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

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. Highlights: Tumor microenvironment (TME) is a critical determinant of tumor behavior.Tumor‐associated macrophages (TAM) plays a crucial role in the TME.TAMs are a diverse population of immune cells that can exhibit different phenotypes or functions.TAMs can switch between different activation states or phenotypes.Numerous preclinical and clinical studies have revealed that targeting TAMs can be an effective approach towards tumor treatment. [ABSTRACT FROM AUTHOR]