MiR-155-5p-mediated increase in p53 content induced by dacarbazine in melanoma cells

Abstract

BACKGROUND: Cellular senescence is a stress response, triggered by various stimuli such as chemotherapy treatment and causes G0/G1 cell cycle arrest followed by the production of a senescence associated secretory phenotype. p53 considered to be a modulator of these events although the precise mechanisms of it remains not clear. AIMS: To determine the non-apoptotic functions of the p53 protein the formation of the senescence associated secretory phenotype phenotype of melanoma cells under the treatment of the cytostatic agent dacarbazine. MATERIALS AND METHODS: The study was conducted on BRO and SK-MEL-2 skin melanoma cell lines. Melanoma cells were were treated by cytostatic agent dacarbazine. Then immunocytochemical study was performed to determine the proportion of G0-positive cells and the expression of the tumor suppressor protein p53. A bioinformatic analysis was accomplished to identify for p53 regulators with determining of miR-155-5p levels in exosomes released by dacarbazine-treated melanoma cells. RESULTS: The cytostatic drug dacarbazine increases the proportion of cells residing in the G0 phase of the cell cycle. Onco-microRNA miR-155-5p was expressed in the exosomes of the two studied cell lines BRO and SK-MEL-2 of skin melanoma. Changes in the expression level of p53 correlate with changes in miR-155-5p microRNA expression. The absence of changes in p53 expression in BRO melanoma cells may be due to the absence of changes in miR-155-5p expression levels. In the BRO cell line, no changes in the expression of the oncosuppressor p53 were observed with an increased percentage of G0-positive cells, which may be associated with the activation of other mechanisms of cell cycle arrest in the G0/G1 phase. CONCLUSIONS: Heterogeneous effect of the cytostatic agent dacarbazine on melanoma cells was revealed. For the SK-MEL-2 cell line, dacarbazine induces the release of senescence associated secretory phenotype by inhibiting exosomal production of miR-155-5p, which activates the p53 oncosuppressor, which was not observed in the BRO line.