors. Specifically, HUNK has been implicated in promoting autophagy as a resistance mechanism in HER2+ breast cancer. Previously, we have identified that HUNK binds and phosphorylates an autophagy inhibitory protein, Rubicon, at Serine (S) 92 in 293T cells. This phosphorylation event causes Rubicon to switch to being an autophagy promoter. However, the role that Rubicon S92 plays in HER2+ breast cancer has yet to be examined. In this study, a novel inhibitor of HUNK is characterized alongside Rubicon S92 phosphorylation. This study establishes that HUNK-mediated phosphorylation of Rubicon at S92 promotes tumorigenesis in HER2/neu+ breast cancer. HUNK inhibition prevents S92 Rubicon phosphorylation in HER2/neu+ breast cancer models and inhibits both autophagy and tumorigenesis. This study characterizes a downstream phosphorylation event as a measure of HUNK activity and identifies a novel HUNK inhibitor that has meaningful efficacy toward HER2+ breast cancer.