Department of Anatomy and Structural Biology, Albert Einstein College of Medicine, Bronx, NY 10461, USA.
Breast Cancer Res. 2010;12(6):R101. doi: 10.1186/bcr2784. Epub 2010 Nov 25.
The actin binding protein Mammalian enabled (Mena), has been implicated in the metastatic progression of solid tumors in humans. Mena expression level in primary tumors is correlated with metastasis in breast, cervical, colorectal and pancreatic cancers. Cells expressing high Mena levels are part of the tumor microenvironment for metastasis (TMEM), an anatomical structure that is predictive for risk of breast cancer metastasis. Previously we have shown that forced expression of Mena adenocarcinoma cells enhances invasion and metastasis in xenograft mice. Whether Mena is required for tumor progression is still unknown. Here we report the effects of Mena deficiency on tumor progression, metastasis and on normal mammary gland development.
To investigate the role of Mena in tumor progression and metastasis, Mena deficient mice were intercrossed with mice carrying a transgene expressing the polyoma middle T oncoprotein, driven by the mouse mammary tumor virus. The progeny were investigated for the effects of Mena deficiency on tumor progression via staging of primary mammary tumors and by evaluation of morbidity. Stages of metastatic progression were investigated using an in vivo invasion assay, intravital multiphoton microscopy, circulating tumor cell burden, and lung metastases. Mammary gland development was studied in whole mount mammary glands of wild type and Mena deficient mice.
Mena deficiency decreased morbidity and metastatic dissemination. Loss of Mena increased mammary tumor latency but had no affect on mammary tumor burden or histologic progression to carcinoma. Elimination of Mena also significantly decreased epidermal growth factor (EGF) induced in vivo invasion, in vivo motility, intravasation and metastasis. Non-tumor bearing mice deficient for Mena also showed defects in mammary gland terminal end bud formation and branching.
Deficiency of Mena decreases metastasis by slowing tumor progression and reducing tumor cell invasion and intravasation. Mena deficiency during development causes defects in invasive processes involved in mammary gland development. These findings suggest that functional intervention targeting Mena in breast cancer patients may provide a valuable treatment option to delay tumor progression and decrease invasion and metastatic spread leading to an improved prognostic outcome.
肌动蛋白结合蛋白哺乳动物使能(Mena)已被牵连到人类实体瘤的转移进展中。原发性肿瘤中 Mena 的表达水平与乳腺癌、宫颈癌、结直肠癌和胰腺癌的转移相关。表达高水平 Mena 的细胞是转移肿瘤微环境(TMEM)的一部分,TMEM 是预测乳腺癌转移风险的解剖结构。先前我们已经表明,Mena 腺癌细胞的强制表达增强了异种移植小鼠的侵袭和转移。Mena 是否是肿瘤进展所必需的仍不清楚。在这里,我们报告了 Mena 缺乏对肿瘤进展、转移以及正常乳腺发育的影响。
为了研究 Mena 在肿瘤进展和转移中的作用,将 Mena 缺陷小鼠与携带由小鼠乳腺肿瘤病毒驱动的多瘤中 T 癌蛋白转基因的小鼠进行杂交。通过对原发性乳腺肿瘤进行分期和评估发病率来研究 Mena 缺乏对肿瘤进展的影响。使用体内侵袭测定、活体多光子显微镜、循环肿瘤细胞负担和肺转移来研究转移进展的阶段。在野生型和 Mena 缺陷型小鼠的全乳腺中研究乳腺发育。
Mena 缺乏减少发病率和转移扩散。Mena 的缺失增加了乳腺肿瘤潜伏期,但对乳腺肿瘤负担或向癌的组织学进展没有影响。Mena 的消除也显著降低了表皮生长因子(EGF)诱导的体内侵袭、体内运动、浸润和转移。缺乏 Mena 的非肿瘤-bearing 小鼠也显示出乳腺终末芽形成和分支的缺陷。
Mena 的缺乏通过减缓肿瘤进展、减少肿瘤细胞侵袭和浸润来减少转移。在发育过程中缺乏 Mena 会导致乳腺发育过程中涉及的侵袭过程缺陷。这些发现表明,针对乳腺癌患者的 Mena 功能干预可能提供一种有价值的治疗选择,以延迟肿瘤进展并减少侵袭和转移扩散,从而改善预后结果。
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