Abstract
Abstract Background: Anthracycline-based chemotherapy is widely used to treat breast cancer. However, acquired drug resistance remains a challenge to successful treatment. Recently, increasing evidence has shown that changes in the tumour immune microenvironment (TIME), in addition to increasing drug resistance of tumour cells, consistently contribute to the development of chemoresistance. Methods: TIME scores and tumor-infiltrating immune cells (TICs) scores were used to investigate the prognosis, clinicopathological characteristics and gene transcriptome profiling of HER2-negative breast cancer patients who received anthracycline-based chemotherapy. Exosomes isolated from MCF/7-ADR (ADR-exos) and MCF/7-S (S-exos) cell lines were characterized. We identified dysregulated miRNAs using miRNA microarray analysis on MCF/7-ADR cells and their exosomes compared to MCF/7-S cells and their exosomes. Protein profiling was performed to identify differentially expressed proteins in up- and down-regulated miR-222 cells. The ability of ADR-exos to transfer drug-resistance mediated by miR-222 was assessed by immunofluorescence assay, flow cytometry and qRT-PCR. We optimized the conditions to load miR-222 mimic (or inhibitor) into exosomes produced by HBL-100 cells (H-exos). The influence of miR-222 inhibitor-containing exosomes (inhibitor-exos) on the downstream pathway of miR-222 and the potential therapeutic effects both in vitro and in vivo were evaluated. We also evaluated the relationship between miR-222/PTEN and drug resistance in circulating exosomes from mice after adriamycin-based chemotherapy. Results: Firstly, we discovered the complicated and heterogenous TICs subtypes and their unique biological behaviors in HER2-negative breast cancer. Then, we identified 85 differentially expressed immunologic signature gene sets and 7202 corresponding immune-related genes in three subtypes quantified by gene set variation analysis (GSVA). We identified 12 up-regulated and 13 down-regulated genes using miRNA microarray analysis in adriamycin-resistant cells and their exosomes. The TMT mass spectrometry found 45 differentially expressed proteins affected by the miR-222 level. Moreover, we successfully established miRNA mimic/inhibitor-containing exosomes to explore the solo function of exosomal miR-222 in adriamycin-resistance both in vitro and in vivo. More importantly, for the first time, we detected the levels of miR-222 and its target gene PTEN in circulating exosomes from mice after adriamycin-based chemotherapy and explored the potential clinical implications of miR-222/PTEN-containing exosomes in chemotherapy and immune suppression of breast cancer patients. Conclusions: HER2-negative breast cancer patients own unique TIME subtypes, leading to different outcomes of chemotherapy. We exhibit the potential applications of miR-222-mimic/inhibitor-containing exosomes for reversing chemo-resistance. Adriamycin-resistant cells can transmit drug-resistance to sensitive cells via delivering miR-222 by modulating the immune- and metabolism-related target gene PTEN both in vitro and in vivo without interference from other relevant drug-resistance factors in exosomes. Therefore, miR-222-containing exosomes as well as their target gene PTEN may be a promising biomarker for predicting the efficacy of chemo-resistance and tumor immunity regulation in breast cancer patients receiving anthracycline-based chemotherapy. Keywords: exosomes, breast cancer, tumor immune microenvironment, chemo-resistance, microRNAs Citation Format: Sujin Yang, Tian-cheng Cheng, Jia-hao Wu, Wei-xian Chen. Exosome-based delivery of microRNAs confers adriamycin-resistance to sensitive cells through modulating the immune and metabolism-related gene PTEN in HER2-negative breast cancer [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO1-23-08.
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