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Biblio
] . The genetic causes of primary lymphedema. In: . Erkrankungen des Lymphgefäßsystems. 6th ed. Cologne: Viavital Verlag; 2015. pp. 210-229. 
Mattonet et al. 2015: The genetic causes of primary lymphedema. [English] (3.8 MB) Mattonet et al. 2015: The genetic causes of primary lymphedema. [German] (676.52 KB)
Mattonet et al. 2015: The genetic causes of primary lymphedema. [English] (3.8 MB) Mattonet et al. 2015: The genetic causes of primary lymphedema. [German] (676.52 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). Heterogeneity of the origin of the lymphatic system. [German]. Lymphologie in Forschung und Praxis [Internet]. 2015;19(2):84-88. http://www.dglymph.de/fileadmin/global/pdfs/LymphForsch_2-15.pdf Mattonet & Jeltsch 2015: Heterogeneity of the origin of the lymphatic system. (3.58 MB) Mattonet & Jeltsch 2015: Über die heterogene Herkunft des Lymphgefäßsystems. (288.77 KB)
Mattonet & Jeltsch 2015: Heterogeneity of the origin of the lymphatic system. (3.58 MB) Mattonet & Jeltsch 2015: Über die heterogene Herkunft des Lymphgefäßsystems. (288.77 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). 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). 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). Investigation on the role of biallelic variants in VEGF‐C found in a patient affected by Milroy‐like lymphedema. Molecular Genetics & Genomic Medicine [Internet]. 2020;00:e1389. https://onlinelibrary.wiley.com/doi/abs/10.1002/mgg3.1389 Mukenge et al. 2020 (1.06 MB)
Mukenge et al. 2020 (1.06 MB). 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
. Key molecules in lymphatic development, function, and identification. Annals of Anatomy - Anatomischer Anzeiger [Internet]. 2018;219:25 - 34. http://linkinghub.elsevier.com/retrieve/pii/S0940960218300712 1-s2.0-S0940960218300712-main.pdf (2.19 MB)
1-s2.0-S0940960218300712-main.pdf (2.19 MB). KLK3 in the Regulation of Angiogenesis—Tumorigenic or Not?. International Journal of Molecular Sciences [Internet]. 2021;22(24):13545. https://www.mdpi.com/1422-0067/22/24/13545 Koistinen et al. - 2021 - KLK3 in the Regulation of Angiogenesis—Tumorigenic or Not? (1.28 MB)
Koistinen et al. - 2021 - KLK3 in the Regulation of Angiogenesis—Tumorigenic or Not? (1.28 MB). KLK3/PSA and cathepsin D activate VEGF-C and VEGF-D. eLife [Internet]. 2019;8:e44478. https://elifesciences.org/articles/44478 Jha & Rauniyar et al. 2019 (3.84 MB)
Jha & Rauniyar et al. 2019 (3.84 MB). Lymphangiogenesis in Health and Disease [Internet]. 41st European Societry of Lymphology (ESL) Congress. Lausanne, Switzerland: European Group of Lymphology; 2015. http://www.eurolymphology.org/JOURNAL/VOL26-N72-2015/#p=10 Abstract of the Presentation (Michael Jeltsch) (75.34 KB)
Abstract of the Presentation (Michael Jeltsch) (75.34 KB). The lymphangiogenic growth factors VEGF-C and VEGF-D. Part 1: Basic principles and embryonic development. [bilingual: English, German]. Lymphologie in Forschung und Praxis [Internet]. 2013;17(1):30 - 37. http://jeltsch.org/sites/jeltsch.org/files/JeltschMichael_Lymphforsch2013_30.pdf Krebs & Jeltsch (2013): The lymphangiogenic growth factors VEGF-C and VEGF-D. Part 1: Fundamentals and embryonic development. (2.08 MB) Krebs & Jeltsch (2013): Die lymphangiogenen Wachstumsfaktoren VEGF-C und VEGF-D. Teil 1. Grundlagen und Embryonalentwicklung. (1.82 MB)
Krebs & Jeltsch (2013): The lymphangiogenic growth factors VEGF-C and VEGF-D. Part 1: Fundamentals and embryonic development. (2.08 MB) Krebs & Jeltsch (2013): Die lymphangiogenen Wachstumsfaktoren VEGF-C und VEGF-D. Teil 1. Grundlagen und Embryonalentwicklung. (1.82 MB). Lymphatic Vessels in Regenerative Medicine and Tissue Engineering. Tissue Engineering Part B [Internet]. 2016;22(5):1-13. http://online.liebertpub.com/doi/10.1089/ten.TEB.2016.0034 Schaupper et al. Tissue Engineering Part B. Review (postprint manuscript = accepted version after peer review). (697.3 KB)
