LOX-1 Deletion Limits Cardiac Angiogenesis in Mice Given Angiotensin II

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Abstract

Lectin-like oxidized low-density lipoprotein (ox-LDL) receptor-1 (LOX-1) is a major receptor for ox-LDL in endothelial cells. Its activation regulates endothelial proliferation, differentiation, migration and apoptosis. Recent in vitro studies show that LOX-1 activation by ox-LDL and angiotensin II (Ang II) induces angiogenesis via activation of NADPH oxidase and subsequent increase in ROS production. In this study, we investigated the effect of LOX-1 gene deletion (LOX-1 knockout or KO mice) on angiogenesis in response to prolonged Ang II infusion in vivo. Our studies showed that Ang II (vs. saline) infusion enhanced capillary formation in subcutaneously injected Matrigel® plugs. Ang II infusion also resulted in marked angiogenesis in the hearts as determined by CD31 immunopositivity. There was an increased expression (RT-PCR and Western blotting) of CD31 and VEGF in the hearts of mice infused with Ang II, indicating pro-angiogenic miliue. More importantly, LOX-1 KO mice reveled markedly limited angiogenesis in the Matrigel® plugs as well as in the hearts despite similar infusion with Ang II (all P < 0.05 vs. wild-type mice). In addition, the hearts of LOX-1 KO mice had attenuated expression of pro-inflammatory and angiogenic signals MCP-1 and IL-1β following Ang II Infusion. Lastly, the rise in blood pressure in response to Ang II was less in the LOX-1 KO mice (P < 0.05 vs. wild-type mice). Our findings suggest that LOX-1 participates in angiogenesis in hypertension, which may be related to a state of inflammation.

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Disruption of coordinated cardiac hypertrophy and angiogenesis contributes to the transition to heart failure.

Ichiro Shiojima, Kaori Sato, Yasuhiro Izumiya … (2005)

Although increased external load initially induces cardiac hypertrophy with preserved contractility, sustained overload eventually leads to heart failure through poorly understood mechanisms. Here we describe a conditional transgenic system in mice characterized by the sequential development of adaptive cardiac hypertrophy with preserved contractility in the acute phase and dilated cardiomyopathy in the chronic phase following the induction of an activated Akt1 gene in the heart. Coronary angiogenesis was enhanced during the acute phase of adaptive cardiac growth but reduced as hearts underwent pathological remodeling. Enhanced angiogenesis in the acute phase was associated with mammalian target of rapamycin-dependent induction of myocardial VEGF and angiopoietin-2 expression. Inhibition of angiogenesis by a decoy VEGF receptor in the acute phase led to decreased capillary density, contractile dysfunction, and impaired cardiac growth. Thus, both heart size and cardiac function are angiogenesis dependent, and disruption of coordinated tissue growth and angiogenesis in the heart contributes to the progression from adaptive cardiac hypertrophy to heart failure.

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Infiltration of COX-2-expressing macrophages is a prerequisite for IL-1 beta-induced neovascularization and tumor growth.

Koh-Hei Sonoda, Yasuo Saijo, Tatsuro Ishibashi … (2005)

Inflammatory angiogenesis is a critical process in tumor progression and other diseases. The inflammatory cytokine IL-1beta promotes angiogenesis, tumor growth, and metastasis, but its mechanisms remain unclear. We examined the association between IL-1beta-induced angiogenesis and cell inflammation. IL-1beta induced neovascularization in the mouse cornea at rates comparable to those of VEGF. Neutrophil infiltration occurred on day 2. Macrophage infiltration occurred on days 4 and 6. The anti-Gr-1 Ab-induced depletion of infiltrating neutrophils did not affect IL-1beta- or VEGF-induced angiogenesis. The former was reduced in monocyte chemoattractant protein-1-deficient (MCP-1(-/-)) mice compared with wild-type mice. After day 4, clodronate liposomes, which kill macrophages, reduced IL-1beta-induced angiogenesis and partially inhibited VEGF-induced angiogenesis. Infiltrating macrophages near the IL-1beta-induced neovasculature were COX-2 positive. Lewis lung carcinoma cells expressing IL-1beta (LLC/IL-1beta) developed neovasculature with macrophage infiltration and enhanced tumor growth in wild-type but not MCP-1(-/-) mice. A COX-2 inhibitor reduced tumor growth, angiogenesis, and macrophage infiltration in LLC/IL-1beta. Thus, macrophage involvement might be a prerequisite for IL-1beta-induced neovascularization and tumor progression.

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Monocyte chemotactic protein (MCP)-1 promotes angiogenesis via a novel transcription factor, MCP-1-induced protein (MCPIP).

Jianli Niu, Asim Azfer, Olga Zhelyabovska … (2008)

Monocyte chemotactic protein-1 (MCP-1) has been recognized as an angiogenic chemokine. The molecular mechanism of MCP-1-mediated angiogenesis remains unknown. We recently identified a novel transcription factor, designated MCP-1-induced protein (MCPIP), in human monocytes after treatment with MCP-1. We investigated whether MCP-1-induced angiogenesis is mediated via MCPIP. Treatment of human umbilical vein endothelial cells (HUVECs) with MCP-1 induced expression of MCPIP and capillary-like tube formation. Knockdown of MCPIP by small interfering RNA (siRNA) suppressed MCP-1-induced angiogenesis-related gene VEGF and HIF-1alpha expression as well as tube formation. Transfection of HUVECs with an MCPIP expression vector induced angiogenesis-related genes and tube formation. Chromatin immunoprecipitation analysis revealed that cadherin (cdh) 12 and cdh19 are in vivo targets of MCPIP. Transfection of HUVECs with MCPIP expression vector activated the expression of cdh12 and cdh19 genes. Knockdown of cdh12 or cdh19 expression markedly inhibited MCPIP-induced capillary-like tube formation. Moreover, knockdown of MCPIP also significantly suppressed MCP-1-induced cdh12 and cdh19 gene expression. Our data strongly suggest that MCP-1-induced angiogenesis is mediated via MCPIP, at least in part through transcriptional activation of cdh12 and cdh19.