Abstract
C-type lectin receptors (CLRs) are an emerging family of pattern recognition receptors that recognizes pathogens or damaged tissue to trigger innate immune responses. However, endogenous ligands for CLRs are not fully understood. In this study, we sought to identify an endogenous ligand(s) for human macrophage-inducible C-type lectin (hMincle). A particular fraction of lipid extracts from liver selectively activated reporter cells expressing hMincle. MS analysis determined the chemical structure of the active component as cholesterol. Purified cholesterol in plate-coated and crystalized forms activates reporter cells expressing hMincle but not murine Mincle (mMincle). Cholesterol crystals are known to activate immune cells and induce inflammatory responses through lysosomal damage. However, direct innate immune receptors for cholesterol crystals have not been identified. Murine macrophages transfected with hMincle responded to cholesterol crystals by producing pro-inflammatory cytokines. Human dendritic cells expressed a set of inflammatory genes in response to cholesterol crystals, and this was inhibited by anti-human Mincle. Importantly, other related CLRs did not bind cholesterol crystals, whereas other steroids were not recognized by hMincle. These results suggest that cholesterol crystals are an endogenous ligand for hMincle and that they activate innate immune responses.
Highlights
Cholesterol crystals are involved in various chronic inflammatory diseases; direct pattern recognition receptors (PRRs) recognizing cholesterol crystals have not been identified
Reporter cells transfected with FcR␥ alone or together with human macrophage-inducible C-type lectin (hMincle) were stimulated with each fraction in plate-coated form
Reporter cells expressing hMincle selectively responded to Fraction #7-15 with relatively high Rf values (Fig. 1B), suggesting that hMincle binds to low polarity lipid(s)
Summary
Cholesterol crystals are involved in various chronic inflammatory diseases; direct pattern recognition receptors (PRRs) recognizing cholesterol crystals have not been identified. Cholesterol is an essential membrane component for the maintenance of cell integrity and fluidity and for a wide variety of biological activities [11] It has long been recogreceptor; DAMP, damage-associated molecular pattern; hMincle, human Mincle; murine Mincle, mMincle; MCL, macrophage C-type lectin; DC, dendritic cell; hMo-DC, human monocyte-derived DC; ITAM, immunoreceptor tyrosine-based activation motif; TDM, trehalose 6,6Ј-dimycolate; FcR, Fc receptor; TMS, trimethylsilyl; NFAT, nuclear factor of activated T-cells; C:M, chloroform:methanol; HPTLC, high performance thin-layer chromatography; CRAC, cholesterol recognition/interaction amino acid consensus; Ig, hIgG1-Fc. CCCATTCTGATTCTTGACACC nized that excessive intake of cholesterol leads to hypercholesterolemia and results in the formation of cholesterol crystals [12, 13]. We identify cholesterol crystals as endogenous ligands for hMincle and find that this interaction activates myeloid cells to produce pro-inflammatory molecules
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