Pan-cancer analysis of phagocytosis regulators in female-specific cancers: a focus on HMGB2
Xiaoqin Lu, Dan Ren, Panpan Zhao, Yanfang Li, Zhenhui Wang, Jingyan Zhang

TL;DR
This study explores how phagocytosis regulators, especially HMGB2, influence female-specific cancers and suggests targeting HMGB2 as a potential treatment strategy.
Contribution
The study identifies HMGB2 as a key phagocytosis regulator in female-specific cancers and demonstrates its therapeutic potential.
Findings
HMGB2 knockdown significantly reduced cancer cell proliferation, migration, and invasion in female-specific cancers.
Phagocytosis regulators like CD47 and FOXO1 play significant roles in tumor progression.
Combining HMGB2 knockdown with Palbociclib treatment led to reduced tumor cell proliferation in multiple cancer models.
Abstract
Tumor-associated macrophages (TAMs) play a crucial role in the tumor microenvironment, regulating immune escape and promoting cancer progression. Understanding the role of phagocytosis regulators in female-specific cancers is essential for developing effective therapeutic strategies. We performed comprehensive analyses of public databases to evaluate the expression, somatic mutations, and copy number variations of phagocytosis regulators. DNA methylation patterns, biological pathways, survival outcomes, and drug sensitivity were assessed. Additionally, immune modulators, immune cell infiltration, and single-cell sequencing were used to explore alterations in phagocytosis and their cellular origins. The functional role of HMGB2 in tumor cell behavior was validated through in vitro assays. Phagocytosis regulators exhibited differential expression across various female-specific cancers,…
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Taxonomy
TopicsPhagocytosis and Immune Regulation · Immune cells in cancer · Adenosine and Purinergic Signaling
