EXOSOME PROFILING OF BRONCHIAL LAVAGE FLUID IN A MOUSE MODEL OF SURGERY RESECTION OF BREAST CANCER WITH LUNG METASTASIS
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0000-0002-9324-2687 (Phillips, Nicole)
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The lung serves as a primary site for breast cancer metastasis, carrying profound implications for patient prognoses. About 60% of people diagnosed with metastatic breast cancer have lesions in either the lungs or the bones, with triple-negative breast cancer (TNBC) more likely than other types of breast cancers to metastasize to the lungs. Although current targeted chemo-radiotherapy and surgery result in higher survivorship, studies have documented that such curative treatments may also increase risk of lung metastasis. To date, the causal factors that mediate metastasis in the context of cancer treatments remain elusive. Our long-term goal is that a deeper understanding of the mechanisms that mediate relocation of breast tumor cells from its primary origin to its distal site (e.g., lung) will reveal novel complementary diagnostic and preventative treatments to improve TNBC survivorship. Exosomes, serving as tiny extracellular vesicles within tumor cells and other cells (e.g., immune cells) release diverse biomolecules have been implicated in tumor pathogenesis. Specifically, miRNAs as cargo within exosomes are known to regulate cellular function. miRNAs are small RNA molecules that can bind to messenger RNA (mRNA) and inhibit protein synthesis or promote mRNA degradation. This regulatory function allows miRNAs to modulate the expression of multiple genes involved in various cellular processes and their dysregulation has been implicated in various diseases, including cancer. The objective of this study was to determine the expression of miRNA-200b-3p and miRNA-141-5p as known regulators of lung cancer are influenced by surgical removal of a primary breast cancer. We hypothesized that miRNA-200b-3p and miRNA-141-5p mRNA expression is increased in response to surgery. Using an established model of breast cancer metastasis, exosomes were isolated from the bronchiole alveolar lavage fluid (BALF) of tumor bearing mice and mice in which primary tumors were resected compared to tumor-free mice. Results demonstrated that miRNA-200b-3p was present in both tumor-bearing and non-tumor-bearing mice. In contrast, miRNA-141-5p was not expressed in tumor-bearing, non-tumor-bearing mice, and naïve mice determined by quantitative reverse transcriptase polymerase chain reaction (qrtPCR). In conclusion, as we navigate the intricacies of miRNA dynamics in the lung microenvironment, future studies will involve broadening the miRNA panel and refining exosome recovery techniques. This strategic evolution aims to enhance sensitivity, facilitating the detection of elusive, tumor-derived exosome miRNAs. All studies have been approved by UNTHSC IACUC, approval number #2018-0031. Acknowledgement: This research is partially supported by a grant from the Cancer Prevention and Research Institute of Texas (Award#: RP210046) to Dr. Jamboor K. Vishwanatha and National Institute of Cancer Research of the Health under Award 1 P20 CA233355-01 (Vishwanatha, Jones-Project 1).