Biblio

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Conference Paper
Jussila L, Veikkola T, Jeltsch M, Thurston G, McDonald D, Achen M, et al.. Signalling via VEGFR-3 is sufficient for lymphangiogenesis in transgenic mice. In Molecular Targets and Cancer Therapeutics: Discovery, Biology, and Clinical Applications. Miami Beach, Florida; 2001. PDF icon Jussila et al., 2001 (279.47 KB)
Journal Article
Saaristo A, Veikkola T, Enholm B, Hytönen M, Arola J, Pajusola K, et al.. Adenoviral VEGF-C overexpression induces blood vessel enlargement, tortuosity, and leakiness but no sprouting angiogenesis in the skin or mucous membranes. FASEB J [Internet]. 2002;16(9):1041 - 9. http://view.ncbi.nlm.nih.gov/pubmed/12087065PDF icon Anne Saaristo et al., FASEB Journal 2002 (966.08 KB)
Saharinen P, Helotera H, Miettinen J, Norrmen C, D'Amico G, Jeltsch M, et al.. Claudin-like protein 24 interacts with the VEGFR-2 and VEGFR-3 pathways and regulates lymphatic vessel development. Genes Dev [Internet]. 2010;24(9):875 - 80. http://view.ncbi.nlm.nih.gov/pubmed/20439428PDF icon Pipsa Saharinen et al., Genes & Development 2010 (1.2 MB)PDF icon Pipsa Saharinen et al., Genes & Development 2010, supplement (9.15 MB)
Jha SK, Rauniyar K, Kärpänen T, Leppänen V-M, Brouillard P, Vikkula M, et al.. Efficient activation of the lymphangiogenic growth factor VEGF-C requires the C-terminal domain of VEGF-C and the N-terminal domain of CCBE1. Scientific Reports [Internet]. 2017;7(1):4916. https://www.nature.com/articles/s41598-017-04982-1
Veikkola T, Lohela M, Ikenberg K, Mäkinen T, Korff T, Saaristo A, et al.. Intrinsic versus microenvironmental regulation of lymphatic endothelial cell phenotype and function. FASEB J [Internet]. 2003;17(14):2006 - 13. http://view.ncbi.nlm.nih.gov/pubmed/14597670PDF icon Tanja Veikkola et al., FASEB Journal 2006 (598.77 KB)
Li X, Tjwa M, Van Hove I, Enholm B, Neven E, Paavonen K, et al.. Reevaluation of the role of VEGF-B suggests a restricted role in the revascularization of the ischemic myocardium. Arterioscler Thromb Vasc Biol [Internet]. 2008;28(9):1614 - 20. http://view.ncbi.nlm.nih.gov/pubmed/18511699PDF icon Xuri Li et al., Arteriosclerosis, Thrombosis, and Vascular Biology 2008 (738.26 KB)PDF icon Xuri Li et al., Arteriosclerosis, Thrombosis, and Vascular Biology 2008, data supplement (1012.6 KB)
Li X, Tjwa M, Van Hove I, Enholm B, Neven E, Paavonen K, et al.. Reevaluation of the role of VEGF-B suggests a restricted role in the revascularization of the ischemic myocardium. Arterioscler Thromb Vasc Biol [Internet]. 2008;28(9):1614 - 20. http://view.ncbi.nlm.nih.gov/pubmed/18511699PDF icon Xuri Li et al., Arteriosclerosis, Thrombosis, and Vascular Biology 2008 (738.26 KB)PDF icon Xuri Li et al., Arteriosclerosis, Thrombosis, and Vascular Biology 2008, data supplement (1012.6 KB)
Veikkola T, Jussila L, Makinen T, Karpanen T, Jeltsch M, Petrova TV, et al.. Signalling via vascular endothelial growth factor receptor-3 is sufficient for lymphangiogenesis in transgenic mice. EMBO J [Internet]. 2001;20(6):1223 - 31. http://view.ncbi.nlm.nih.gov/pubmed/11250889PDF icon Tanja Veikkola et al., EMBO Journal 2001 (491.14 KB)
Villefranc JA, Nicoli S, Bentley K, Jeltsch M, Zarkada G, Moore JC, et al.. A truncation allele in vascular endothelial growth factor c reveals distinct modes of signaling during lymphatic and vascular development. Development. 2013;140(7):1497-506. PDF icon Villefranc 2013 (7.86 MB)
Achen MG, Jeltsch M, Kukk E, Mäkinen T, Vitali A, Wilks AF, et al.. Vascular endothelial growth factor D (VEGF-D) is a ligand for the tyrosine kinases VEGF receptor 2 (Flk1) and VEGF receptor 3 (Flt4). Proc Natl Acad Sci U S A [Internet]. 1998;95(2):548 - 53. http://view.ncbi.nlm.nih.gov/pubmed/9435229PDF icon Marc Achen et al., PNAS 1998 (447.59 KB)