Abstract
GPCRs are highly desirable drug targets for human disease. Although GPCR dysfunction drives development and progression of many tumors, including breast cancer (BC), targeting individual GPCRs has limited efficacy as a cancer therapy because numerous GPCRs are activated. Here, we sought a new way of blocking GPCR activation in HER2+ BC by targeting a subgroup of GPCRs that couple to Gi/o proteins (Gi/o-GPCRs). In mammary epithelial cells of transgenic mouse models, and BC cell lines, HER2 hyperactivation altered GPCR expression, particularly, Gi/o-GPCR expression. Gi/o-GPCR stimulation transactivated EGFR and HER2 and activated the PI3K/AKT and Src pathways. If we uncoupled Gi/o-GPCRs from their cognate Gi/o proteins by pertussis toxin (PTx), then BC cell proliferation and migration was inhibited in vitro and HER2-driven tumor formation and metastasis were suppressed in vivo. Moreover, targeting Gi/o-GPCR signaling via PTx, PI3K, or Src inhibitors enhanced HER2-targeted therapy. These results indicate that, in BC cells, HER2 hyperactivation drives aberrant Gi/o-GPCR signaling and Gi/o-GPCR signals converge on the PI3K/AKT and Src signaling pathways to promote cancer progression and resistance to HER2-targeted therapy. Our findings point to a way to pharmacologically deactivate GPCR signaling to block tumor growth and enhance therapeutic efficacy.
Highlights
Breast cancer is the most common cancer and the second-most common cause of cancer death in US women
GPCR expression profiling was further done in tumors of a well-established transgenic animal model of human HER2+ breast cancer, Neu mice, which express an activated rat ErbB2/HER2 homologue selectively in the mammary gland [24]
Our studies show why this has been so difficult: in breast cancer cells, expression of a multiplicity of GPCRs is altered, a finding consistent with reports that various tumor types differentially express more than 50 GPCRs [8]
Summary
Breast cancer is the most common cancer and the second-most common cause of cancer death in US women. 15%–20% of all breast cancers overexpress ErbB2/HER2 and so are classified as HER2+ subtypes, which are associated with aggressive cancers with poor clinical outcomes [1]. HER2 is a member of the ErbB family, which includes EGFR/ErbB1, ErbB2/HER2, ErbB3, and ErbB4 — all transmembrane receptor tyrosine kinases ErbB2/HER2 has no known ligands but can homodimerize or heterodimerize with EGFR or HER3 [4]. Dimerized HER2 activates a complex cascade of downstream signaling that primarily consists of the PI3K/AKT and the MAPK pathways [4]. HER2 hyperactivation induces breast tumor formation, progression, and metastasis
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