Availability of an inflammatory macrophage niche drives phenotypic and functional alterations in Kupffer cells

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Availability of an inflammatory macrophage niche drives phenotypic and functional alterations in Kupffer cells

Authors

Tian, L.; Huang, H.-Y.; Chen, Y.-z.; Zheng, X.-n.; Yue, J.-x.; Ju, H.-q.; Shi, Y.-x.

Abstract

Inflammatory signals lead to recruitment of circulating monocytes and induce their differentiation into disease-associated macrophages. Therefore, whether blocking inflammatory monocytes can mitigate disease progression is being actively evaluated. Here, we employed multiple lineage tracing models and confirmed that monocyte-derived macrophages (mo-macs) are the major population of liver metastasis-associated macrophages (LMAMs), while the population of Kupffer cells (KCs), liver-resident macrophages, is diminished in liver metastatic nodules. Paradoxically, genetic ablation of mo-macs resulted in only a marginal decrease in LMAMs. Using a proliferation recording system and a KC tracing model in a monocyte-deficient background, we found that LMAMs can be replenished either via increased local macrophage proliferation or by promoting KC infiltration. After occupying macrophage niches left vacant by monocyte depletion, KCs exhibit substantial phenotypic and functional alterations through epigenetic reprogramming. These data suggest that dual blockade of monocytes and macrophages could be used to effectively target immunosuppressive myelopoiesis and to reprogram the microenvironment towards an immunostimulatory state.

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