Vitamin C counteracts miR‐302/367‐induced reprogramming of human breast cancer cells and restores their invasive and proliferative capacity

B Ramezankhani, MF Taha… - Journal of cellular …, 2019 - Wiley Online Library
B Ramezankhani, MF Taha, A Javeri
Journal of cellular physiology, 2019Wiley Online Library
Epigenetic reprogramming by embryonic stem cell‐specific miR‐302/367 cluster has shown
some tumor suppressive effects in cancer cells of different tissues such as skin, colon, and
cervix. Vitamin C has been known as a reprogramming enhancer of human and mouse
somatic cells. In this study, first we aimed to investigate whether exogenous induction of miR‐
302/367 in breast cancer cells shows the same tumor suppressive effects previously
observed in other cancer cells lines, and whether vitamin C can enhance reprogramming of …
Abstract
Epigenetic reprogramming by embryonic stem cell‐specific miR‐302/367 cluster has shown some tumor suppressive effects in cancer cells of different tissues such as skin, colon, and cervix. Vitamin C has been known as a reprogramming enhancer of human and mouse somatic cells. In this study, first we aimed to investigate whether exogenous induction of miR‐302/367 in breast cancer cells shows the same tumor suppressive effects previously observed in other cancer cells lines, and whether vitamin C can enhance reprogramming of breast cancer cells and also improve the tumor suppressive function of miR‐302/367 cluster. Overexpression of miR‐302/367 cluster in MDA‐MB‐231 and SK‐BR‐3 breast cancer cells upregulated expression of miR‐302/367 members and also some core pluripotency factors including OCT4A, SOX2 and NANOG, induced mesenchymal to epithelial transition, suppressed invasion, proliferation, and induced apoptosis in the both cell lines. However, treatment of the miR‐302/367 transfected cells with vitamin C suppressed the expression of pluripotency factors and augmented the tumorigenicity of the breast cancer cells by restoring their proliferative and invasive capacity and compromising the apoptotic effect of miR‐302/367. Supplementing the culture medium with vitamin C downregulated expression of TET1 gene which seems to be the reason behind the negative impact of vitamin C on the reprogramming efficiency of miR‐302/367 cluster and its anti‐tumor effects. Therefore application of vitamin C may not always serve as a reprogramming enhancer depending on its switching function on TET1. This phenomenon should be carefully considered when considering a reprogramming strategy for tumor suppression.
Wiley Online Library