RAB5A 使巨噬细胞极化并促进乳腺癌的发生。

Endocrine-related cancer Pub Date : 2024-04-12 Print Date: 2024-05-01 DOI:10.1530/ERC-23-0257
Lei Qiao, Chao Dong, Wenlei Jia, Gang Sun
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引用次数: 0

摘要

乳腺癌是女性因癌症死亡的主要原因,而三阴性乳腺癌(TNBC)是乳腺癌的主要亚型之一,预后较差,治疗手段有限。研究其分子基础或发现相关的致癌基因将大大有助于开发有效的靶向疗法。在这项研究中,我们发现 TNBC 细胞中 RAB5A 的缺失会抑制外泌体的分泌,并阻止巨噬细胞向 M2 表型极化。通过扫描与巨噬细胞极化相关的miRNA,我们发现miR-21是肿瘤细胞衍生的外泌体中的关键成分,在RAB5A介导的巨噬细胞极化中起着关键作用。miR-21在巨噬细胞中表达的增强能够在肿瘤细胞存在的情况下增强巨噬细胞的M2极化。Pellino-1 (PELI1)随后被确定为 miR-21 的靶标,强迫 PELI1 的表达部分减弱了 miR-21 过表达诱导的巨噬细胞 M2 极化。用去除了 RAB5A 的 TNBC 细胞(共培养、条件培养基或外泌体)刺激巨噬细胞,会削弱它们促进肿瘤细胞增殖、迁移和侵袭的能力。体内异种移植实验进一步证实,RAB5A基因敲除的TNBC细胞表现出肿瘤形成减少和肿瘤相关巨噬细胞招募受损。这些研究揭示了外泌体miR-21依赖型RAB5A介导巨噬细胞极化的潜在内在机制,为开发基于RAB5A或外泌体的肿瘤治疗策略提供了实验基础。
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RAB5A in triple-negative breast cancer: a critical role in macrophage reshaping in an exosomal miR-21-dependent manner.

Breast cancer is the leading cause of cancer-related deaths in females, and triple-negative breast cancer (TNBC) is characterized as one of the main subtypes of breast cancer, with poor prognosis and limited treatments. Investigating the molecular basis or discovering relevant oncogenes will greatly help in developing effective targeted therapies. In this study, we ascertained that RAB5A depletion in TNBC cells suppresses the secretion of exosomes and blocks the polarization of macrophages toward an M2 phenotype. By scanning miRNAs associated with macrophage polarization, we identified that miR-21 was the pivotal component in tumor cell-derived exosomes and played a key role in RAB5A-mediated macrophage polarization. The enhanced expression of miR-21 in macrophages is able to potentiate the M2 polarization of macrophages in the presence of tumor cells. Pellino-1 (PELI1) was subsequently identified as the target of miR-21, and forced PELI1 expression partially abrogated the M2 polarization of macrophages induced by miR-21 overexpression. Macrophages stimulated with RAB5A-depleted TNBC cells (coculture, conditioned medium or exosomes) impaired their capability to promote the proliferation, migration, and invasion of tumor cells. In vivo xenograft experiments further confirmed that RAB5A knockdown TNBC cells exhibited reduced tumor formation and impaired tumor-associated macrophage recruitment. These studies shed light on the potential underlying mechanism of RAB5A-mediated macrophage polarization in an exosomal miR-21-dependent manner and provide an experimental basis for the development of RAB5A- or exosome-based tumor therapeutic strategies.

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