2018
DOI: 10.1186/s13058-018-0952-8
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Murine breast cancer feed arteries are thin-walled with reduced α1A-adrenoceptor expression and attenuated sympathetic vasocontraction

Abstract: BackgroundPerfusion of breast cancer tissue limits oxygen availability and metabolism but angiogenesis inhibitors have hitherto been unsuccessful for breast cancer therapy. In order to identify abnormalities and possible therapeutic targets in mature cancer arteries, we here characterize the structure and function of cancer feed arteries and corresponding control arteries from female FVB/N mice with ErbB2-induced breast cancer.MethodsWe investigated the contractile function of breast cancer feed arteries and m… Show more

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Cited by 12 publications
(11 citation statements)
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“…The overall conclusion from the present study, that cancer feed arteries are specialized toward reduced vascular resistance, is in agreement with a recent study on murine breast cancer feed arteries (12). The underlying cellular and molecular mechanisms that explain the lower vascular tone of cancer feed arteries compared with normal arteries, however, differ greatly between human colon cancer and murine breast cancer.…”
Section: H251supporting
confidence: 92%
See 1 more Smart Citation
“…The overall conclusion from the present study, that cancer feed arteries are specialized toward reduced vascular resistance, is in agreement with a recent study on murine breast cancer feed arteries (12). The underlying cellular and molecular mechanisms that explain the lower vascular tone of cancer feed arteries compared with normal arteries, however, differ greatly between human colon cancer and murine breast cancer.…”
Section: H251supporting
confidence: 92%
“…The underlying cellular and molecular mechanisms that explain the lower vascular tone of cancer feed arteries compared with normal arteries, however, differ greatly between human colon cancer and murine breast cancer. Feed arteries from murine breast cancer tissue induced by overexpression of receptor tyrosine protein kinase erbB-2 are thin walled and show substantial reduction in norepinephrineinduced contractions and ␣ 1A -adrenoceptor expression but no difference in endothelial function (12). It is yet unknown whether the dissimilarities between murine breast cancer feed arteries and human colon cancer feed arteries result from differences in species, in the vascular bed, or in the secretory or metabolic activity of breast and colon cancer tissue.…”
Section: H251mentioning
confidence: 99%
“…The formation of new blood vessels (i.e., angiogenesis) and incorporation of existing blood vessels from surrounding tissue (i.e., co-option) partially counteract the diffusion limitations (120). As discussed in greater detail below, the tumor blood vessels may also undergo functional adaptations that promote blood flow delivery to the cancer tissue (121,122). In fact, blood flow delivery to some tumor regions can be substantially higher than to corresponding normal tissue (123), although O 2 delivery usually remains insufficient to match the elevated metabolic demand.…”
Section: Vascularizationmentioning
confidence: 99%
“…As a consequence, extratumoral blood vessels contribute substantially to tumor vascular resistance, and changes in the contractile state of tumor feed arteries are expected to significantly modify tumor blood flow. Murine breast cancer feed arteries and human colon cancer feed arteries show functional specialization that facilitates vasodilation or inhibits vasocontraction (121,122) and thereby minimizes vascular resistance compared to corresponding normal arteries. The mechanisms explaining the reduced vascular resistance of cancer feed arteries depend on the source of the arteries.…”
Section: Functional Adaptations Of Tumor Feed Arteriesmentioning
confidence: 99%
“…ADRA1A, as a subtype of the alpha ARs, is activated by catecholamines from local sympathetic nerve fibres and circulating blood. Lower α1-AR expression in breast cancer feed arteries was detected in a previous study, and this lowered receptor expression could increase tumour perfusion and provide more nutrients for the cancer cells by decreasing feed artery constriction [19]. ADRA1A is the predominant subtype of α1-AR in the normal liver [20].…”
Section: Discussionmentioning
confidence: 60%