β-肾上腺素能受体(β-AR)通过不同途径调节高表达β-AR 的乳腺癌细胞系中 VEGF 和 IL-6 的产生。
β-Adrenergic receptors (β-AR) regulate VEGF and IL-6 production by divergent pathways in high β-AR-expressing breast cancer cell lines.
机构信息
Department of Biomedical Engineering, University of Rochester Medical Center, Goergen Hall, RC Box 270168, Rochester, NY 14627, USA.
出版信息
Breast Cancer Res Treat. 2011 Dec;130(3):747-58. doi: 10.1007/s10549-011-1348-y. Epub 2011 Jan 14.
Activation of β-adrenergic receptors (β-AR) drives proangiogenic factor production in several types of cancers. To examine β-AR regulation of breast cancer pathogenesis, β-AR density, signaling capacity, and functional responses to β-AR stimulation were studied in four human breast adenocarcinoma cell lines. β-AR density ranged from very low in MCF7 and MB-361 to very high in MB-231 and in a brain-seeking variant of MB-231, MB-231BR. Consistent with β-AR density, β-AR activation elevated cAMP in MCF7 and MB-361 much less than in MB-231 and MB-231BR. Functionally, β-AR stimulation did not markedly alter vascular endothelial growth factor (VEGF) production by MCF7 or MB-361. In the two high β-AR-expressing cell lines MB-231 and MB-231BR, β-AR-induced cAMP and VEGF production differed considerably, despite similar β-AR density. The β(2)-AR-selective agonist terbutaline and the endogenous neurotransmitter norepinephrine decreased VEGF production by MB-231, but increased VEGF production by MB-231BR. Moreover, β(2)-AR activation increased IL-6 production by both MB-231 and MB-231BR. These functional alterations were driven by elevated cAMP, as direct activation of adenylate cyclase by forskolin elicited similar alterations in VEGF and IL-6 production. The protein kinase A antagonist KT5720 prevented β-AR-induced alterations in MB-231 and MB-231BR VEGF production, but not IL-6 production. Conclusions β-AR expression and signaling is heterogeneous in human breast cancer cell lines. In cells with high β-AR density, β-AR stimulation regulates VEGF production through the classical β-AR-cAMP-PKA pathway, but this pathway can elicit directionally opposite outcomes. Furthermore, in the same cells, β-AR activate a cAMP-dependent, PKA-independent pathway to increase IL-6 production. The complexity of breast cancer cell β-AR expression and functional responses must be taken into account when considering β-AR as a therapeutic target for breast cancer treatment.
β-肾上腺素能受体(β-AR)的激活可促进多种类型癌症中促血管生成因子的产生。为了研究β-AR对乳腺癌发病机制的调节作用,我们研究了四种人乳腺癌腺癌细胞系中β-AR的密度、信号转导能力以及对β-AR刺激的功能反应。β-AR 密度在 MCF7 和 MB-361 中非常低,在 MB-231 和 MB-231 脑转移变体 MB-231BR 中非常高。与β-AR 密度一致,β-AR 激活使 MCF7 和 MB-361 中的 cAMP 升高幅度远低于 MB-231 和 MB-231BR。功能上,β-AR 刺激对 MCF7 或 MB-361 血管内皮生长因子(VEGF)的产生没有明显改变。在两种高β-AR 表达细胞系 MB-231 和 MB-231BR 中,尽管β-AR 密度相似,但β-AR 诱导的 cAMP 和 VEGF 产生有很大差异。β2-AR 选择性激动剂特布他林和内源性神经递质去甲肾上腺素可降低 MB-231 的 VEGF 产生,但可增加 MB-231BR 的 VEGF 产生。此外,β2-AR 激活可增加 MB-231 和 MB-231BR 的 IL-6 产生。这些功能改变是由升高的 cAMP 驱动的,因为通过 forskolin直接激活腺苷酸环化酶可引起 VEGF 和 IL-6 产生的类似改变。蛋白激酶 A 拮抗剂 KT5720 可防止β-AR 诱导的 MB-231 和 MB-231BR VEGF 产生的改变,但不影响 IL-6 的产生。结论:人乳腺癌细胞系中β-AR 表达和信号转导存在异质性。在β-AR 密度高的细胞中,β-AR 刺激通过经典的β-AR-cAMP-PKA 途径调节 VEGF 的产生,但该途径可引起方向相反的结果。此外,在相同的细胞中,β-AR 激活 cAMP 依赖性、PKA 非依赖性途径增加 IL-6 的产生。在考虑β-AR 作为乳腺癌治疗的治疗靶点时,必须考虑乳腺癌细胞β-AR 表达和功能反应的复杂性。
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