| Popis: |
Ras-Erk MAPK signaling controls many of the principal pathways involved in metazoan cell motility, drives metastasis of multiple cancer types and is targeted in chemotherapy. Yet, its putative roles in immune cell functions or in infections have remained elusive. Here, using primary dendritic cells (DCs) in an infection model with the protozoanToxoplasma gondii, we show that two pathways activated by infection converge on Ras-Erk MAPK signaling to promote migration of parasitized DCs. We identify signaling through the receptor tyrosine kinase Met (also known as HGFR) as a driver ofT. gondii-induced DC hypermotility. Further, we show that voltage-gated Ca2+channel (VGCC, subtype CaV1.3) signaling impacts the migratory activation of DCs via calmodulin-calmodulin kinase II. We report that VGCC and Met signaling converge on Ras GTPase to drive Erk1/2 phosphorylation and migratory activation ofT. gondii-infected DCs. The data provide a molecular basis for the hypermigratory mesenchymal-to-amoeboid transition (MAT) of parasitized DCs. The emerging concept suggests that parasitized DCs acquire metastasis-like migratory properties to promote infection-related dissemination. |
