(A) Generation of GFP⁺ cell lines that are resistant to targeted therapies. Cells were cultured with 1.0 μM of appropriate targeted therapy until resistant cells emerged and proliferated in culture. (B–D) Long-term coculture assays using GFP⁺ PC9 cells (B), GFP⁺ NCI-H3122 cells (C), or GFP⁺ NCI-H358 cells (D) that are resistant to the indicated targeted therapies. Anti-CD47 therapy significantly enhanced macrophage-mediated cytotoxicity of each resistant line relative to its naive parental counterpart. (E) Scatter plot showing results of comprehensive surface immunophenotyping of parental NCI-H358 cells versus a GFP⁺ sotorasib-resistant variant. Each dot represents the normalized mean fluorescence intensity (nMFI) of an individual surface antigen from a total of 354 specificities tested in 1 experiment. Antigens that exceed the 95% predicted interval on the parental line (red) or resistant line (blue) are indicated. (F) Treatment of parental NCI-H358 cells with the indicated targeted therapies causes downregulation of B2M (top) and CD73 (bottom) over time as measured by flow cytometry. ****P < 0.0001 for each drug treatment condition compared with time = 0 hours by 1-way ANOVA with Tukey’s multiple comparison test. (G) Evaluation of wild-type versus B2M KO lung cancer cell lines in long-term coculture assays with human macrophages. (H) Evaluation of wild-type versus CD73 KO PC9 cells in long-term coculture assays with human macrophages. (I) Treatment of PC9 cells with a CD73-blocking antibody alone or in combination with anti-CD47 in coculture assays with human macrophages. (B–D and G–I) Data represent experiments performed with n = 4–12 independent macrophage donors. Points represent individual cocultures, bars represent means at 6.5 days. *P < 0.05, **P < 0.001, ***P < 0.001, ****P < 0.0001 by 2-way ANOVA with Holm-Šidák multiple comparisons test; ^#GFP⁺ area was underrepresented due to high confluency and was not visually different by phase microscopy.