HSPA5-mediated glioma hypoxia tolerance promotes M2 macrophage polarization under hypoxic microenvironment.

IF 4.8 2区医学 Q2 IMMUNOLOGY International immunopharmacology Pub Date : 2025-02-06 Epub Date: 2024-12-30 DOI:10.1016/j.intimp.2024.113856

He Yang, Yanpeng Xue, Qing Jiang, Qingqing Tian, Jiayi Xu, Jixuan Li, Quan Yang, Mingdong Du, Teng Yang, Xingwang Wei, Mei Zhao, Tao Yan, Xin Chen, Lixian Li

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Abstract

Background: The tumor microenvironment (TME), with hallmark features of hypoxia and immunosuppression, plays a crucial role in the progression of various solid tumors. However, the intricate interplay between tumor hypoxia and the formation of tumor immune microenvironment in glioma remains incompletely understood.

Methods: In the present study, we initially identified genes associated with tumor hypoxia and the immune microenvironment through GSEA and IMMPORT database analysis. We subsequently identified hypoxia- and immune-related genes associated with glioma prognosis through further cross-analysis and multidatabase integrated analysis. HSPA5 was ultimately identified as a potential target gene related to the formation of the hypoxic microenvironment and immune microenvironment in glioma. Furthermore, we conducted MTT, colony formation, EdU, migration and invasion assays and intracranial orthotopic tumor model analysis to further evaluate the impact of interfering with HSPA5 expression on the hypoxic and immune microenvironments of glioma.

Results: We found that HSPA5 is highly expressed in glioma cells and tissues and is associated with a poor prognosis. Further investigation revealed that hypoxia promotes the malignant biological characteristics of glioma and reshaping the Immunosuppressive phenotype of tumor-associated macrophages (TAMs) through upregulation of the HIF-1α/HSPA5 axis. Silencing HSPA5 alleviated glioma hypoxia tolerance and induced the polarization of TAMs toward the M1 phenotype. The induced macrophages could exhibit a tumor-suppressive effect.

Conclusion: These observations suggest that HSPA5 upregulation promotes glioma progression by inducing hypoxia tolerance and reshaping the Immunosuppressive phenotype of TAMs. Therefore, targeting HSPA5 may be a novel therapeutic strategy for glioma.

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hspa5介导的胶质瘤缺氧耐受性促进缺氧微环境下M2巨噬细胞极化。

背景：肿瘤微环境（tumor microenvironment， TME）以缺氧和免疫抑制为特征，在各种实体瘤的进展中起着至关重要的作用。然而，胶质瘤中肿瘤缺氧与肿瘤免疫微环境形成之间复杂的相互作用尚不完全清楚。方法：在本研究中，我们通过GSEA和import数据库分析初步鉴定出与肿瘤缺氧和免疫微环境相关的基因。随后，我们通过进一步的交叉分析和多数据库综合分析确定了与胶质瘤预后相关的缺氧和免疫相关基因。HSPA5最终被确定为与胶质瘤缺氧微环境和免疫微环境形成相关的潜在靶基因。此外，我们通过MTT、集落形成、EdU、迁移和侵袭试验以及颅内原位肿瘤模型分析，进一步评估干扰HSPA5表达对胶质瘤缺氧和免疫微环境的影响。结果：我们发现HSPA5在胶质瘤细胞和组织中高表达，并与不良预后相关。进一步研究发现，缺氧通过上调HIF-1α/HSPA5轴，促进胶质瘤的恶性生物学特征，重塑肿瘤相关巨噬细胞（tumor-associated macrophages, tam）的免疫抑制表型。沉默HSPA5可减轻胶质瘤缺氧耐受性，诱导tam向M1表型极化。诱导的巨噬细胞具有抑制肿瘤的作用。结论：这些观察结果表明，HSPA5上调通过诱导缺氧耐受性和重塑tam的免疫抑制表型来促进胶质瘤的进展。因此，靶向HSPA5可能是一种新的胶质瘤治疗策略。

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来源期刊

International immunopharmacology 医学-免疫学

CiteScore

8.40

自引率

3.60%

发文量

935

审稿时长

53 days

期刊介绍： International Immunopharmacology is the primary vehicle for the publication of original research papers pertinent to the overlapping areas of immunology, pharmacology, cytokine biology, immunotherapy, immunopathology and immunotoxicology. Review articles that encompass these subjects are also welcome. The subject material appropriate for submission includes: • Clinical studies employing immunotherapy of any type including the use of: bacterial and chemical agents; thymic hormones, interferon, lymphokines, etc., in transplantation and diseases such as cancer, immunodeficiency, chronic infection and allergic, inflammatory or autoimmune disorders. • Studies on the mechanisms of action of these agents for specific parameters of immune competence as well as the overall clinical state. • Pre-clinical animal studies and in vitro studies on mechanisms of action with immunopotentiators, immunomodulators, immunoadjuvants and other pharmacological agents active on cells participating in immune or allergic responses. • Pharmacological compounds, microbial products and toxicological agents that affect the lymphoid system, and their mechanisms of action. • Agents that activate genes or modify transcription and translation within the immune response. • Substances activated, generated, or released through immunologic or related pathways that are pharmacologically active. • Production, function and regulation of cytokines and their receptors. • Classical pharmacological studies on the effects of chemokines and bioactive factors released during immunological reactions.