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首页> 美国卫生研究院文献>The Journal of Biological Chemistry >Cytoplasmic Localization of Proline Glutamic Acid Leucine-rich Protein 1 (PELP1) Induces Breast Epithelial Cell Migration through Up-regulation of Inhibitor of κB Kinase ϵ and Inflammatory Cross-talk with Macrophages
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Cytoplasmic Localization of Proline Glutamic Acid Leucine-rich Protein 1 (PELP1) Induces Breast Epithelial Cell Migration through Up-regulation of Inhibitor of κB Kinase ϵ and Inflammatory Cross-talk with Macrophages

机译:脯氨酸谷氨酸富含亮氨酸的蛋白1(PELP1)的细胞质定位通过上调κB激酶ϵ抑制剂和与巨噬细胞的炎症相交而诱导乳腺癌上皮细胞迁移。

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Cytoplasmic localization of proline, glutamic acid, leucine-rich protein 1 (PELP1) is observed in ∼40% of women with invasive breast cancer. In mouse models, PELP1 overexpression in the mammary gland leads to premalignant lesions and eventually mammary tumors. In preliminary clinical studies, cytoplasmic localization of PELP1 was seen in 36% of women at high risk of developing breast cancer. Here, we investigated whether cytoplasmic PELP1 signaling promotes breast cancer initiation in models of immortalized human mammary epithelial cells (HMECs). Global gene expression analysis was performed on HMEC lines expressing vector control, PELP1-wt, or mutant PELP1 in which the nuclear localization sequence was altered, resulting in cytoplasmic localization of PELP1 (PELP1-cyto). Global gene expression analysis identified that PELP1-cyto expression in HMECs induced NF-κB signaling pathways. Western blotting analysis of PELP1-cyto HMECs showed up-regulation of inhibitor of κB kinase ϵ (IKKϵ) and increased phosphorylation of the NF-κB subunit RelB. To determine whether secreted factors produced by PELP1-cyto HMECs promote macrophage activation, THP-1 macrophages were treated with HMEC-conditioned medium (CM). PELP1-cyto CM induced changes in THP-1 gene expression as compared with control cell CM. Double conditioned medium (DCM) from the activated THP-1 cells was then applied to HMECs to determine whether paracrine signaling from PELP1-cyto-activated macrophages could in turn promote migration of HMECs. PELP1-cyto DCM induced robust HMEC migration, which was reduced in DCM from PELP1-cyto HMECs expressing IKKϵ shRNA. Our findings suggest that cytoplasmic localization of PELP1 up-regulates pro-tumorigenic IKKϵ and secreted inflammatory signals, which through paracrine macrophage activation regulates the migratory phenotype associated with breast cancer initiation.
机译:在约40%的浸润性乳腺癌女性中观察到脯氨酸,谷氨酸,富含亮氨酸的蛋白1(PELP1)的细胞质定位。在小鼠模型中,PELP1在乳腺中的过度表达会导致恶变前病变,并最终导致乳腺肿瘤。在初步临床研究中,在36%的罹患乳腺癌的高风险女性中发现了PELP1的胞质定位。在这里,我们调查了永生化的人类乳腺上皮细胞(HMECs)模型中细胞质PELP1信号传导是否促进乳腺癌的发生。在表达载体对照,PELP1-wt或突变PELP1的HMEC品系中进行了全局基因表达分析,在这些品中,核定位序列发生了改变,导致了PELP1的胞质定位(PELP1-cyto)。全局基因表达分析确定,HMECs中的PELP1细胞表达诱导NF-κB信号通路。对PELP1细胞HMEC的Western印迹分析表明,κB激酶ϵ(IKKϵ)抑制剂的表达上调,而NF-κB亚基RelB的磷酸化增加。为了确定PELP1细胞HMEC产生的分泌因子是否促进巨噬细胞活化,用HMEC条件培养基(CM)处理THP-1巨噬细胞。与对照细胞CM相比,PELP1细胞CM诱导THP-1基因表达的变化。然后将来自激活的THP-1细胞的双重条件培养基(DCM)应用于HMEC,以确定来自PELP1细胞激活的巨噬细胞的旁分泌信号传导是否又可以促进HMEC的迁移。 PELP1细胞DCM诱导了强健的HMEC迁移,在DCM中,表达IKKϵ shRNA的PELP1细胞HMEC减少了。我们的发现表明,PELP1的细胞质定位上调了促肿瘤发生的IKKϵ和分泌的炎症信号,这些信号通过旁分泌巨噬细胞激活来调节与乳腺癌起始相关的迁移表型。

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