Cancer Genetics and Developmental Biology, British Columbia Cancer Agency, 675 West 10th Ave., Vancouver, BC, Canada.
Breast Cancer Res. 2010;12(3):R38. doi: 10.1186/bcr2592. Epub 2010 Jun 21.
Breast cancer is genetically and clinically a heterogeneous disease. However, the exact contribution of different cell types and oncogenic mutations to this heterogeneity are not well understood. Recently, we discovered an interaction between Wnt and integrin-linked kinase (ILK) within the signaling cascade that regulates cell growth and survival. Interestingly, mammary-specific expression of either one of these proteins has been shown to promote mammary tumorigenesis. In light of our recent findings and to investigate the potential interaction between Wnt and ILK proteins during mammary tumor formation and progression, we established a transgenic mouse model that expresses both Wnt and ILK in mammary epithelial cells.
A novel transgenic mouse model with mammary-specific expression of both Wnt1 and ILK was generated by crossing the two previously characterized mouse models, MMTV-Wnt1 and MMTV-ILK. The resulting MMTV-Wnt/ILK mice were closely monitored for tumor development and growth, as well as for the tumor onset. The molecular phenotypes of both tumors and premalignant mammary glands were investigated by using biochemical and global gene-expression analysis approaches.
A significant acceleration in mammary tumor incidence and growth was observed in the MMTV-Wnt/ILK mice. Pre-neoplastic mammary glands also display lobuloalveolar hyperplasia and an increase in ductal epithelium proliferation. Apart from elevated expression of Wnt/ILK targets, such as beta-catenin and cyclin D1, gene-expression profiling identified the surprising activation of the FOXA1 transcription factor. Upregulation of FOXA1, which is also known as the molecular marker of differentiated mammary luminal cells, was consistent with the expansion of the enriched luminal progenitor population or CD29loCD24hiCD61+ cells in MMTV-Wnt/ILK tumors.
These results show cooperation between Wnt1 and ILK transgenes during mammary carcinogenesis, leading to changes in a transcriptional network, which could dictate a specific breast cancer phenotype with enhanced growth dynamics. The MMTV-Wnt/ILK can be used as a model to identify further the genes downstream of the estrogen receptor-beta/FOXA1 and to investigate the mechanisms targeting the expansion of the luminal progenitor cells leading to hyperplasia and tumorigenesis.
乳腺癌在遗传和临床上是一种具有异质性的疾病。然而,不同细胞类型和致癌突变对这种异质性的确切贡献尚不清楚。最近,我们在调节细胞生长和存活的信号级联中发现了 Wnt 和整合素连接激酶(ILK)之间的相互作用。有趣的是,这两种蛋白中的任何一种在乳腺组织中的特异性表达都被证明可以促进乳腺肿瘤的发生。鉴于我们最近的发现,并为了研究 Wnt 和 ILK 蛋白在乳腺肿瘤形成和进展过程中的潜在相互作用,我们建立了一种在乳腺上皮细胞中表达 Wnt1 和 ILK 的转基因小鼠模型。
通过将两个先前已鉴定的小鼠模型(MMTV-Wnt1 和 MMTV-ILK)进行杂交,生成了一种具有乳腺特异性表达 Wnt1 和 ILK 的新型转基因小鼠模型。密切监测 MMTV-Wnt/ILK 小鼠的肿瘤发展和生长情况,以及肿瘤的发生情况。通过生化和全基因表达分析方法研究了肿瘤和癌前乳腺的分子表型。
在 MMTV-Wnt/ILK 小鼠中,乳腺肿瘤的发生率和生长速度明显加快。前瘤乳腺组织也表现出小叶腺泡增生和导管上皮增殖增加。除了 Wnt/ILK 靶基因如β-连环蛋白和细胞周期蛋白 D1 的表达升高外,基因表达谱分析还发现了 FOXA1 转录因子的惊人激活。FOXA1 的上调,也被称为分化的乳腺腔细胞的分子标志物,与 MMTV-Wnt/ILK 肿瘤中丰富的腔前体细胞群或 CD29loCD24hiCD61+细胞的扩增一致。
这些结果表明,Wnt1 和 ILK 转基因在乳腺癌变过程中存在合作,导致转录网络的改变,这可能决定了具有增强生长动力学的特定乳腺癌表型。MMTV-Wnt/ILK 可用于作为一种模型,以进一步确定雌激素受体-β/FOXA1 下游的基因,并研究针对腔前体细胞扩增导致增生和肿瘤发生的机制。
