Endogenous Toll-Like Receptor 9 Regulates AKI by Promoting Regulatory T Cell Recruitment.

Toll-like receptor 9 (TLR9) enhances proinflammatory responses, but whether it can act in a regulatory capacity remains to be established. In experimental murine AKI induced by cisplatin, Tlr9(-/-) mice developed enhanced renal injury and exhibited fewer intrarenal regulatory T cells (Tregs) compared with genetically intact mice. A series of reconstitution and depletion studies defined a role for TLR9 in maintaining Treg-mediated homeostasis in cisplatin-induced AKI. When Rag1(-/-) mice were reconstituted with nonregulatory CD25(-) splenocytes from wild-type (WT) or Tlr9(-/-) mice, AKI was similarly enhanced. However, when Rag1(-/-) mice were reconstituted with CD4(+)CD25(+) regulatory cells, WT CD4(+)CD25(+) cells were more renoprotective and localized to the kidney more efficiently than Tlr9(-/-) CD4(+)CD25(+) cells. In Treg-depleted Foxp3(DTR) mice, reconstitution with naive WT CD4(+)CD25(+) cells resulted in less severe AKI than did reconstitution with Tlr9(-/-) Tregs. Tlr9(-/-) mice were not deficient in CD4(+)CD25(+) cells, and WT and TLR9-deficient Tregs had similar suppressive function ex vivo. However, expression of adhesion molecules important in Treg trafficking was reduced on peripheral CD4(+)CD25(+) cells from Tlr9(-/-) mice. In conclusion, we identified a pathway by which TLR9 promotes renal Treg accumulation in AKI.

Innate IL-17A-producing leukocytes promote acute kidney injury via inflammasome and Toll-like receptor activation.

In acute kidney injury, which is a significant cause of morbidity and mortality, cytokines and leukocytes promote inflammation and injury. We examined the pathogenic role of IL-17A in cisplatin-induced acute kidney injury. Intrarenal IL-17A mRNA transcription and protein expression were increased in wild-type mice after cisplatin-induced renal injury. An important role for IL-17A in the nephrotoxicity of cisplatin was demonstrated by observing protection from cisplatin-induced functional and histological renal injury in Il17a(-/-) and Rorγt(-/-) mice, as well as in mice treated pre-emptively with anti-IL-17A antibodies. Both renal injury and renal IL-1ß and IL-17A production were attenuated in Asc(-/-) and Tlr2(-/-) mice, suggesting that cisplatin induces endogenous TLR2 ligand production and activates the ASC-dependent inflammasome complex, resulting in IL-1ß and injurious IL-17A production. Neutrophils and natural killer cells are the likely targets of these pathways, because combined depletion of these cells was strongly protective; anti-IL-17A antibodies had no additional effect in this setting. Although IL-17A can also be produced by CD4(+) and γδ T cells, IL-17A from those cells does not contribute to renal injury. Cisplatin-induced injury was unchanged in γδ T-cell-deficient mice, whereas Il17a(-/-) CD4(+) T cells induced similar injury as did wild-type CD4(+) T cells on transfer to cisplatin-injected Rag1(-/-) mice. These studies demonstrate an important role for TLR2, the ASC inflammasome, and IL-17A in innate leukocytes in cisplatin-induced renal injury.