Abstract
Therapeutic targeting of the beta-adrenergic receptors has recently shown remarkable efficacy in the treatment of benign vascular tumors such as infantile hemangiomas. As infantile hemangiomas are reported to express high levels of beta adrenergic receptors, we examined the expression of these receptors on more aggressive vascular tumors such as hemangioendotheliomas and angiosarcomas, revealing beta 1, 2, and 3 receptors were indeed present and therefore aggressive vascular tumors may similarly show increased susceptibility to the inhibitory effects of beta blockade. Using a panel of hemangioendothelioma and angiosarcoma cell lines, we demonstrate that beta adrenergic inhibition blocks cell proliferation and induces apoptosis in a dose dependent manner. Beta blockade is selective for vascular tumor cells over normal endothelial cells and synergistically effective when combined with standard chemotherapeutic or cytotoxic agents. We demonstrate that inhibition of beta adrenergic signaling induces large scale changes in the global gene expression patterns of vascular tumors, including alterations in the expression of established cell cycle and apoptotic regulators. Using in vivo tumor models we demonstrate that beta blockade shows remarkable efficacy as a single agent in reducing the growth of angiosarcoma tumors. In summary, these experiments demonstrate the selective cytotoxicity and tumor suppressive ability of beta adrenergic inhibition on malignant vascular tumors and have laid the groundwork for a promising treatment of angiosarcomas in humans.
Highlights
A wealth of evidence indicates that stressful situations exacerbate tumor progression
We examined the steady state mRNA expression levels of ADRB1, ADRB2, and ADRB3 in a panel of malignant vascular tumor lines including 4 primary canine angiosarcoma cell lines (Emma, Frog, Jack, and SB), one mouse angiosarcoma cell line (SVR), and one mouse hemangioendothelioma cell line (EOMA), demonstrating that canine angiosarcoma lines preferentially express ADRB2 and ADRB3 (Figure 1B), while malignant mouse vascular tumor lines express ADRB1 and ADRB2 (Figure 1C)
As infantile hemangiomas, are clinically susceptible to propranolol, we sought to determine if malignant vascular tumors respond
Summary
A wealth of evidence indicates that stressful situations exacerbate tumor progression. Adrenergic processes stimulated by epinephrine and norephinephrine drive the development of tumor growth and metastasis [1,2,3]. Breast cancer models indicate the sympathetic nervous system serves as a neural regulator inducing a metastatic switch, with stress-induced neuroendocrine activation leading to a 30-fold increase in tumor metastasis [4]. One prospective study revealed a 36% reduction in the risk of melanoma progression for each year of beta blocker treatment [6]. The non-specific beta adrenergic receptor inhibitor propranolol has been utilized as the gold standard treatment in pediatric patients with infantile hemangioma, a benign vascular tumor which affects up to 10% of the Caucasian population [14]
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