TY - JOUR T1 - Vascular endothelial growth factor-B acts as a coronary growth factor in transgenic rats without inducing angiogenesis, vascular leak, or inflammation JF - Circulation Y1 - 2010 A1 - Bry, Maija A1 - Kivelä, Riikka A1 - Holopainen, Tanja A1 - Anisimov, Andrey A1 - Tammela, Tuomas A1 - Soronen, Jarkko A1 - Silvola, Johanna A1 - Saraste, Antti A1 - Jeltsch, Michael A1 - Korpisalo, Petra A1 - Carmeliet, Peter A1 - Lemström, Karl B A1 - Shibuya, Masabumi A1 - Ylä-Herttuala, Seppo A1 - Alhonen, Leena A1 - Mervaala, Eero A1 - Andersson, Leif C A1 - Knuuti, Juhani A1 - Alitalo, Kari AB - BACKGROUND: Vascular endothelial growth factor-B (VEGF-B) binds to VEGF receptor-1 and neuropilin-1 and is abundantly expressed in the heart, skeletal muscle, and brown fat. The biological function of VEGF-B is incompletely understood. METHODS AND RESULTS: Unlike placenta growth factor, which binds to the same receptors, adeno-associated viral delivery of VEGF-B to mouse skeletal or heart muscle induced very little angiogenesis, vascular permeability, or inflammation. As previously reported for the VEGF-B(167) isoform, transgenic mice and rats expressing both isoforms of VEGF-B in the myocardium developed cardiac hypertrophy yet maintained systolic function. Deletion of the VEGF receptor-1 tyrosine kinase domain or the arterial endothelial Bmx tyrosine kinase inhibited hypertrophy, whereas loss of VEGF-B interaction with neuropilin-1 had no effect. Surprisingly, in rats, the heart-specific VEGF-B transgene induced impressive growth of the epicardial coronary vessels and their branches, with large arteries also seen deep inside the subendocardial myocardium. However, VEGF-B, unlike other VEGF family members, did not induce significant capillary angiogenesis, increased permeability, or inflammatory cell recruitment. CONCLUSIONS: VEGF-B appears to be a coronary growth factor in rats but not in mice. The signals for the VEGF-B-induced cardiac hypertrophy are mediated at least in part via the endothelium. Because cardiomyocyte damage in myocardial ischemia begins in the subendocardial myocardium, the VEGF-B-induced increased arterial supply to this area could have therapeutic potential in ischemic heart disease. VL - 122 UR - http://view.ncbi.nlm.nih.gov/pubmed/20937974 IS - 17 JO - Circulation ER - TY - JOUR T1 - Activated forms of VEGF-C and VEGF-D provide improved vascular function in skeletal muscle JF - Circ Res Y1 - 2009 A1 - Anisimov, Andrey A1 - Alitalo, Annamari A1 - Korpisalo, Petra A1 - Soronen, Jarkko A1 - Kaijalainen, Seppo A1 - Leppänen, Veli-Matti A1 - Jeltsch, Michael A1 - Ylä-Herttuala, Seppo A1 - Alitalo, Kari AB - The therapeutic potential of vascular endothelial growth factor (VEGF)-C and VEGF-D in skeletal muscle has been of considerable interest as these factors have both angiogenic and lymphangiogenic activities. Previous studies have mainly used adenoviral gene delivery for short-term expression of VEGF-C and VEGF-D in pig, rabbit, and mouse skeletal muscles. Here we have used the activated mature forms of VEGF-C and VEGF-D expressed via recombinant adeno-associated virus (rAAV), which provides stable, long-lasting transgene expression in various tissues including skeletal muscle. Mouse tibialis anterior muscle was transduced with rAAV encoding human or mouse VEGF-C or VEGF-D. Two weeks later, immunohistochemical analysis showed increased numbers of both blood and lymph vessels, and Doppler ultrasound analysis indicated increased blood vessel perfusion. The lymphatic vessels further increased at the 4-week time point were functional, as shown by FITC-lectin uptake and transport. Furthermore, receptor activation and arteriogenic activity were increased by an alanine substitution mutant of human VEGF-C (C137A) having an increased dimer stability and by a chimeric CAC growth factor that contained the VEGF receptor-binding domain flanked by VEGF-C propeptides, but only the latter promoted significantly more blood vessel perfusion when compared to the other growth factors studied. We conclude that long-term expression of VEGF-C and VEGF-D in skeletal muscle results in the generation of new functional blood and lymphatic vessels. The therapeutic value of intramuscular lymph vessels in draining tissue edema and lymphedema can now be evaluated using this model system. VL - 104 UR - http://view.ncbi.nlm.nih.gov/pubmed/19443835 IS - 11 JO - Circulation Research ER -