Unleashing the Power of Yes-Associated Protein in Ferroptosis and Drug Resistance in Breast Cancer, with a Special Focus on Therapeutic Strategies.

The YAP protein is a critical oncogenic mediator within the Hippo signaling pathway and has been implicated in various cancer types. In breast cancer, it frequently becomes activated, thereby contributing to developing drug-resistance mechanisms. Recent studies have underscored the intricate interplay between YAP and ferroptosis within the breast tumor microenvironment. YAP exerts a negative regulatory effect on ferroptosis, promoting cancer cell survival and drug resistance. This review offers a concise summary of the current understanding surrounding the interplay between the YAP pathway, ferroptosis, and drug-resistance mechanisms in both bulk tumor cells and cancer stem cells. We also explore the potential of natural compounds alone or in combination with anticancer therapies for targeting the YAP pathway in treating drug-resistant breast cancer. This approach holds the promise of enhancing the effectiveness of current treatments and paving the way for developing novel therapeutics.

Insights into the potential of Sanguinarine as a promising therapeutic option for breast cancer.

Breast cancer (BC) is one of the leading causes of cancer-related deaths in women worldwide. The tumor microenvironment (TME) plays a crucial role in the progression and metastasis of BC. A significant proportion of BC is characterized by a hypoxic TME, which contributes to the development of drug resistance and cancer recurrence. Sanguinarine (SAN), an isoquinoline alkaloid found in Papaver plants, has shown promise as an anticancer agent. The present review focuses on exploring the molecular mechanisms of hypoxic TME in BC and the potential of SAN as a therapeutic option. The review presents the current understanding of the hypoxic TME, its signaling pathways, and its impact on the progression of BC. Additionally, the review elaborates on the mechanisms of action of SAN in BC, including its effects on vital cellular processes such as proliferation, migration, drug resistance, and tumor-induced immune suppression. The review highlights the importance of addressing hypoxic TME in treating BC and the potential of SAN as a promising therapeutic option.

γδ T Cell-Mediated Immune Responses for Cancer Therapy: Special Focus on Breast Cancer.

Triple-negative breast cancer (TNBC) is a type of breast cancer (BC) with high aggressive nature, devoid of receptors for estrogen and progesterone hormones and with overexpression of the HER2/neu protein. It is more aggressive than other types of BC, common occurring in younger women. Recently, preclinical and clinical studies have investigated the use of immune therapies to treat TNBC patients. However, a subset of patients is responding to immunotherapy due to the high level of tumor mutation burden. The bidirectional communication among the tumor microenvironment (TME) cells via signal molecules modulates γδ T cells to support or impair tumor growth. This review emphasizes γδ T cell-mediated immune responses with a special focus on breast cancer. We present the cytotoxic characteristics of γδ T cells. We also present the promising role of γδ T cells in mounting pro-tumor and anti-tumor responses in the TME. Finally, our review focuses on prominent features of γδ T cells as a curse in breast cancer development.