Receptors of vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) in fetal and adult human kidney: localization and [125I]VEGF binding sites. Simon, M, et al. J. Am. Soc. Nephrol., 9: 1032-44 (1998)
1998
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Vascular endothelial growth factor (VEGF) has an important function in renal vascular ontogenesis and is constitutively expressed in podocytes of the adult kidney. The ability of VEGF to be chemotactic for monocytes and to increase the activity of collagenase and plasminogen activator may have implications for renal development and renal disease. In humans, the cellular actions of VEGF depend on binding to two specific receptors: Flt-1 and KDR. The aims of this study were: (1) to localize VEGF receptor proteins in human renal ontogenesis; (2) to quantify VEGF binding in human fetal and adult kidney; and (3) to dissect the binding into its two known components: the KDR and Flt-1 receptors. The latter aim was achieved by competitive binding of VEGF and placenta growth factor-2, which only binds to Flt-1. Quantification of 125I-VEGF binding sites was performed by autoradiography and computerized densitometry. By double-label immunohistochemistry, VEGF receptor proteins were localized solely to endothelial cells of preglomerular vessels, glomeruli, and postglomerular vessels. In developing glomeruli, VEGF receptor protein appeared as soon as endothelial cells were positive for von Willebrand factor. Specific 125I-VEGF binding could be localized to renal arteries and veins, glomeruli, and the tubulointerstitial capillary network in different developmental stages. Affinity (Kd) of adult (aK) and fetal (fK) kidneys was: Kd: glomeruli 38.6 +/- 11.2 (aK, n = 5), 36.3 +/- 7.1 (fK, n = 5); cortical tubulointerstitium 19.4 +/- 2.6 (aK, n = 5), 11.6 +/- 7.0 (fK, n = 5) pmol. Placenta growth factor-2 displaced VEGF binding in all renal structures by approximately 60%. VEGF receptor proteins thus were found only in renal endothelial cells. A coexpression of both VEGF binding sites could be shown, with Flt-1 demonstrating the most abundant VEGF receptor binding sites in the kidney. These studies support the hypothesis of a function for VEGF in adult kidney that is independent of angiogenesis. | 9621286
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The kinase insert domain receptor gene (KDR) has been relocated to chromosome 4q11-->q12. Sait, S N, et al. Cytogenet. Cell Genet., 70: 145-6 (1995)
1994
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Through in situ hybridization of a genomic DNA probe to metaphase chromosomes, we have localized the KDR gene to 4q11-->q12. This is the same locus as that for two other receptor tyrosine kinases, PDGFRA and KIT. This location for KDR differs from that which we previously reported using a cDNA probe. Using cDNA probes for both KDR and KIT identifies a locus at 4q31-->q32 which may uncover another cluster of receptor tyrosine kinase genes. | 7736781
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Molecular cloning of murine FLT and FLT4. Finnerty, H, et al. Oncogene, 8: 2293-8 (1993)
1992
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A wide range of growth and differentiation processes are regulated by the signalling of receptor tyrosine kinases (RTKs). We have developed a nested polymerase chain reaction (PCR) procedure with degenerate primers, and used it to identify RTKs expressed in murine fetal thymus. A novel RTK, called FLT4, and the murine homologue of FLT were found, and their PCR fragment sequences were used to isolate larger cDNA clones spanning the complete coding regions of these receptors. FLT4 was found to contain an extracellular region similar to the corresponding sequences of FLT and Flk-1, containing seven immunoglobulin domains. | 8393164
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The fms-like tyrosine kinase, a receptor for vascular endothelial growth factor. de Vries, C, et al. Science, 255: 989-91 (1992)
1992
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The fms-like tyrosine kinase (Flt) is a transmembrane receptor in the tyrosine kinase family. Expression of flt complementary DNA in COS cells conferred specific, high-affinity binding of vascular endothelial growth factor, also known as vascular permeability factor (VEGF-VPF), a factor that induces vascular permeability when injected in the guinea pig skin and stimulates endothelial cell proliferation. Expression of Flt in Xenopus laevis oocytes caused the oocytes to release calcium in response to VEGF-VPF. These findings show that flt encodes a receptor for VEGF-VPF. | 1312256
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Isolation and characterization of a newly identified endothelial cell mitogen produced by AtT-20 cells. Plouët, J, et al. EMBO J., 8: 3801-6 (1989)
1988
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An endothelial cell growth factor with unique specificity for vascular endothelial cells has been purified from the conditioned medium of the AtT-20 pituitary cell line. This growth factor, which has been characterized as a homodimer composed of two subunits with mol. wts of 23 kd is a potent mitogen for vascular endothelial cells in vitro with activity detectable at 50 pg/ml and saturation at 1 ng/ml. It was also angiogenic in vivo. In contrast with other endothelial mitogens of the fibroblast growth factor family, it has a unique target cell specificity. It did not stimulate the growth of other cell types of the vascular system such as vascular smooth muscle cells or that of mesoderm and neuroectoderm derived cells. Microsequencing revealed an amino-terminal sequence with no homology to any known protein. The release of this novel endothelial cell growth factor by pituitary derived cells and its unique target cell specificity suggest that it could play an important role in the angiogenic process. | 2684646
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A possible new member of tyrosine kinase family, human frt sequence, is highly conserved in vertebrates and located on human chromosome 13. Matsushime, H, et al. Jpn. J. Cancer Res., 78: 655-61 (1987)
1987
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We have isolated a human genomic DNA (designated human frt) cross-hybridizing with the v-ros oncogene of UR2 sarcoma virus. Sequencing analysis of this fragment revealed that this sequence contains a 123-base-pair exon-like structure surrounded by consensus sequences of splice acceptor and donor sites. The deduced amino acid sequence of this stretch was highly homologous to a portion of a tyrosine kinase domain of src family. The human frt sequence was found to be conserved in a wide variety of vertebrates. By using a human-mouse hybridoma panel, human frt was located on chromosome 13, while human c-ros-1 was located on chromosome 6. | 3040650
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