Blocking HER-2/HER-3 function with a dominant negative form of HER-3 in cells stimulated by heregulin and in breast cancer cells with HER-2 gene amplification.

T G Ram, M E Schelling, H L Hosick
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Abstract

Amplification and overexpression of the HER-2 (neu/ erbB-2) gene in human breast cancer are clearly important events that lead to the transformation of mammary epithelial cells in approximately one-third of breast cancer patients. Heterodimer interactions between HER-2 and HER-3 (erbB-3) are activated by neu differentiation factor/heregulin (HRG), and HER-2/HER-3 heterodimers are constitutively activated in breast cancer cells with HER-2 gene amplification. This indicates that inhibition of HER-2/HER-3 heterodimer function may be an especially effective and unique strategy for blocking the HER-2-mediated transformation of breast cancer cells. Therefore, we constructed a bicistronic retroviral expression vector (pCMV-dn3) containing a dominant negative form of HER-3 in which most of the cytoplasmic domain was removed for introduction into cells. By using a bicistronic retroviral vector in which the antibiotic resistance gene and the gene of interest are driven by a single promoter, we attained 100% coordinate coexpression of antibiotic resistance with the gene of interest in target cell populations. Breast carcinoma cells with HER-2 gene amplification (21 MT-1 cells) and normal mammary epithelial cells without HER-2 gene amplification from the same patient (H16N-2 cells) were infected with pCMV-dn3 and assessed for HER-2/ HER-3 receptor tyrosine phosphorylation, p85PI 3-kinase and SHC protein activation, growth factor-dependent and -independent proliferation, and transformed growth in culture. Dominant negative HER-3 inhibited the HRG-induced activation of HER-2/HER-3 and signaling in H16N-2 and 21 MT-1 cells as well as the constitutive activation of HER-2/HER-3 and signaling in 21 MT-1 cells. Responses to exogenous HRG were strongly inhibited by dominant negative HER-3. In contrast, the proliferation of cells stimulated by epidermal growth factor was not apparently affected by dominant negative HER-3. The growth factor-independent proliferation and transformed growth of 21 MT-1 cells were also strongly inhibited by dominant negative HER-3 in anchorage-dependent and independent growth assays in culture. Furthermore, the HRG-induced or growth factor-independent proliferation of 21 MT-1 cells was inhibited by dominant negative HER-3, whereas the epidermal growth factor-induced proliferation of these cells was not: this indicates that dominant negative HER-3 preferentially inhibits proliferation induced by HER-2/HER-3.

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在heregulin刺激的细胞和HER-2基因扩增的乳腺癌细胞中,以HER-3显性阴性形式阻断HER-2/HER-3功能。
HER-2 (neu/ erbB-2)基因在人类乳腺癌中的扩增和过表达显然是导致大约三分之一乳腺癌患者乳腺上皮细胞转化的重要事件。HER-2和HER-3之间的异源二聚体相互作用(erbB-3)被新分化因子/heregulin (HRG)激活,HER-2/HER-3异源二聚体在HER-2基因扩增的乳腺癌细胞中被组成性激活。这表明,抑制HER-2/HER-3异源二聚体功能可能是阻断HER-2介导的乳腺癌细胞转化的一种特别有效和独特的策略。因此,我们构建了一个双链逆转录病毒表达载体(pCMV-dn3),其中含有HER-3的显性阴性形式,其中大部分细胞质结构域被移除以引入细胞。通过使用双链逆转录病毒载体,其中抗生素抗性基因和目标基因由单个启动子驱动,我们在靶细胞群中获得了100%的抗生素抗性与目标基因的协调共表达。用pCMV-dn3感染同一患者的HER-2基因扩增的乳腺癌细胞(21个MT-1细胞)和未扩增HER-2基因的正常乳腺上皮细胞(H16N-2细胞),评估HER-2/ HER-3受体酪氨酸磷酸化、p85PI 3-激酶和SHC蛋白活化、生长因子依赖性和非依赖性增殖以及培养转化生长。显性阴性HER-3抑制hrg诱导的H16N-2和21 MT-1细胞中HER-2/HER-3的激活和信号转导,以及21 MT-1细胞中HER-2/HER-3的组成性激活和信号转导。对外源性HRG的反应被显性阴性HER-3强烈抑制。而显性HER-3阴性对表皮生长因子刺激的细胞增殖无明显影响。在独立生长和锚定生长实验中,21个MT-1细胞的增殖和转化生长也受到HER-3显性阴性的强烈抑制。此外,21个MT-1细胞hrg诱导或生长因子独立的增殖被显性阴性HER-3抑制,而表皮生长因子诱导的细胞增殖不受显性阴性HER-3的抑制,这表明显性阴性HER-3优先抑制HER-2/HER-3诱导的增殖。
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