Flavescence doree phytoplasma enters insect cells by a clathrin-mediated endocytosis allowing infection of its insect vector

To perform its propagative and circulative cycle into its insect vector, the flavescence doree phytoplasma invades different cell types. Clathrin-mediated endocytosis is used by a wide range of bacteria to infect eukaryote cells. Among the insect proteins interacting with the phytoplasma adhesin VmpA, we identified the adaptor protein complex AP-1 and AP-2 suggesting that phytoplasmas could enter the insect cells via clathrin-mediated endocytosis. By infection assays of insect cells in culture, we showed that phytoplasmas entry into Drosophila S2 cells was more efficient than infection of the Euva cell line developed from the insect vector Euscelidius variegatus. Chlorpromazine, cytochalasin D and knockdown of clathrin heavy chain (chc) gene expression using RNA interference inhibited entry of phytoplasmas into S2 cells. During invasion of S2 cells, phytoplasmas were observed very closed to recombinant GFP-labelled clathrin light chain. To verify the role of clathrin in the insect colonization by phytoplasmas, RNAi was performed via artificial feeding of chc dsRNA by the vector E. variegatus. This decreased the expression of chc gene in the midgut and heads of E. variegatus. The chc lower expression correlated to a decreased of midgut and salivary gland cells colonization after the insects had ingested phytoplasmas from infected plants. In conclusion, results indicate that clathrin is important for the FD phytoplasma to enter insect cells and colonize its insect vector.

Automated summary

To infect its insect vector, the flavescence doree phytoplasma invades different cell types using clathrin-mediated endocytosis. In this study, we found that the phytoplasmas could enter insect cells via clathrin-mediated endocytosis by interacting with the adaptor protein complexes AP-1 and AP-2. Inhibition of clathrin activity or knockdown of clathrin heavy chain gene expression decreased phytoplasma entry into insect cells, confirming the importance of clathrin in the colonization of the insect vector.