Chemoresistant tumor cell secretome potentiates immune suppression in triple negative breast cancer.

IF 5.6 1区医学 Q1 Medicine

Breast Cancer Research Pub Date : 2025-07-14 DOI:10.1186/s13058-025-02082-x

Eleni Skourti, Kotryna Seip, Nadia Mensali, Shakila Jabeen, Siri Juell, Inger Øynebråten, Solveig Pettersen, Olav Engebraaten, Alexandre Corthay, Else Marit Inderberg, Helmut Dolznig, Gunhild Mari Mælandsmo, Eivind Valen Egeland, Lina Prasmickaite

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引用次数: 0

Abstract

Background: Chemotherapy is an integral part of the clinical management of triple negative breast cancer (TNBC), however, development of chemoresistance occurs frequently. Tumor sensitivity to treatment is known to be strongly influenced by the immune microenvironment, signifying the predictive potential of immune alterations. How tumor cells that acquire resistance may subsequently modulate the immune microenvironment it is still not well described. Here, we investigated immunomodulation in the context of acquired chemoresistance in TNBC, focusing on the role of the secretome.

Methods: Bulk RNA sequencing and multiplex cytokine profiling were performed on paclitaxel-resistant and -sensitive isogenic variants of TNBC cells to reveal resistance-associated secretome alterations. The immunomodulatory influence of the tumor cell secretome was investigated by exploring its effect on monocytes, macrophages (MΦs) and T cells derived from healthy blood donors. The influence on the immune cell phenotype and activity was evaluated by measuring molecular markers and performing functional assays. To validate the clinical relevance, we utilized longitudinal -omics data from breast cancer patients refractory to standard chemotherapy in the NeoAva clinical trial. CIBERSORT was applied to transcriptomics data to infer MΦ and T cell abundance in individual tumors upon treatment. To evaluate their association with the secretome profiles, patient-matched serum cytokine data were used.

Results: The acquisition of chemoresistance was accompanied by enhanced secretion of cytokines. Subsequently, the resistant cell secretome affected the abundance, phenotype and activity of immune cells. Specifically, it potentiated the recruitment of monocytes, facilitated the polarization of MΦs towards the immunosuppressive M2-like phenotype, and attenuated the activation of CD8⁺ T cells. Data from the NeoAva clinical cohort validated the enrichment of M2 MΦs and/or the depletion of M1 MΦs after treatment in the majority of residual tumors. The MΦ-associated changes counteracted CD8⁺ T cell abundance and were partially associated with the cytokine-enriched secretome.

Conclusion: Development of chemoresistance in BC is associated with alterations in the tumor secretome, which impairs immune activation and facilitates immunosuppression. Knowledge on the immune microenvironment in residual tumors after standard chemotherapy could aid in selecting rational treatment options for this group of patients.

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化疗耐药肿瘤细胞分泌组增强三阴性乳腺癌的免疫抑制。

背景：化疗是三阴性乳腺癌（TNBC）临床治疗中不可或缺的一部分，然而，化疗耐药的发展经常发生。已知肿瘤对治疗的敏感性受到免疫微环境的强烈影响，这表明免疫改变的预测潜力。获得耐药性的肿瘤细胞如何随后调节免疫微环境仍未得到很好的描述。在这里，我们研究了TNBC获得性化疗耐药背景下的免疫调节，重点研究了分泌组的作用。方法：对紫杉醇耐药和敏感的TNBC细胞等基因变异进行大量RNA测序和多重细胞因子谱分析，以揭示与耐药相关的分泌组改变。通过探索肿瘤细胞分泌组对来自健康献血者的单核细胞、巨噬细胞（MΦs）和T细胞的影响，研究了肿瘤细胞分泌组的免疫调节作用。通过测量分子标记和进行功能分析来评估对免疫细胞表型和活性的影响。为了验证临床相关性，我们在NeoAva临床试验中使用了对标准化疗难治的乳腺癌患者的纵向组学数据。将CIBERSORT应用于转录组学数据，以推断治疗后个体肿瘤中的MΦ和T细胞丰度。为了评估它们与分泌组谱的关系，使用了患者匹配的血清细胞因子数据。结果：化疗耐药的产生伴随着细胞因子分泌的增加。随后，耐药细胞分泌组影响免疫细胞的丰度、表型和活性。具体来说，它增强了单核细胞的募集，促进MΦs向免疫抑制的m2样表型极化，并减弱了CD8+ T细胞的活化。来自NeoAva临床队列的数据验证了在大多数残余肿瘤治疗后M2 MΦs的富集和/或M1 MΦs的消耗。MΦ-associated的变化抵消了CD8+ T细胞的丰度，并与细胞因子富集的分泌组部分相关。结论：BC化疗耐药的发生与肿瘤分泌组的改变有关，这损害了免疫激活，促进了免疫抑制。了解标准化疗后残留肿瘤的免疫微环境有助于为这组患者选择合理的治疗方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Breast Cancer Research ONCOLOGY-

CiteScore

12.00

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Breast Cancer Research, an international, peer-reviewed online journal, publishes original research, reviews, editorials, and reports. It features open-access research articles of exceptional interest across all areas of biology and medicine relevant to breast cancer. This includes normal mammary gland biology, with a special emphasis on the genetic, biochemical, and cellular basis of breast cancer. In addition to basic research, the journal covers preclinical, translational, and clinical studies with a biological basis, including Phase I and Phase II trials.