Hyperoxia enhances VEGF release from A549 cells via post-transcriptional processes.

Exposure of animals to hyperoxia decreases lung VEGF mRNA expression concomitant with an acute increase in VEGF protein within the epithelial lining fluid (ELF). The VEGF concentration in ELF is in excess of that found in the plasma, leading to the hypothesis that hyperoxia stimulates the release of VEGF protein from stores within the extracellular matrix. To test this hypothesis in a cell culture system, we exposed A549 cells to 95% O(2) (Ox) for 48 h followed by recovery in room air (RA) for 24 h. We found that Ox increased VEGF protein two- to threefold within the medium at 48 h of exposure and during recovery. Heparin clearing revealed the medium to contain a 50/50 mixture of the heparin-binding (VEGF(165)) and heparin-nonbinding (VEGF(121)) proteins and that Ox increased both proteins equally. Transcriptional activation of VEGF seems unlikely to explain the increase in VEGF protein, as expression of full-length and splice variant VEGF mRNA was unchanged by hyperoxia. Analysis of cell-associated VEGF proteins found that Ox increased the expression of VEGF(121) and VEGF(165) proteins. Blocking binding sites with exogenous heparin enhanced VEGF protein in the medium from RA-grown cells, whereas heparinase digestion of bound VEGF revealed a greater reserve of VEGF protein in RA cells. Collectively these findings indicate that hyperoxia enhances the expression of VEGF(121/165) proteins and facilitates the release of VEGF(165) from cell-associated stores. Increases in VEGF in ELF may represent an adaptive response fostering cell survival and type II cell proliferation in O(2)-induced lung injury.