Angiogenesis, the sprouting of new blood vessels from pre-existing ones, is an essential physiological process in development, yet also plays a major role in the progression of human diseases such as diabetic retinopathy, atherosclerosis and cancer. The effects of the most potent angiogenic factors, vascular endothelial growth factor (VEGF), angiopoietin and fibroblast growth factor (FGF) are mediated through cell surface receptors that possess intrinsic protein tyrosine kinase activity. In this report, we describe a synthetic compound of the pyrido[2,3-d]pyrimidine class, designated PD 173074, that selectively inhibits the tyrosine kinase activities of the FGF and VEGF receptors. We show that systemic administration of PD 173074 in mice can effectively block angiogenesis induced by either FGF or VEGF with no apparent toxicity. To elucidate the determinants of selectivity, we have determined the crystal structure of PD 173074 in complex with the tyrosine kinase domain of FGF receptor 1 at 2.5 Å resolution. A high degree of surface complementarity between PD 173074 and the hydrophobic, ATP-binding pocket of FGF receptor 1 underlies the potency and selectivity of this inhibitor. PD 173074 is thus a promising candidate for a therapeutic angiogenesis inhibitor to be used in the treatment of cancer and other diseases whose progression is dependent upon new blood vessel formation.
SummaryIn addition to their role in primary hemostasis, platelets serve to support and maintain the vascular endothelium. Platelets contain numerous growth factors including the potent angiogenic inducers VEGF and FGF-2. To characterize the function of these two plateletassociated growth factors, the effects of the addition of purified platelets to cultured endothelial cells were examined. The survival and proliferation of endothelial cells were markedly stimulated (2-3-fold and 5-15-fold respectively) by the addition of gel-filtered platelets. Acetylsalicylic acid-treated or lyophilized fixed-platelets were ineffective in supporting endothelial cell proliferation. In Transwell assays, the stimulatory effect of platelets on endothelial cells was preserved, consistent with an effect mediated by secreted factors. The combined inhibition of VEGF and FGF-2 by neutralizing antibodies, in contrast to inhibition of either alone, abrogated both platelet-induced endothelial cell survival and proliferation. FGF-2 isoforms were detected in platelet lysates, as well as in the releasates of agonist-stimulated platelets. Megakaryocytes generated by ex vivo expansion of hematopoietic progenitor cells with kit ligand and thrombopoietin were analyzed for expression of FGF-2. Punctate cytoplasmic staining but no nuclear staining was observed by immunocytochemistry consistent with possible localization of the growth factor to cytoplasmic granules. The addition of platelets to cultured endothelial cells activated extracellular signal-regulated kinase (ERK) in a dose and time-dependent manner. This effect was abrogated by both anti-FGF-2 and anti-VEGF antibody. Since FGF-2 and VEGF are potent angiogenic factors and known endothelial cell survival factors, their release by platelets provides a plausible mechanism for the platelet support of vascular endothelium.
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