Inhibition of Increased Invasiveness of Breast Cancer Cells With Acquired Tamoxifen Resistance by Suppression of CYR61.

BACKGROUND/AIM: Hormone sensitivity-targeted therapy with selective estrogen receptor modulators (SERMs), such as 4-hydroxytamoxifen (4-OHT), is the mainstay of treatment for breast cancers (BCs) that express estrogen receptor α (ERα). However, development of resistance limits this therapy approach. The question arises whether changes associated with 4-OHT resistance could be exploited therapeutically. MATERIALS AND METHODS: First, 4-OHT-resistant sublines of ERα-positive breast carcinoma cell lines MCF-7 and T47D were generated. Viability was assessed by the Alamar Blue assay. Cell invasion was quantified in modified Boyden chambers with Matrigel. Changes in expression of CYR61, S100A4, and ERα were examined by RT-qPCR. Expression of CYR61 was suppressed by transient gene silencing using siRNA. Successful suppression was verified by western blot. Efficacy of 4-OHT treatment was analyzed by quantification of viability using Alamar Blue assay. Correlation of CYR61 levels in patients with luminal A BC to distant metastases-free survival was determined by Kaplan-Meier analysis. RESULTS: ERα-positive MCF-7 and T47D BC cells exhibit an extremely weak invasion rate. Acquired tamoxifen resistance significantly increased the invasive behavior of both tamoxifen-resistant MCF-7-TR and T47D-TR sublines. In addition, expression of CYR61 and S100A4 showed significantly increased levels, whereas expression of ERα was decreased. Suppression of CYR61 expression resulted in a significant decreased invasion rate. In addition, expression of S100A4 was reduced, whereas expression of ERα was increased. Furthermore, suppression of CYR61 resulted in re-sensitization to 4-OHT. High CYR61 levels in patients with luminal A BC resulted in reduced distant metastases-free survival. CONCLUSION: The prometastatic factor CYR61 appears to play an important role in the increased invasiveness of tamoxifen-resistant ERα-positive BC cells. Its suppression leads to a lower invasion rate. Given the few therapeutic options available for tamoxifen-resistant BC, therapy that reduces CYR61 may improve its treatability in future.

Inhibition of CYR61-S100A4 Axis Limits Breast Cancer Invasion.

Background and Objective: Matricellular proteins modulate the micro environment of tumors and are recognized to contribute to tumor cell invasion and dissemination. The cysteine-rich angiogenic inducer 61 (CYR61) is upregulated in mesenchymal transformed and invasive breast cancer cells. CYR61 correlates with poor prognosis of breast cancer patients. The signaling mechanism that causes invasive properties of cancer cells regarding to epithelial-mesenchymal transition (EMT) needs further research. In this study, we investigated the signaling mechanism, which is responsible for reduced cell invasion after suppression of CYR61 in mesenchymal transformed breast cancer cells and in triple negative breast cancer cells. Methods: We addressed this issue by generating a mesenchymal transformed breast cancer cell line using prolonged mammosphere cultivation. Western blotting and quantitative PCR were used to analyze gene expression alterations. Transient gene silencing was conducted using RNA interference. Proliferation was assessed using AlamarBlue assay. Invasiveness was analyzed using 2D and 3D invasion assays. Immune-histochemical analysis of patient tissue samples was performed to examine the prognostic value of CYR61 expression. Results: In this study, we investigated whether CYR61 could be used as therapeutic target and prognostic marker for invasive breast cancer. We discovered an interaction of CYR61 with metastasis-associated protein S100A4. Suppression of CYR61 by RNA interference reduced the expression of S100A4 dependent on ERK1/2 activity regulation. Non-invasive breast cancer cells became invasive due to extracellular CYR61 supplement. Immune-histochemical analysis of 239 patient tissue samples revealed a correlation of higher CYR61 and S100A4 expression with invasive breast cancer and metastasis. Conclusion: Our data suggest that suppression of CYR61 impedes the formation of an invasive cancer cell phenotype by reducing ERK1/2 phosphorylation thereby suppressing S100A4. These findings identify mechanisms by which CYR61 suppresses cell invasion and suggest it to be a potential therapeutic target and prognostic marker for invasive breast cancer and metastasis.