Differential expression of VEGF isoforms and VEGF(164)-specific receptor neuropilin-1 in the mouse uterus suggests a role for VEGF(164) in vascular permeability and angiogenesis during implantation.

The mechanism(s) by which localized vascular permeability and angiogenesis occur at the sites of implantation is not clearly understood. Vascular endothelial growth factor (VEGF) is a key regulator of vasculogenesis during embryogenesis and angiogenesis in adult tissues. VEGF is also a vascular permeability factor. VEGF acts via two tyrosine kinase family receptors: VEGFR1 (Flt-1) and VEGFR2 (KDR/Flk-1). Recent evidence suggests that neuropilin-1 (NRP1), a receptor involved in neuronal cell guidance, is expressed in endothelial cells, binds to VEGF(165) and enhances the binding of VEGF(165) to VEGFR2. We examined the spatiotemporal expression of vegf isoforms, nrp1 and vegfr2 as well as their interactions in the periimplantation mouse uterus. We observed that vegf(164) is the predominant isoform in the mouse uterus. vegf(164) mRNA accumulation primarily occurred in epithelial cells on days 1 and 2 of pregnancy. On days 3 and 4, the subepithelial stroma in addition to epithelial cells exhibited accumulation of this mRNA. After the initial attachment reaction on day 5, luminal epithelial and stromal cells immediately surrounding the blastocyst exhibited distinct accumulation of vegf(164) mRNA. On days 6-8, the accumulation of this mRNA occurred in both mesometrial and antimesometrial decidual cells. These results suggest that VEGF(164) is available in mediating vascular changes and angiogenesis in the uterus during implantation and decidualization. This is consistent with coordinate expression of vegfr2, and nrp1, a VEGF(164)-specific receptor, in uterine endothelial cells. Their expression was low during the first 2 days of pregnancy followed by increases thereafter. With the initiation and progression of implantation (days 5-8), these genes were distinctly expressed in endothelial cells of the decidualizing stroma. Expression was more intense on days 6-8 at the mesometrial pole, the presumptive site of heightened angiogenesis and placentation. However, the expression was absent in the avascular primary decidual zone immediately surrounding the implanting embryo. Crosslinking experiments showed that (125)I-VEGF(165) binds to both NRP1 and VEGFR2 present in decidual endothelial cells. These results suggest that VEGF(164), NRP1 and VEGFR2 play a role in VEGF-induced vascular permeability and angiogenesis in the uterus required for implantation. genesis 26:213-224, 2000.

Halder JB ，Zhao X ，Soker S ，Paria BC ，Klagsbrun M ，Das SK ，Dey SK ... -  《GENESIS》

Coordinate expression of vascular endothelial growth factor receptor-1 (flt-1) and its ligand suggests a paracrine regulation of murine vascular development.

Vascular endothelial growth factor (VEGF) is a candidate regulator of blood vessel growth during embryonic development and in tumors. To evaluate the role of VEGF receptor-1/flt-1 (VEGFR1/flt-1) in the development of the vascular system, we have characterized the murine homolog of the human flt-1 gene and have analyzed its expression pattern during mouse embryogenesis. Receptor binding studies using transfected COS cells revealed that the murine flt-1 gene encodes a high affinity receptor for VEGF. The apparent Kd for VEGF binding, as determined by Scatchard analysis, was 114 pM, demonstrating that VEGFR1/flt-1 has a higher affinity to VEGF than VEGF receptor-2/flk-1 (VEGFR2/flk-1). By in situ hybridization, VEGFR1/flt-1 was detected in the yolk sac mesoderm already at the early stages of vascular development, while the receptor ligand was expressed in the entire endoderm of 7.5-day mouse embryos. A comparison with VEGFR2/flk-1 showed that the two receptors shared a common expression domain in the yolk sac mesoderm, but were expressed at different sites in the ectoplacental cone. The differential expression of the two VEGF receptors persisted in the developing placenta, where VEGFR1/flt-1 mRNA was detected in the spongiotrophoblast layer, whereas VEGFR2/flk-1 transcripts were present in the labyrinthine layer which is the site of VEGF expression. In the embryo proper, VEGFR1/flt-1 mRNA was specifically localized in blood vessels and capillaries of the developing organs, closely resembling the pattern of VEGFR2/flk-1 transcript distribution. In the developing brain, the expression of VEGF receptors in the perineural capillary plexus and in capillary sprouts which have invaded the neuro-ectoderm correlated with endothelial cell proliferation and brain angiogenesis. The data are consistent with the hypothesis that VEGF and its receptors have an important function both in the differentiation of the endothelial lineage and in the neovascularization of developing organs, and act in a paracrine fashion.

Breier G ，Clauss M ，Risau W 《DEVELOPMENTAL DYNAMICS》

Differential expression of vascular endothelial growth factor and its receptor mRNAs in the mouse uterus around the time of implantation.

Chakraborty I ，Das SK ，Dey SK 《JOURNAL OF ENDOCRINOLOGY》

Selective induction of neuropilin-1 by vascular endothelial growth factor (VEGF): a mechanism contributing to VEGF-induced angiogenesis.

Oh H ，Takagi H ，Otani A ，Koyama S ，Kemmochi S ，Uemura A ，Honda Y ... -  《-》

Vascular endothelial growth factor (VEGF) and VEGF receptor 2 (flk-1) are expressed during vasculogenesis and vascular differentiation in the quail embryo.

Vasculogenesis, the de novo formation of embryonic blood vessels from their angioblastic precursors in situ, is supposed to be under the control of polypeptide growth factors and their receptors. The receptor tyrosine kinase flk-1 and its high-affinity ligand vascular endothelial growth factor (VEGF) represent an endothelial specific signal transduction system expressed during embryonic vascular growth in the mouse. We have cloned the quail homologs of VEGF and flk-1 using PCR and have investigated their expression pattern in vivo. As shown by Northern analysis and reverse transcription PCR, VEGF and flk-1 mRNA (3.9 and 5.8 kb, respectively) were already present in the unincubated blastodisc at low levels and were largely upregulated during gastrulation at Embryonic Day 1. As detected by in situ hybridization, flk-1 mRNA was initially present in the entire mesoderm of Day 1 embryos but from Day 2 on was restricted to endothelial cells. At Day 2 VEGF was ubiquitously expressed in the embryo proper and was mainly restricted to the vascularized part (area vasculosa) in the yolk sac. Later on VEGF expression was detected in all organs. In the kidney VEGF mRNA was mainly localized to the glomeruli. This pattern of expression is consistent with the pattern found during mouse embryogenesis. We have recently established an in vitro model of vasculogenesis in which hemangioblastic precursors are induced in cell cultures from the unincubated quail blastodisc by basic fibroblast growth factor (bFGF) and give rise to blood vessels in vitro. Taking advantage of this in vitro model we examined whether FGF and VEGF act in concert during vasculogenesis. We found that the flk-1 receptor mRNA is dramatically upregulated within 24 hr upon the addition of FGF to quail blastodisc cell cultures. This inducibility in response to FGF is confined to the first 24 hr of culture. The early expression of the flk-1 mRNA may characterize the differentiation of hemangioblastic precursors from pluripotent epiblast cells which in vivo is initiated during gastrulation. Thus, the time course and the pattern of expression during embryogenesis in different species suggest a major role for the VEGF/flk-1 signal transduction system in vasculogenesis and angiogenesis.

Flamme I ，Breier G ，Risau W 《DEVELOPMENTAL BIOLOGY》