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. Inhibiton of VEGF-C-induced VEGFR-3 activity and lymphatic endothelial cell function by the tyrosine kinase inhibitor AZD2171. In 98th Annual Meeting of the American-Association-for-Cancer-Research [Internet]. Los Angeles, CA: American Association for Cancer Research; 2007. http://dx.doi.org/10.1158/0008-5472.CAN-07-5809
Heckman et al. - 2007 - Inhibiton of VEGF-C-induced VEGFR-3 activity and l.pdf (236.37 KB)
Heckman et al. - 2007 - Inhibiton of VEGF-C-induced VEGFR-3 activity and l.pdf (236.37 KB). Activated forms of VEGF-C and VEGF-D provide improved vascular function in skeletal muscle. Circ Res [Internet]. 2009;104(11):1302 - 12. http://view.ncbi.nlm.nih.gov/pubmed/19443835 Andrey Anisimov et al., Circulation Research 2009 (8.03 MB) Andrey Anisimov et al., Circulation Research 2009, supplement (5.9 MB)
Andrey Anisimov et al., Circulation Research 2009 (8.03 MB) Andrey Anisimov et al., Circulation Research 2009, supplement (5.9 MB). Activated forms of VEGF-C and VEGF-D provide improved vascular function in skeletal muscle. Circ Res [Internet]. 2009;104(11):1302 - 12. http://view.ncbi.nlm.nih.gov/pubmed/19443835 Andrey Anisimov et al., Circulation Research 2009 (8.03 MB) Andrey Anisimov et al., Circulation Research 2009, supplement (5.9 MB)
Andrey Anisimov et al., Circulation Research 2009 (8.03 MB) Andrey Anisimov et al., Circulation Research 2009, supplement (5.9 MB). Adenoviral expression of vascular endothelial growth factor-C induces lymphangiogenesis in the skin. Circ Res [Internet]. 2001;88(6):623 - 9. http://view.ncbi.nlm.nih.gov/pubmed/11282897 Bernd Enholm et al., Circulation Research 2001 (2.93 MB)
Bernd Enholm et al., Circulation Research 2001 (2.93 MB). Adenoviral expression of vascular endothelial growth factor-C induces lymphangiogenesis in the skin. Circ Res [Internet]. 2001;88(6):623 - 9. http://view.ncbi.nlm.nih.gov/pubmed/11282897 Bernd Enholm et al., Circulation Research 2001 (2.93 MB)
Bernd Enholm et al., Circulation Research 2001 (2.93 MB). 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/12087065 Anne Saaristo et al., FASEB Journal 2002 (966.08 KB)
Anne Saaristo et al., FASEB Journal 2002 (966.08 KB). 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/12087065 Anne Saaristo et al., FASEB Journal 2002 (966.08 KB)
Anne Saaristo et al., FASEB Journal 2002 (966.08 KB). The basis for the distinct biological activities of vascular endothelial growth factor receptor-1 ligands. Sci Signal. 2013;6(282):ra52. Anisimov 2013 Science Signaling (1.92 MB) Anisimov 2013 Science Signaling Supplement (2.09 MB)
Anisimov 2013 Science Signaling (1.92 MB) Anisimov 2013 Science Signaling Supplement (2.09 MB). CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation. Circulation [Internet]. 2014;129(19). http://circ.ahajournals.org/content/early/2014/02/19/CIRCULATIONAHA.113.002779.abstract Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (6.6 MB) Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (Suppl.) (2.38 MB) Published version of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated... (incl. suppl.) (23.21 MB)
Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (6.6 MB) Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (Suppl.) (2.38 MB) Published version of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated... (incl. suppl.) (23.21 MB). CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation. Circulation [Internet]. 2014;129(19). http://circ.ahajournals.org/content/early/2014/02/19/CIRCULATIONAHA.113.002779.abstract Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (6.6 MB) Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (Suppl.) (2.38 MB) Published version of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated... (incl. suppl.) (23.21 MB)
Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (6.6 MB) Postprint of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated VEGF-C activation (Suppl.) (2.38 MB) Published version of Jeltsch et al. 2014 (Circulation): CCBE1 enhances lymphangiogenesis via ADAMTS3-mediated... (incl. suppl.) (23.21 MB). Critical role of VEGF-C/VEGFR-3 signaling in innate and adaptive immune responses in experimental obliterative bronchiolitis. Am J Pathol. 2012;181(5):1607-20.
