EGF regulation of proximal tubule cell proliferation and VEGF ‐A secretion

Proximal tubule cell ( PTC ) proliferation is critical for tubular regeneration and recovery from acute kidney injury. Epidermal growth factor ( EGF ) and vascular endothelial growth factor ( VEGF ‐A) are important for the maintenance of tubulointerstitial integrity and can stimulate PTC proliferation. We utilized HK ‐2 cells, an immortalized human PTC line, to characterize the EGF ‐dependent regulation of VEGF ‐A secretion and proliferation in PTC s. We demonstrate that EGF stimulates VEGF ‐A secretion via the EGF receptor ( EGFR ) and stimulates cell proliferation via activation of the VEGF receptor, VEGFR ‐2. EGFR activation promotes MAPK ( ERK 1/2) activation and HIF ‐1 α expression, which are required for basal and EGF ‐stimulated VEGF ‐A secretion. EGF also stimulates the phosphorylation of P70S6 kinase (P70S6K), the downstream target of mTORC 1. Rapamycin decreased basal and EGF stimulated HIF ‐1 α and enhanced MAPK ( ERK 1/2) activation, while MAPK ( ERK /12) inhibition downregulated HIF ‐1 α expression and the phosphorylation of p70S6K. EGF stimulation of p70S6K was also independent of p‐ AKT . Inhibition of the mTORC 1 pathway with rapamycin abolished phosphorylation of p70S6K but had no effect on VEGF ‐A secretion, indicating that EGF ‐stimulated VEGF ‐A secretion did not require mTORC 1 pathway activation. We demonstrate evidence of a complex crosstalk between the MAPK / ERK and mTORC 1 pathways, wherein MAPK ( ERK 1/2) activation stimulates p‐P70S6K, while p‐P70S6K activation seems to inhibit MAPK ( ERK 1/2) in EGF ‐treated HK ‐2 cells. Our results suggest that EGF stimulates MAPK ( ERK 1/2) in HK ‐2 cells, which in turn increases HIF ‐1 α expression and VEGF ‐A secretion, indicating that VEGF ‐A mediates EGF ‐stimulated cell proliferation as an autocrine proximal tubular epithelial cell growth factor.