Abstract
Abstract Breast cancer is the most common cancer diagnosis worldwide, and an unfortunately high number of women die every year due to a lack of effective therapeutic strategies for metastatic breast cancer. Patients with brain metastases in particular have a significantly poorer prognosis than women with metastasis to other sites (e.g., lung, liver, bone). Previous studies by our group identified a ligand-receptor complex in the tumor microenvironment (TME) that promotes metastasis of breast cancer to the brain. This interaction between platelet-derived growth factor-BB (PDGFB), produced by cancerous breast epithelial cells, and its receptor, platelet-derived growth factor receptor beta (PDGFRβ), expressed by mesenchymal cells, is also prognostic of breast cancer metastasis to the brain in patients. The mechanism of how the PDGFB-PDGFRβ pathway mediates brain metastasis is still unclear and is the focus of our current work. To further analyze the biological effects of PDGFB, our group evaluated gene expression changes between primary human breast tumors expressing high PDGFB versus those expressing low PDGFB and found significantly more immune signaling in the low-expressing tumors. These results led us to hypothesize that the PDGFB-PDGFRβ pathway creates an immunosuppressive microenvironment, allowing for increased metastasis of cancerous cells. To test this, flow cytometry was completed on the brains, spleens, lungs, and livers of control mice and mutant mice expressing stromal-specific hyperactive PDGFRβ following intracardiac injection of PDGFB-expressing mammary tumor cells. No significant changes in immune cell populations were observed in non-tumor-bearing mice. However, in the brains of tumor-bearing mutant mice, there are significant changes to the myeloid lineage. Specifically, analysis at day 10 post-injection (prior to detectable metastatic lesions) revealed diminished CD45+CD11b+ populations. Segregating by CD45hi/CD45lo confirmed a profound decrease in CD45loCD11b+F4/80+ microglia, likely a tumor-suppressive population. Looking at day 16 post-injection (detectable metastatic lesions), there is a shift towards an increase in CD45+ CD11b+GR1+ infiltrating myeloid-derived suppressor cells (MDSCs) in experimental mice, likely a tumor-promoting population. Minimal changes were observed in the lungs and livers at any time point. Confirmatory immunofluorescence staining showed a decrease in tumor-infiltrating microglia (Iba1+) and a significant increase in tumor-infiltrating peripheral macrophages (F4/80+), mirroring the flow data. This experiment was then repeated to test the contribution of the ligand (PDGFB), where a significant increase of infiltrating microglia (Iba1+) was observed upon tumor cell knockdown of PDGFB. Together, these results suggest that the PDGFB-PDGFRβ pathway creates an immunosuppressive environment in the brain TME at least in part through reorchestration of the myeloid populations. Citation Format: Alexis A Mossing, Johnathon G Schiebel, Rebecca L Packard, Amrendra Kumar, Sarah A Steck, Nathaniel S Grabinski, Katie A Thies, Bri Wasik, Tasneem Ariswala, Gary Tozbikian, Johnathan Godbout, Steven T Sizemore, Paul R Lockman, Anna E Vilgelm, Gina M Sizemore. Stromal PDGFRβ hyperactivation modulates the myeloid lineage in the brain metastatic microenvironment [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Advances in Breast Cancer Research; 2023 Oct 19-22; San Diego, California. Philadelphia (PA): AACR; Cancer Res 2024;84(3 Suppl_1):Abstract nr A085.
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