The XOR-IDH3α axis controls macrophage polarization in hepatocellular carcinoma

Abstract

Tumor-associated macrophages (TAMs) are indispensable in the hepatocellular carcinoma (HCC) tumor microenvironment. Xanthine oxidoreductase (XOR), also known as xanthine dehydrogenase (XDH), participates in purine metabolism, uric acid production, and macrophage polarization to a pro-inflammatory phenotype. However, the role of XOR in HCC-associated TAMs is unclear. We evaluated the XOR level in macrophages isolated from HCC tissues and paired adjacent tissues. We established DEN/carbon tetrachloride (CCl4)-induced and orthotopically implanted HCC mouse models using mice with Xdh-specific depletion in the myeloid cell lineage (Xdhf/fLyz2cre) or Kupffer cells (Xdhf/fClec4fcre). We determined metabolic differences using specific methodologies, including metabolomics and metabolic flux. We found that XOR expression was downregulated in HCC TAMs and positively correlated with patient survival, which was strongly related to the characteristics of the tumor microenvironment (TME), especially hypoxia. Using HCC-inflicted mice (Xdhf/fLyz2cre and Xdhf/fClec4fcre), we revealed that XOR loss in monocyte-derived TAMs rather than Kupffer cells promoted their M2 polarization and CD8+ T-cell exhaustion, which exacerbated HCC progression. In addition, the tricarboxylic acid cycle was disturbed, and the generation of α-ketoglutarate (α-KG) was enhanced within XOR-depleted macrophages. XOR inhibited α-KG production by interacting with IDH3α catalytic sites (K142 and Q139). The increased IDH3α activity caused increased adenosine and kynurenic acid production in the TAMs, which enhanced the immunosuppressive effects of the TAMs and CD8+ T cells. The XOR-IDH3α axis mediates TAM polarization and HCC progression and may be a small-molecule therapeutic or immunotherapeutic target against suppressive HCC TAMs. HCC is one of the cancers with the highest morbidity in the world, and its 5-year survival rate is low. Currently, lots of immunotherapies have been applied to the treatment of HCC, but the curative effects are not satisfactory. TME of HCC is full of different infiltrating immune cells. TAMs are vital components in TME and involved in HCC progression. Herein, we confirm the downregulation of XOR expression in TAMs isolated from human HCC tissues. The loss of XOR in monocyte-derived macrophages increases IDH3 activity and results in an increase in α-KG production, which can promote M2-like polarization. Additionally, XOR-null TAMs derived from monocytes promote CD8+ T-cell exhaustion via the upregulation of immunosuppressive metabolites, including adenosine and KYNA. Given the prevalence and high rate of incidence of HCC and the need for improved therapeutic options for patients, our findings identify potential therapeutic targets that may be further studied to develop improved therapies.