Rat aorta-derived mural precursor cells express the Tie2 receptor and respond directly to stimulation by angiopoietins

Iurlaro, Monica; Scatena, Marta; Zhu, Wenhui; Fogel, Eric; Wieting, Susan L.; Nicosia, Roberto F.

doi:10.1242/jcs.00629

Cited by 70 publications

(64 citation statements)

References 39 publications

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“…In addition, these experiments performed in serum-starved HBVP suggested that the effect of DA on Ang1 expression in pericytes is direct and is not the result of its actions on other growth factors. Furthermore, because there are reports indicating that up-regulation of Ang1 in pericytes stimulates migration of these cells (46,47), we examined the action of DA on HBVP migration (SI Results and Fig. S6).…”

Section: Da Treatment Promotes Mature Pericyte Coverage In Tumor Bloodmentioning

confidence: 99%

Dopamine stabilizes tumor blood vessels by up-regulating angiopoietin 1 expression in pericytes and Krüppel-like factor-2 expression in tumor endothelial cells

Chakroborty

Sarkar

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

103

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Impaired blood flow in the tumor vascular bed caused by structurally and functionally abnormal blood vessels not only hinders the delivery of chemotherapeutic agents but also aggravates tumor hypoxia, making the tumor cells further resistant to antineoplastic drugs. Therefore, normalization of tumor blood vessels may be an important approach to increase therapeutic efficacy in the treatment of cancer patients. As blood vessels are supplied by sympathetic nerves containing dopamine (DA), and DA regulates functions of normal blood vessels through its receptors present in these vessels, we investigated the effect of DA on tumor vasculature. Here we report loss of sympathetic innervation and endogenous DA in abnormal and immature tumor blood vessels in malignant colon and prostate tumor tissues. In contrast, exogenous administration of DA normalizes the morphology and improves the functions of these vessels by acting on pericytes and endothelial cells, the two major cellular components of blood vessels. DA acts through its D 2 receptors present in these cells to up-regulate directly the expression of angiopoietin 1 (Ang1) in pericytes and the expression of the zinc finger transcriptional factor, Krüppel-like factor-2 (KLF2) in tumor endothelial cells. Importantly, this vessel stabilization by DA also significantly increases the concentration of anticancer drug in tumor tissues. These results show a relationship between vascular stabilization and a neurotransmitter and indicate that DA or its D 2 receptor-specific agonists can be an option for the treatment of cancer and disorders in which normalization of blood vessels may have therapeutic benefits.I t now is well established that tumor blood vessels are structurally and functionally abnormal (1-4). In contrast to normal blood vessels, which are well organized and lined by quiescent adult endothelial cells and supporting mature pericytes, tumor vessels are highly disorganized and made up of active endothelial cells (1-6). Moreover, in these tumor vessels pericytes are lacking or immature pericytes attach loosely to the endothelial cells (1-3). This vascular immaturity in turn causes destabilization of vessel structure, impairment of endothelial barrier function, and decreased blood flow leading to increased hypoxia in tumor tissues (1-3). In addition, the impaired blood flow in abnormal tumor blood vessels not only compromises the delivery of anticancer drugs but also aggravates tumor hypoxia, making tumor cells more resistant to these agents (1-3). Thus, stabilization or normalization of tumor vessels can be an important approach to increase the therapeutic efficacy of anticancer drugs (1, 7). Dopamine (DA) is a monoamine catecholamine neurotransmitter, which acts through its D 1 and D 2 class of receptors present in the target organs (8, 9). In addition to its conventional role in the brain, recent reports indicate that DA also controls several functions in the periphery (8, 9). DA has been shown to regulate behavior, movement, and cardiovascular, renal, endocrine...

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Section: Da Treatment Promotes Mature Pericyte Coverage In Tumor Bloodmentioning

confidence: 99%

Dopamine stabilizes tumor blood vessels by up-regulating angiopoietin 1 expression in pericytes and Krüppel-like factor-2 expression in tumor endothelial cells

Chakroborty

Sarkar

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

103

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“…Ang1 promotes the assembly of the vessel wall by directly stimulating mural progenitor cells that express the Ang1 receptor Tie2 (Iurlaro et al, 2003;Howson et al, 2005) or by indirectly stimulating mural cells through the induction in endothelial cells of chemotactic factors such as CCL2 (Aplin et al, 2010). Interestingly, mural cell recruitment is also stimulated by Ang2 (Iurlaro et al, 2003), which was initially reported as an antagonist of Ang1 (Maisonpierre et al, 1997), but later recognized as a potential Tie2 activator whose agonist function was strongly influenced by contextual cues (Teichert-Kuliszewska et al, 2001). The migration and proliferation of mural cells is critically dependent on the p38 MAPK signaling pathway which can be activated by a number of angiogenic regulators including PDGFB and Ang1 (Yamaguchi et al, 2001;.…”

Section: Mechanisms Of Mural Cell Recruitmentmentioning

confidence: 99%

Paracrine regulation of angiogenesis by different cell types in the aorta ring model

Nicosia¹,

Zorzi²,

Ligresti³

et al. 2011

Int. J. Dev. Biol.

Self Cite

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The development of blood vessels during angiogenesis is the result of paracrine interactions between tube-forming endothelial cells and angiogenic factor-producing nonendothelial cells. This process can be reproduced and studied under chemically defined culture conditions by culturing vascular explants in three-dimensional gels of extracellular matrix. Rings of rat or mouse aorta cultured in collagen, fibrin or basement membrane gels produce angiogenic outgrowths composed of a mixed population of endothelial cells and nonendothelial cells. Aortic angiogenesis is regulated by endogenous angiogenic factors, inflammatory cytokines, chemokines, extracellular matrix molecules, and proteolytic enzymes produced by cells of the vessel wall in response to the injury of the dissection procedure. In this paper, we review how macrophages, mural cells and fibroblasts regulate different stages of the angiogenic process, from the formation of immature endothelial sprouts to the reabsorption of the neovessels. We also describe how aortic cultures can be used to study interactions between angiogenic outgrowths and nonvascular cell types such as bone marrow macrophages, platelets or cancer cells. Morphologic, genetic and functional studies of this model have provided invaluable information on how vessels form, mature, interact with nonvascular cell types, and are eventually reabsorbed. Further analysis of the paracrine cross-talk between aortic endothelial and nonendothelial cells is likely to provide new insights into the angiogenic process and its key mechanisms.

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“…By treating the culture with vessel maturation factors, such as Ang-1 and MCP-1, increased MC recruitment was observed in this model. (Aplin et al, 2010;Iurlaro et al, 2003) However, since the model uses an organ part with multiple cell types, many other undefined cell types can also contribute to the network formation. It is difficult to isolate the contribution of each cell type in this model.…”

Section: Analytical Methods 341 In Vitro Modelsmentioning

confidence: 99%

Formation of Stable Vascular Networks in Engineered Tissues

Jiang¹,

Brey²

2011

Regenerative Medicine and Tissue Engineering - Cells and Biomaterials

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Rat aorta-derived mural precursor cells express the Tie2 receptor and respond directly to stimulation by angiopoietins

Cited by 70 publications

References 39 publications

Dopamine stabilizes tumor blood vessels by up-regulating angiopoietin 1 expression in pericytes and Krüppel-like factor-2 expression in tumor endothelial cells

Dopamine stabilizes tumor blood vessels by up-regulating angiopoietin 1 expression in pericytes and Krüppel-like factor-2 expression in tumor endothelial cells

Paracrine regulation of angiogenesis by different cell types in the aorta ring model

Formation of Stable Vascular Networks in Engineered Tissues

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