Fungal‐induced glycolysis in macrophages promotes colon cancer by enhancing innate lymphoid cell secretion of IL‐22
Yanan Zhu, Tao Shi, Xia Lu, Zhen Xu, Junxing Qu, Zhiyong Zhang, Guo‐Ping Shi, Sunan Shen, Yayi Hou, Yugen Chen, Tingting Wang
Abstract
Incorporation of microbiome data has recently become important for prevention, diagnosis, and treatment of colorectal cancer, and several species of bacteria were shown to be associated with carcinogenesis. However, the role of commensal fungi in colon cancer remains poorly understood. Here, we report that mice lacking the c‐type lectin Dectin‐3 (Dectin‐3−/−) show increased tumorigenesis and Candida albicans burden upon chemical induction. Elevated C. albicans load triggered glycolysis in macrophages and interleukin‐7 (IL‐7) secretion. IL‐7 induced IL‐22 production in RORγt+ (group 3) innate lymphoid cells (ILC3s) via aryl hydrocarbon receptor and STAT3. Consistently, IL‐22 frequency in tumor tissues of colon cancer patients positively correlated with fungal burden, indicating the relevance of this regulatory axis in human disease. These results establish a C. albicans‐driven crosstalk between macrophages and innate lymphoid cells in the intestine and expand our understanding on how commensal mycobiota regulate host immunity and promote tumorigenesis. Contribution of gut‐resident mycobiota and their host recognition receptors to colitis‐associated colon cancer (CAC) remains unclear. Here, deficiency in the surface lectin Dectin‐3 is shown to induce fungal dysbiosis and tumorigenesis in mice, skewing immune cell metabolism and cytokine signaling. Lack of the Candida albicans recognition receptor Dectin‐3 in mice triggers aberrant immune cell metabolism and tumorigenic cytokine signaling.