TLR2 controls random motility, while TLR7 regulates chemotaxis of microglial cells via distinct pathways

- TLR2 signaling controls random motility in cultured mouse microglia.
- TLR7 signaling controls chemotaxis.
- Both pathways rely on PI3K and Rac activation.
- Akt phosphorylation is only required for the TLR2 pathway.

Microglial cells are the pathologic sensor of the brain, and any pathologic event triggers microglial activation, which involves migration of these cells to a lesion site. Employing different migration assays, we show that ligands for toll-like receptor (TLR) 2 stimulate random motility, while TLR7 ligands are chemoattractants. The subtype specificity of the TLR ligands was verified by using different TLR-deficient (TLRKO) mouse lines. PI3K and Rac inhibition impairs both TLR2- and TLR7-stimulated microglial migration. In contrast, Akt phosphorylation is only required for the TLR2-, but not for the TLR7-stimulated pathway. Interestingly, P2Y12 receptor signaling is involved in the TLR2 activation-induced microglial migration but not TLR7. Furthermore, TLR7 mRNA expression is down-regulated by TLR2 and TLR7 activation. We conclude that TLRs control the migratory behavior of microglia in a distinct manner.