Distinct indirect pathways govern human NK-cell activation by TLR-7 and TLR-8 agonists

Autor: Gorski, Kevin S., Waller, Emily L., Bjornton-Severson, Jacqueline, Hanten, John A., Riter, Christie L., Kieper, William C., Gorden, Keith B., Miller, Jeffrey S., Vasilakos, John P., Tomai, Mark A., Alkan, Sefik S.
Zdroj: International Immunology; July 2006, Vol. 18 Issue: 7 p1115-1126, 12p
Abstrakt: NK cells limit the emergence of cancers and viral infections by surveillance of ‘missing-self’ and ‘induced-self’ ligands, and by direct recognition of pathogen-associated molecules. We examined individual roles for Toll-like receptors (TLRs)-7 and -8 in human NK-cell activation using synthetic, small molecule agonists of either TLR-7 (imiquimod and 3M-001), TLR-8 (3M-002) or both TLR-7/8 (3M-003 and R-848) for comparison with known ligands of TLR-2 to -9. Tracking cytokine production in PBMC initially revealed that a subset of TLR agonists including polyinosinic–polycytidylic acid (poly I:C), 3M-002, 3M-003, R-848 and single-stranded RNA trigger relatively high levels of IFN-γ expression by NK cells. Isolated NK cells did not express TLR-7 or TLR-8. Unlike MALP-2 and poly I:C, 3M-001-3 did not induce expression of either CD69 or IFN-γ by purified NK cells suggesting indirect activation. IL-18 and IL-12p70 were primarily required for induction of IFN-γ by both synthetic and natural TLR-8 ligands, while type I IFN was required for induction of CD69 on NK cells by the TLR-7 agonist 3M-001. In addition to expression of IFN-γ and CD69, relative induction of NK-cell cytotoxicity by TLR-7 and TLR-8 agonists was compared. Immune response modifiers (IRMs) with a TLR-8 agonist component (3M-002 and 3M-003) stimulated greater levels of K562 cytolysis than achieved with 3M-001 or IL-2 (1000 units ml−1). In vivo NK-cell cytotoxicity was also enhanced by R-848, but not in type I IFNR-deficient mice. We conclude that IRMs can modulate NK-cell function both in vitro and in vivo and that distinct indirect pathways control human NK-cell activation by TLR-7 and TLR-8 agonists.
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