. Die lymphangiogenic growth factors VEGF-C and VEGF-D. Part 2: The role of VEGF-C and VEGF-D in diseases of the lymphatic system. [bilingual: English, German]. Lymphologie in Forschung und Praxis [Internet]. 2013;17(2):96 - 104. http://jeltsch.org/sites/jeltsch.org/files/JeltschMichael_Lymphforsch2013_96.pdf Krebs & Jeltsch (2013): The lymphangiogenic growth factors VEGF-C and VEGF-D. Part 2: The role of VEGF-C and VEGF-D in diseas... (3.88 MB) Krebs & Jeltsch (2013): Die lymphangiogenen Wachstumsfaktoren VEGF-C und VEGF-D. Teil 2. Die Rolle von VEGF-C und VEGF-D bei ... (2.6 MB)
Krebs & Jeltsch (2013): The lymphangiogenic growth factors VEGF-C and VEGF-D. Part 2: The role of VEGF-C and VEGF-D in diseas... (3.88 MB) Krebs & Jeltsch (2013): Die lymphangiogenen Wachstumsfaktoren VEGF-C und VEGF-D. Teil 2. Die Rolle von VEGF-C und VEGF-D bei ... (2.6 MB). Effective suppression of vascular network formation by combination of antibodies blocking VEGFR ligand binding and receptor dimerization. Cancer Cell [Internet]. 2010;18(6):630 - 40. http://view.ncbi.nlm.nih.gov/pubmed/21130043 Denis Tvorogov et al., Cancer Cell 2010 (1.3 MB) Denis Tvorogov et al., Cancer Cell 2010, supplement (828.69 KB)
Denis Tvorogov et al., Cancer Cell 2010 (1.3 MB) Denis Tvorogov et al., Cancer Cell 2010, supplement (828.69 KB). 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
. Enhanced capillary formation stimulated by a chimeric vascular endothelial growth factor/vascular endothelial growth factor-C silk domain fusion protein. Circ Res [Internet]. 2007;100(10):1460 - 7. http://view.ncbi.nlm.nih.gov/pubmed/17478734 Salla Keskitalo et al., Circulation Research 2007 (1.98 MB)
Salla Keskitalo et al., Circulation Research 2007 (1.98 MB). Enhanced capillary formation stimulated by a chimeric vascular endothelial growth factor/vascular endothelial growth factor-C silk domain fusion protein. Circ Res [Internet]. 2007;100(10):1460 - 7. http://view.ncbi.nlm.nih.gov/pubmed/17478734 Salla Keskitalo et al., Circulation Research 2007 (1.98 MB)
Salla Keskitalo et al., Circulation Research 2007 (1.98 MB). Functional interaction of VEGF-C and VEGF-D with neuropilin receptors. FASEB J [Internet]. 2006;20(9):1462 - 72. http://view.ncbi.nlm.nih.gov/pubmed/16816121 Terhi Kärpänen et al., FASEB Journal 2006 (2.51 MB)
Terhi Kärpänen et al., FASEB Journal 2006 (2.51 MB). Functional interaction of VEGF-C and VEGF-D with neuropilin receptors. FASEB J [Internet]. 2006;20(9):1462 - 72. http://view.ncbi.nlm.nih.gov/pubmed/16816121 Terhi Kärpänen et al., FASEB Journal 2006 (2.51 MB)
Terhi Kärpänen et al., FASEB Journal 2006 (2.51 MB). Genomic organization of human and mouse genes for vascular endothelial growth factor C. J Biol Chem [Internet]. 1997;272(40):25176 - 83. http://view.ncbi.nlm.nih.gov/pubmed/9312130 Dmitry Chilov et al., The Journal of Biological Chemistry 1997 (517.68 KB)
Dmitry Chilov et al., The Journal of Biological Chemistry 1997 (517.68 KB). Genomic organization of human and mouse genes for vascular endothelial growth factor C. J Biol Chem [Internet]. 1997;272(40):25176 - 83. http://view.ncbi.nlm.nih.gov/pubmed/9312130 Dmitry Chilov et al., The Journal of Biological Chemistry 1997 (517.68 KB)
Dmitry Chilov et al., The Journal of Biological Chemistry 1997 (517.68 KB). Hyperplasia of lymphatic vessels in VEGF-C transgenic mice. Science (80- ) [Internet]. 1997;276(5317):1423 - 5. http://view.ncbi.nlm.nih.gov/pubmed/9162011 Michael Jeltsch et al., Science 1997 (293.65 KB)
Michael Jeltsch et al., Science 1997 (293.65 KB). Intravascular adenovirus-mediated VEGF-C gene transfer reduces neointima formation in balloon-denuded rabbit aorta. Circulation [Internet]. 2000;102(18):2262 - 8. http://view.ncbi.nlm.nih.gov/pubmed/11056103 Mikko Hiltunen et al., Circulation 2000 (1.44 MB)
Mikko Hiltunen et al., Circulation 2000 (1.44 MB). Intravascular adenovirus-mediated VEGF-C gene transfer reduces neointima formation in balloon-denuded rabbit aorta. Circulation [Internet]. 2000;102(18):2262 - 8. http://view.ncbi.nlm.nih.gov/pubmed/11056103 Mikko Hiltunen et al., Circulation 2000 (1.44 MB)
Mikko Hiltunen et al., Circulation 2000 (1.44 MB). 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/14597670 Tanja Veikkola et al., FASEB Journal 2006 (598.77 KB)
Tanja Veikkola et al., FASEB Journal 2006 (598.77 KB). Ischemia-Reperfusion Injury Enhances Lymphatic Endothelial VEGFR3 and Rejection in Cardiac Allografts. American Journal of Transplantation [Internet]. 2015;16(4):1160-1172. http://onlinelibrary.wiley.com/doi/10.1111/ajt.13564/abstract