Macrophage sensitivity to bexmarilimab-induced reprogramming is shaped by the tumor microenvironment

Background Tumor-associated macrophages (TAMs) adapt to the tumor microenvironment (TME), either aiding cancer eradication or promoting tumor growth and immune evasion. To manipulate TAMs therapeutically, a deep understanding of their interaction with the TME is essential. This study explores the responsiveness of TMEs to bexmarilimab, a macrophage reprogramming therapy showing clinical benefit in various solid tumors. Methods We exploited a breast cancer patient-derived explant culture (PDEC) model to characterize bexmarilimab responses in both tumor and adjacent cancer-free tissues by RNA sequencing and multiplex cytokine profiling. Using single-cell RNA sequencing, spatial transcriptomics, and conditioned media treatment, we further investigated the effects of Clever-1+ macrophages and TME features on bexmarilimab sensitivity. Results The PDEC model captured key aspects of bexmarilimab’s mode of action and validated a gene signature for determining treatment sensitivity. We identified three distinct responses to bexmarilimab in tumors and adjacent cancer-free tissues, shaped by the local microenvironment and macrophage phenotype, origin, and localization. The inflammatory state of the TME emerged as the primary determinant of response. Immune activation occurred in immunologically cold TMEs lacking late-stage activated TAMs, whereas interferon-regulated TMEs exhibited suppressed inflammation. In cancer-free breast tissue, bexmarilimab activated B cell responses. Conclusions These findings reveal the complexity of TAM targeting in cancer and emphasize the need for patient selection to maximize bexmarilimab’s efficacy.