The receptor tyrosine kinases Axl and Mer, belonging to the Tyro3, Axl and Mer (TAM) receptor family, are expressed in a number of tumor cells and have well-characterized oncogenic roles. The therapeutic targeting of these kinases is considered an anticancer strategy, and various inhibitors are currently under development. At the same time, Axl and Mer are expressed in dendritic cells and macrophages and have an essential function in limiting inflammation. Inflammation is an enabling characteristic of multiple cancer hallmarks. These contrasting oncogenic and anti-inflammatory functions of Axl and Mer posit a potential paradox in terms of anticancer therapy. Here we demonstrate that azoxymethane (AOM) and dextran sulfate sodium (DSS)-induced inflammationassociated cancer is exacerbated in mice lacking Axl and Mer. Ablation of Axl and Mer signaling is associated with increased production of proinflammatory cytokines and failure to clear apoptotic neutrophils in the intestinal lamina propria, thereby favoring a tumor-promoting environment. Interestingly, loss of these genes in the hematopoietic compartment is not associated with increased colitis. Axl and Mer are expressed in radioresistant intestinal macrophages, and the loss of these genes is associated with an increased inflammatory signature in this compartment. Our results raise the possibility of potential adverse effects of systemic anticancer therapies with Axl and Mer inhibitors, and underscore the importance of understanding their tissue and cell type-specific functions in cancer.T he proto-oncogenes AXL and MER were first cloned from chronic myelogenous and lymphoblastic leukemia cells (1-3). Increased expression of AXL has been reported in lung, breast, ovarian, gastric, pancreatic, and prostate cancers; leukemias and lymphomas; melanoma; and glioblastoma multiforme (4, 5). Increased MER expression is associated with leukemias, lymphomas, melanoma, rhabdomyosarcomas, and gastric and prostate cancers (4-6). AXL and MER expression also has been directly correlated with poor prognosis in cancer (6-9). Moreover, ectopic expression of AXL has been shown to confer resistance to EGF receptor therapy in lung cancer (10, 11). Multiple studies have demonstrated AXL and MER function in survival, invasion, and metastasis in a variety of tumors (12-15); thus, attention has focused on the pharmacologic targeting of AXL and MER in cancer. Axl and Mer share structural homology in the kinase domain with other tyrosine kinases, including conserved molecular interactions with ATP; however, several unique features of the active site allow for selective inhibition (16), and small-molecule inhibitors as well as biologics are in preclinical development (6,(16)(17)(18)(19).Axl and Mer are associated with another distinct feature of cancer-inflammation. Tumor-promoting inflammation has been described as an enabling characteristic that promotes the acquisition of cancer hallmarks and orchestrates tumor progression (20). Chronic inflammation increases the risk of colorectal canc...
