Background and aims: HSCs contribute to HCC progression by regulating multiple factors. However, the entire immunoregulatory functions of HSCs are still obscure. Here, we aim to investigate whether HSCs impose CX 3 CR1 + macrophages to protumorigenic properties in the peritumoral area.
Approach and results: In single-cell RNA-sequencing analysis of patients with HCC, a subpopulation of macrophages specifically expressed Arg1 and Cx3cr1 in the peritumoral area and were highly enriched with retinol metabolism-related genes. Flow cytometry analysis showed significantly increased frequencies of CD14 + CD11b + HLA-DR - macrophages with CX 3 CR1 in the HCC adjacent region where α-smooth muscle actin-expressing activated hepatic stellate cells (aHSCs) showed colocalized expression of CX 3 CL1. Accordingly, in tumor-bearing mice, Cx3cl1 mRNA expression was notably increased in aHSCs within the adjacent HCC, where infiltration of CX 3 CR1 + Ly6C + macrophages was mostly observed with decreased CD8 + T cells. In adoptive transfer and in vitro coculture of myeloid cells, we demonstrated that CX 3 CR1 + Ly6C + macrophages migrated and highly expressed arginase-1 by interacting with retinoid-enriched aHSCs in the adjacent HCC. Direct treatment of retinoids or coculturing with retinol-storing mouse aHSCs or human LX-2 cells significantly increased arginase-1 expression in CX 3 CR1 + Ly6C + macrophages and human blood CD14 + cells, leading to the suppression of CD8 + T-cell proliferation. Moreover, genetic deficiency of CX 3 CR1 in myeloid cells or pharmacological inhibition of retinol metabolism remarkably attenuated HCC development.
Conclusions: We showed that CX 3 CR1 + Ly6C + macrophages migrate and interact with aHSCs in the peritumoral region where retinoids induce arginase-1 expression in CX 3 CR1 + Ly6C + macrophages, subsequently depriving CD8 + T cells of arginine and promoting HCC.
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