Abstract

Background and aimUL-16 binding protein 2 (ULBP2) is a highly altered ligand for the activating receptor, NKG2D in breast cancer (BC). However, the mechanism behind its de-regulation in BC patients remains to be explored. The sophisticated crosstalk between miR-17–5p, the lncRNA H19, and STAT3 as a possible upstream regulatory loop for ULBP2 in young BC patients and cell lines remains as an unexplored area. Therefore, this study aimed at unravelling the ncRNA circuit regulating ULBP2 in young BC patients and cell lines. Patients and methodsA total of 30 BC patients were recruited for this study. The expression levels of miR-17–5p, lncRNA H19, and STAT3 were examined in 30 BC tissues compared to their normal counterparts. In addition, the expression signatures of those transcripts were compared in young (<40 years) and old BC (≥40 years) patients. miR-17–5p oligonucleotides, STAT3 and H19 siRNAs were transfected in MDA-MB-231 cells using HiPerfect® Transfection Reagent. miR-17–5p and the transcripts of the target genes quantified using RT-qPCR. Their relative expression was calculated using the 2–ΔΔCT method. ResultsThrough acting as a ceRNA circuit that antagonizes the function of miR-17–5p, H19 prevented the miR-17–5p-induced downregulation of STAT3; this mechanism further contributes to the pathogenesis of BC. Ectopic expression of miR-17–5p in MDA-MB-231 cells displayed its prominent role as an indirect potential activator of NK cells by significantly repressing the expression levels of the oncogenic mediator STAT3 and the oncogenic lncRNA H19 and inducing ULBP2 expression level by 3 folds in TNBC cell lines compared to mock cells. Furthermore, knocking down of STAT3 repressed the lncRNA H19 and increased ULBP2 expression levels, whereas siRNAs against H19 increased the expression levels of ULBP2. ConclusionThis study highlighted the crosstalk between the novel regulatory network composed of miR-17–5p, H19 and STAT3, and their impact on ULBP2 in BC. Moreover, this study underscored the potential role of miR-17–5p in counteracting the immune evasion tactics, particularly the shedding of ULBP2 in young BC patients, through the modulation of the STAT3/H19/ULBP2 regulatory axis. Thus, targeting this novel regulatory network could potentially enhance our understanding and advance the future application of the innate system-mediated immunotherapy in BC.

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