Growth factor receptor bound protein-7 (Grb7) is a multi-domain adaptor protein which is regulated cell functions by interacting with signaling molecules to transmit signal transduction. We first demonstrate that FAK was capable of phosphorylating the Tyr-188 and Tyr-338 within Grb7, and the tyrosine phosphorylation-deficient mutants evidently altered the phosphorylation of paxillin and ERK1/2 but less on AKT, implying their involvement in the FAK•Grb7-mediated cellular functions. Additionally, the formation of FAK-Grb7 complexes and Grb7 phosphorylation by FAK in an integrin-dependent manner were essential for cell migration, proliferation and anchorage-independent growth in A431 cells, indicating the importance of FAK-Grb7 complexes in tumorigenesis. We further show that Grb7 promotes tumorigenesis through the formation of a novel EGFR-Grb7-Ras signaling complex. Grb7-mediated cell proliferation and growth are essential for the tumorigenesis in erbB2-Grb7-overexpressing SK-Br3 breast cancer cells. EGF-induced de novo Grb7 tyrosine phosphorylation recruits and activates Ras-GTPases and subsequently promotes the phosphorylation of ERK1/2, thereby stimulating tumor growth. We also reveal a novel mechanism by which Grb7 regulates cell migration, proliferation, invasion and tumorigenesis of A549 NSCLC cells through the EGF-triggered EGFR-Grb7-STAT3-EphA4 signaling pathway. Our data provide a better understanding on the signal transduction event for Grb7-mediated cellular functions. Grb7 might have the potential to develop as a prognostic biomarker model and improve the overall sensitivity and specificity of cancer therapies.