Litcius/Paper detail

Knockdown of the prognostic cancer stem cell marker Musashi-1 decreases radio-resistance while enhancing apoptosis in hormone receptor-positive breast cancer cells via p21WAF1/CIP1

Fabian M. Troschel, Heike Palenta, Katrin Borrmann, Kristin Heshe, San Hue Hua, George W. Yip, Ludwig Kiesel, Hans Theodor Eich, Martin Götte, Burkhard Greve

2021Journal of Cancer Research and Clinical Oncology27 citationsDOIOpen Access PDF

Abstract

PURPOSE: While the stem cell marker Musashi-1 (MSI-1) has been identified as a key player in a wide array of malignancies, few findings exist on its prognostic relevance and relevance for cancer cell death and therapy resistance in breast cancer. METHODS: First, we determined prognostic relevance of MSI-1 in database analyses regarding multiple survival outcomes. To substantiate findings, MSI-1 was artificially downregulated in MCF-7 breast cancer cells and implications for cancer stem cell markers, cell apoptosis and apoptosis regulator p21, proliferation and radiation response were analyzed via flow cytometry and colony formation. Radiation-induced p21 expression changes were investigated using a dataset containing patient samples obtained before and after irradiation and own in vitro experiments. RESULTS: MSI-1 is a negative prognostic marker for disease-free and distant metastasis-free survival in breast cancer and tends to negatively influence overall survival. MSI-1 knockdown downregulated stem cell gene expression and proliferation, but increased p21 levels and apoptosis. Similar to the MSI-1 knockdown effect, p21 expression was strongly increased after irradiation and was expressed at even higher levels in MSI-1 knockdown cells after irradiation. Finally, combined use of MSI-1 silencing and irradiation reduced cancer cell survival. CONCLUSION: MSI-1 is a prognostic marker in breast cancer. MSI-1 silencing downregulates proliferation while increasing apoptosis. The anti-proliferation mediator p21 was upregulated independently after both MSI-1 knockdown and irradiation and even more after both treatments combined, suggesting synergistic potential. Radio-sensitization effects after combining radiation and MSI-1 knockdown underline the potential of MSI-1 as a therapeutic target.

Topics & Concepts

Gene knockdownCancer researchBreast cancerCancer stem cellGene silencingBiologyCancerStem cellApoptosisStem cell markerMetastasisOncologyInternal medicineMedicineCell biologyGeneBiochemistryCancer Cells and MetastasisHippo pathway signaling and YAP/TAZMicroRNA in disease regulation