Abstract

Vascular endothelial growth factor (VEGF) regulates vasculogenesis and angiogenesis by using two tyrosine kinase receptors, VEGFR1 and VEGFR2. VEGFR1 null mutant mice die on embryonic day 8.5 (E8.5) to E9.0 due to an overgrowth of endothelial cells and vascular disorganization, suggesting that VEGFR1 plays a negative role in angiogenesis. We previously showed that the tyrosine kinase (TK) domain of VEGFR1 is dispensable for embryogenesis, since VEGFR1 TK-deficient mice survived and were basically healthy. However, the molecular basis for this is not yet clearly understood. To test the hypothesis that the specific role of VEGFR1 during early embryogenesis is to recruit its ligand to the cell membrane, we deleted the transmembrane (TM) domain in TK-deficient VEGFR1 mice. Surprisingly, about half of the VEGFR1(TM-TK)-deficient mice succumbed to embryonic lethality due to a poor development of blood vessels, whereas other mice were healthy. In VEGFR1(TM-TK)(-/-) mice with growth arrest, membrane-targeted VEGF was reduced, resulting in the suppression of VEGFR2 phosphorylation. Furthermore, the embryonic lethality in VEGFR1(TM-TK)(-/-) mice was significantly increased to 80 to 90% when the genotype of VEGFR2 was changed from homozygous (+/+) to heterozygous (+/-) in 129/C57BL6 mice. These results strongly suggest that the membrane-fixed ligand-binding region of VEGFR1 traps VEGF for the appropriate regulation of VEGF signaling in vascular endothelial cells during early embryogenesis.

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