Erika Gurzeler scite author profile

Mechanisms of the transition from compensatory hypertrophy to heart failure are poorly understood and the roles of vascular endothelial growth factors (VEGFs) in this process have not been fully clarified. We determined the expression profile of VEGFs and relevant receptors during the progression of left ventricular hypertrophy (LVH). C57BL mice were exposed to transversal aortic constriction (TAC) and the outcome was studied at different time points (1 day, 2, 4, and 10 weeks). A clear compensatory phase (2 weeks after TAC) was seen with following heart failure (4 weeks after TAC). Interestingly, VEGF-C and VEGF-D as well as VEGF receptor-3 (VEGFR-3) were upregulated in the compensatory hypertrophy and VEGF-B was downregulated in the heart failure. After treatment with adeno-associated virus serotype 9 (AAV9)-VEGF-B(186) gene therapy in the compensatory phase for 4 weeks the function of the heart was preserved due to angiogenesis, inhibition of apoptosis, and promotion of cardiomyocyte proliferation. Also, the genetic programming towards fetal gene expression, a known phenomenon in heart failure, was partly reversed in AAV9-VEGF-B(186)-treated mice. We conclude that VEGF-C and VEGF-D are associated with the compensatory LVH and that AAV9-VEGF-B(186) gene transfer can rescue the function of the failing heart and postpone the transition towards heart failure.

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The effects of VEGF-A on atherosclerosis, lipoprotein profile, and lipoprotein lipase in hyperlipidaemic mouse models

Heinonen

Kivelä

Huusko

et al. 2013

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Angiopoietin-2 blocking antibodies reduce early atherosclerotic plaque development in mice

et al. 2015

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ObjectiveAngiopoietin-2 (Ang-2) blocking agents are currently undergoing clinical trials for use in cancer treatment. Ang-2 has also been associated with rupture-prone atherosclerotic plaques in humans, suggesting a role for Ang-2 in plaque stability. Despite the availability of Ang-2 blocking agents, their clinical use is still lacking. Our aim was to establish if Ang-2 has a role in atheroma development and in the transition of subclinical to clinically relevant atherosclerosis. We investigated the effect of antibody-mediated Ang-2 blockage on atherogenesis after in a mouse model of atherosclerosis.MethodsHypercholesterolemic (low-density lipoprotein receptor−/− apolipoprotein B100/100) mice were subjected to high-cholesterol diet for eight weeks, one group with and one group without Ang-2 blocking antibody treatment during weeks 4–8.To enhance plaque development, a peri-adventitial collar was placed around the carotid arteries at the start of antibody treatment. Aortic root, carotid arteries and brachiocephalic arteries were analyzed to evaluate the effect of Ang-2 blockage on atherosclerotic plaque size and stable plaque characteristics.ResultsAnti-Ang-2 treatment reduced the size of fatty streaks in the brachiocephalic artery (−72%, p < 0.05). In addition, antibody-mediated Ang-2 blockage reduced plasma triglycerides (−27%, p < 0.05). In contrast, Ang-2 blockage did not have any effect on the size or composition (collagen content, macrophage percentage, adventitial microvessel density) of pre-existing plaques in the aortic root or collar-induced plaques in the carotid artery.ConclusionsAng-2 blockage was beneficial as it decreased fatty streak formation and plasma triglyceride levels, but had no adverse effect on pre-existing atherosclerosis in hypercholesterolemic mice.

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Regulation of endothelial lipase and systemic HDL cholesterol levels by SREBPs and VEGF-A

Kivelä¹,

Dijkstra²,

Heinonen³

et al. 2012

Atherosclerosis

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Doxycycline modulates VEGF-A expression: Failure of doxycycline-inducible lentivirus shRNA vector to knockdown VEGF-A expression in transgenic mice

et al. 2018

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Vascular endothelial growth factor-A (VEGF-A) is the master regulator of angiogenesis, vascular permeability and growth. However, its role in mature blood vessels is still not well understood. To better understand the role of VEGF-A in the adult vasculature, we generated a VEGF-A knockdown mouse model carrying a doxycycline (dox)-regulatable short hairpin RNA (shRNA) transgene, which silences VEGF-A. The aim was to find the critical level of VEGF-A reduction for vascular well-being in vivo. In vitro, the dox-inducible lentiviral shRNA vector decreased VEGF-A expression efficiently and dose-dependently in mouse endothelial cells and cardiomyocytes. In the generated transgenic mice plasma VEGF-A levels decreased shortly after the dox treatment but returned back to normal after two weeks. VEGF-A expression decreased shortly after the dox treatment only in some tissues. Surprisingly, increasing the dox exposure time and dose led to elevated VEGF-A expression in some tissues of both wildtype and knockdown mice, suggesting that dox itself has an effect on VEGF-A expression. When the effect of dox on VEGF-A levels was further tested in naïve/non-transduced cells, the dox administration led to a decreased VEGF-A expression in endothelial cells but to an increased expression in cardiomyocytes. In conclusion, the VEGF-A knockdown was achieved in a dox-regulatable fashion with a VEGF-A shRNA vector in vitro, but not in the knockdown mouse model in vivo. Dox itself was found to regulate VEGF-A expression explaining the unexpected results in mice. The effect of dox on VEGF-A levels might at least partly explain its previously reported beneficial effects on myocardial and brain ischemia. Also, this effect on VEGF-A should be taken into account in all studies using dox-regulated vectors.

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Erika Gurzeler

AAV9-mediated VEGF-B Gene Transfer Improves Systolic Function in Progressive Left Ventricular Hypertrophy

The effects of VEGF-A on atherosclerosis, lipoprotein profile, and lipoprotein lipase in hyperlipidaemic mouse models

Angiopoietin-2 blocking antibodies reduce early atherosclerotic plaque development in mice

Regulation of endothelial lipase and systemic HDL cholesterol levels by SREBPs and VEGF-A

Doxycycline modulates VEGF-A expression: Failure of doxycycline-inducible lentivirus shRNA vector to knockdown VEGF-A expression in transgenic mice

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