Tumor-associated macrophages: A sentinel of innate immune system in tumor microenvironment gone haywire

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Shaivy Malik, Niti Sureka, Sana Ahuja, Durre Aden, Samreen Zaheer, Sufian Zaheer
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Abstract

The tumor microenvironment (TME) is a critical determinant in the initiation, progression, and treatment outcomes of various cancers. Comprising of cancer-associated fibroblasts (CAF), immune cells, blood vessels, and signaling molecules, the TME is often likened to the soil supporting the seed (tumor). Among its constituents, tumor-associated macrophages (TAMs) play a pivotal role, exhibiting a dual nature as both promoters and inhibitors of tumor growth. This review explores the intricate relationship between TAMs and the TME, emphasizing their diverse functions, from phagocytosis and tissue repair to modulating immune responses. The plasticity of TAMs is highlighted, showcasing their ability to adopt either protumorigenic or anti-tumorigenic phenotypes based on environmental cues. In the context of cancer, TAMs' pro-tumorigenic activities include promoting angiogenesis, inhibiting immune responses, and fostering metastasis. The manuscript delves into therapeutic strategies targeting TAMs, emphasizing the challenges faced in depleting or inhibiting TAMs due to their multifaceted roles. The focus shifts towards reprogramming TAMs to an anti-tumorigenic M1-like phenotype, exploring interventions such as interferons, immune checkpoint inhibitors, and small molecule modulators. Noteworthy advancements include the use of CSF1R inhibitors, CD40 agonists, and CD47 blockade, demonstrating promising results in preclinical and clinical settings. A significant section is dedicated to Chimeric Antigen Receptor (CAR) technology in macrophages (CAR-M cells). While CAR-T cells have shown success in hematological malignancies, their efficacy in solid tumors has been limited. CAR-M cells, engineered to infiltrate solid tumors, are presented as a potential breakthrough, with a focus on their development, challenges, and promising outcomes. The manuscript concludes with the exploration of third-generation CAR-M technology, offering insight into in-vivo reprogramming and nonviral vector approaches. In conclusion, understanding the complex and dynamic role of TAMs in cancer is crucial for developing effective therapeutic strategies. While early-stage TAM-targeted therapies show promise, further extensive research and larger clinical trials are warranted to optimize their targeting and improve overall cancer treatment outcomes.

肿瘤相关巨噬细胞:肿瘤微环境失控时先天免疫系统的哨兵
肿瘤微环境(TME)是决定各种癌症的发生、发展和治疗效果的关键因素。肿瘤微环境由癌症相关成纤维细胞(CAF)、免疫细胞、血管和信号分子组成,通常被比喻为支撑种子(肿瘤)的土壤。在其组成成分中,肿瘤相关巨噬细胞(TAMs)扮演着举足轻重的角色,具有双重性质,既是肿瘤生长的促进因素,也是肿瘤生长的抑制因素。这篇综述探讨了 TAMs 与 TME 之间错综复杂的关系,强调了它们从吞噬和组织修复到调节免疫反应的多种功能。文章强调了TAMs的可塑性,展示了它们根据环境线索采用原致癌表型或抗致癌表型的能力。在癌症方面,TAMs 的促致癌活动包括促进血管生成、抑制免疫反应和促进转移。手稿深入探讨了针对 TAMs 的治疗策略,强调了由于 TAMs 的多方面作用,在消耗或抑制 TAMs 方面所面临的挑战。重点转向将 TAMs 重编程为抗肿瘤的 M1 类表型,探索干扰素、免疫检查点抑制剂和小分子调节剂等干预措施。值得注意的进展包括 CSF1R 抑制剂、CD40 激动剂和 CD47 阻断剂的使用,这些药物在临床前和临床环境中都取得了可喜的成果。有很大一部分内容是关于巨噬细胞(CAR-M 细胞)中的嵌合抗原受体(CAR)技术。虽然 CAR-T 细胞在血液恶性肿瘤中取得了成功,但在实体瘤中的疗效却很有限。本文介绍了可浸润实体瘤的CAR-M细胞,将其作为一项潜在的突破,并重点阐述了其发展、挑战和有望取得的成果。手稿最后探讨了第三代 CAR-M 技术,深入介绍了体内重编程和非病毒载体方法。总之,了解 TAMs 在癌症中复杂而动态的作用对于开发有效的治疗策略至关重要。虽然早期的 TAM 靶向疗法前景看好,但仍需进一步开展广泛研究和更大规模的临床试验,以优化其靶向性并改善整体癌症治疗效果。
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
CiteScore
7.20
自引率
4.30%
发文量
567
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