Abstract
Heregulin signaling is involved in various tumor proliferations and invasions; thus, receptors of heregulin are targets for the cancer therapy. In this study we examined the suppressing effects of extracellular domains of ErbB2, ErbB3, and ErbB4 (soluble ErbB (sErbB)) on heregulin β signaling in human breast cancer cell line MCF7. It was found that sErbB3 suppresses ligand-induced activation of ErbB receptors, PI3K/Akt and Ras/Erk pathways most effectively; sErbB2 scarcely suppresses ligand-induced signaling, and sErbB4 suppresses receptor activation at ∼10% efficiency of sErbB3. It was revealed that sErbB3 does not decrease the effective ligands but decreases the effective receptors. By using small interfering RNA (siRNA) for ErbB receptors, we determined that sErbB3 suppresses the heregulin β signaling by interfering ErbB3-containing heterodimers including ErbB2/ErbB3. By introducing the mutation of N418Q to sErbB3, the signaling-inhibitory effects were increased by 2-3-fold. Moreover, the sErbB3 N418Q mutant enhanced anticancer effects of lapatinib more effectively than the wild type. We also determined the structures of N-glycan on Asn-418. Results suggested that the N-glycan-deleted mutant of sErbB3 suppresses heregulin signaling via ErbB3-containing heterodimers more effectively than the wild type. Thus, we demonstrated that the sErbB3 N418Q mutant is a potent inhibitor for heregulin β signaling.
Highlights
Extracellular domain of ErbBs down-regulates growth factor signaling
In this study we have compared the suppressive effects of sErbB2, sErbB3, and sErbB4 on heregulin signaling and determined that sErbB3 suppresses signaling most effectively
It was suggested that sErbB3 suppresses heregulin signaling through the ErbB3-containing heterodimer in MCF7 cells and that it acts not on ligands, but on cell surface molecules, probably ErbB receptors
Summary
Results: sErbB3 acts on ErbB3-containing heterodimers to suppress heregulin signaling, and the effects are enhanced by single N-glycan deletion. In this study we examined the suppressing effects of extracellular domains of ErbB2, ErbB3, and ErbB4 (soluble ErbB (sErbB)) on heregulin  signaling in human breast cancer cell line MCF7. Results suggested that the N-glycan-deleted mutant of sErbB3 suppresses heregulin signaling via ErbB3-containing heterodimers more effectively than the wild type. Herstatin was reported to bind to the full-length ErbB2 to inhibit the activation of ErbB2-containing heterodimers; p85-sErbB3 and TRAP-Fc are suggested to bind to ligands as decoy receptors to suppress downstream signaling. In the present study we prepared the extracellular domain of ErbB2, ErbB3, and ErbB4 (sErbB), whose crystal structures have been previously described [25,26,27,28], and compared their suppressive effects on heregulin signaling. The results indicate that N-glycan is involved in the regulation of physicochemical properties of ErbB3, and manipulation of N-glycan of sErbB may be a useful strategy to develop a novel therapy of cancer
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