Schaupper et al. Tissue Engineering Part B. Review (postprint manuscript = accepted version after peer review). (697.3 KB). Lymphatics and the eye. [Finnish]. Duodecim Lääketieteellinen Aikakauskirja [Internet]. 2020;136(16):1777-1788. https://www.duodecimlehti.fi/lehti/2020/16/duo15739 Gucciardo et al. Lymphatics and the Eye (English version). (3.31 MB)
Gucciardo et al. Lymphatics and the Eye (English version). (3.31 MB). Lymphatic-to-blood vessel transdifferentiation in zebrafish. Nature Cardiovascular Research [Internet]. 2022;1(6):539 - 541. https://rdcu.be/cOjJ0
. Mechanism of VEGF-C Activation and Effect on Lymphatic Vessel Growth and Regeneration [Internet]. [Helsinki, Finland]: University of Helsinki; 2020. https://helda.helsinki.fi/handle/10138/314714 Jha - 2020 - Mechanism of VEGF-C Activation and Effect on Lymphatic Vessel Growth and Regeneration (1.96 MB)
Jha - 2020 - Mechanism of VEGF-C Activation and Effect on Lymphatic Vessel Growth and Regeneration (1.96 MB). Outside in and brakes off for lymphatic growth. Science Signaling [Internet]. 2021;14(695). https://www.science.org/doi/10.1126/scisignal.abj5058 Künnapuu and Jeltsch - 2021 - Outside in and brakes off for lymphatic growth (268.05 KB)
Künnapuu and Jeltsch - 2021 - Outside in and brakes off for lymphatic growth (268.05 KB). Overexpression of vascular endothelial growth factor-B in mouse heart alters cardiac lipid metabolism and induces myocardial hypertrophy. Circ Res [Internet]. 2008;103(9):1018 - 26. http://view.ncbi.nlm.nih.gov/pubmed/18757827 Terhi Kärpänen et al., Circulation Research 2008 (898.27 KB) Terhi Kärpänen et al., Circulation Research 2008, supplement (1.56 MB)
Terhi Kärpänen et al., Circulation Research 2008 (898.27 KB) Terhi Kärpänen et al., Circulation Research 2008, supplement (1.56 MB). Pathogenesis of persistent lymphatic vessel hyperplasia in chronic airway inflammation. J Clin Invest [Internet]. 2005;115(2):247 - 57. http://view.ncbi.nlm.nih.gov/pubmed/15668734 Peter Baluk et al., Journal of Clinical Investigation 2005 (1.89 MB)
Peter Baluk et al., Journal of Clinical Investigation 2005 (1.89 MB). The Proteolytic Activation of Vascular Endothelial Growth Factor-C. Lymphologie in Forschung und Praxis [Internet]. 2019;23(2):88 - 98. https://doi.org/10.5281/zenodo.3629263 English version: Lackner et al. 2019 (2.94 MB) German version: Lackner et al. 2019 (673.37 KB)
English version: Lackner et al. 2019 (2.94 MB) German version: Lackner et al. 2019 (673.37 KB). Proteolytic Cleavages in the VEGF Family: Generating Diversity among Angiogenic VEGFs, Essential for the Activation of Lymphangiogenic VEGFs. Biology [Internet]. 2021;10(2):167. https://www.mdpi.com/2079-7737/10/2/167 Künnapuu et al. - 2021 - Proteolytic Cleavages in the VEGF Family: Generating Diversity among Angiogenic VEGFs, Essential [...] (3.44 MB)
Künnapuu et al. - 2021 - Proteolytic Cleavages in the VEGF Family: Generating Diversity among Angiogenic VEGFs, Essential [...] (3.44 MB). Proteolytic processing regulates receptor specificity and activity of VEGF-C. EMBO J [Internet]. 1997;16(13):3898 - 911. http://view.ncbi.nlm.nih.gov/pubmed/9233800 Vladimir Joukov et al., EMBO Journal 1997 (729.21 KB)
Vladimir Joukov et al., EMBO Journal 1997 (729.21 KB). Receptor Tyrosine Kinase-Mediated Angiogenesis. Cold Spring Harbor Perspectives in Biology [Internet]. 2013;5(9). http://cshperspectives.cshlp.org/content/5/9/a009183 Jeltsch et al. (2013): Tyrosine Kinase-Mediated Angiogenesis. CSH Persp Biol (934.46 KB)
Jeltsch et al. (2013): Tyrosine Kinase-Mediated Angiogenesis. CSH Persp Biol (934.46 KB)