Abstract Aims To investigate the immune microenvironment modulation via the interaction between human iNKT cells and KC, DC in colorectal liver metastasis. Methods Different subtypes of iNKT cells, KC and DC from the core of tumor (CT), tumor invasive margin (IM), and adjacent normal liver tissue (NL) were analyzed by BD LSRFortessa™, TMA, and immunofluorescence(n=138). Ex vivo 3D co-culture, Quansys Multiplex array, and Elisa array were performed. Results In metastasis, CXCR6+iNKT positively correlated with better prognosis. In addition, iNKT cells were enriched at IM, especially iNKT2. Intriguingly, although there were few iNKT cells in CT, the iNKT/Lymphocytes rate increased to ~5 folds and expressed elevated IL9, IFNγ, and FasL compared to NL and IM. This implied the critical role of iNKT cells in tumor control. Both DC and KC could drive iNKT activation, the proportion of BDCA-3+DCs significantly increased from NL to CT; though they expressed higher CXCL16 compared to other subtypes, the capability of activating iNKT cells via CD1d was less strong than plasmacytoid DC(pDC). pDCs showed significantly elevated α-GalCer: CD1d complex formation in an ex vivo iNKT cells activation assay, which implied its critical role of activating capability of pDC. However, pDCs, as well as BDCA-1+DCs, decreased from NL to CT. In this study, KC was found also activating iNKT cells. Interestingly, iNKT expressed Th2 cytokines when activated by KC, however, Th1 biased response could be found when activated with DC. In addition, KC subsets also differed with location. Furthermore, transmembrane CD1d density and intra/tmCXCL16 expression, Th1/2/17 biased immune responses of KC and DC were associated with the lipid metabolism preferences of these cells.