AI Article Synopsis
- Triple negative breast cancer (TNBC) has limited treatment options, but HIF-1α inhibitor YC-1 showed promise in reducing TNBC growth and angiogenesis by inducing apoptosis and decreasing microvascular density.
- Genetic screening revealed that M2-polarized tumor-associated macrophages (TAMs) accumulate in hypoxic areas of TNBC, and YC-1 shifts these macrophages towards an M1 phenotype, further suppressing tumor progression.
- These findings suggest that targeting HIF-1α and modulating TAM polarization could be viable strategies for treating TNBC in future clinical applications.
Article Abstract
Triple negative breast cancer (TNBC) is an invasive and metastatic phenotype of breast cancer with limited treatment options. Published studies have demonstrated an inhibitory effect of HIF-α inhibition by its inhibitor YC-1 (lificiguat) on growth and angiogenesis of TNBC. However, the underlying mechanism remains poorly understood. In the current paper, our results show that HIF-1α inhibitor significantly inhibited TNBC growth by increasing cellular apoptosis and decreasing MVD, independent of a cell-autonomous mechanism in both endothelial and tumor cells. Genetic screening and in vivo experiments showed that a large number of M2-polarized TAMs accumulated in the hypoxic peri-necrotic region (PNR), where placental growth factor (PlGF) and its ligand, vascular endothelial growth factor receptor-1 (VEGFR-1) were upregulated. Furthermore, YC-1 skewed the polarization of TAMs away from M2 to M1 phenotype, therefore inhibiting TNBC angiogenesis and growth. This effect was further abrogated by VEGFR-1 neutralization and TAM depletion following clodronate liposome injection. These findings provide preclinical evidence for an indirect mechanism underlying YC-1-induced suppression of TNBC growth and angiogenesis, thereby offering a treatment option for TNBC.
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| http://dx.doi.org/10.1016/j.biopha.2023.114423 | DOI Listing |
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