Parasitoid wasp venom vesicles (venosomes) enter Drosophila melanogaster lamellocytes through a flotillin/lipid raft-dependent endocytic pathway.
Bin WanMarylène PoiriéJean-Luc GattiPublished in: Virulence (2021)
Venosomes are extracellular vesicles found in the venom of Leptopilina endoparasitoids wasps, which transport and target virulence factors to impair the parasitoid egg encapsulation by the lamellocytes of their Drosophila melanogaster host larva. Using the co-immunolocalization of fluorescent L. boulardi venosomes and one of the putative-transported virulence factors, LbGAP, with known markers of cellular endocytosis, we show that venosomes endocytosis by lamellocytes is not a process dependent on clathrin or macropinocytosis and internalization seems to bypass the early endosomal compartment Rab5. After internalization, LbGAP colocalizes strongly with flotillin-1 and the GPI-anchored protein Atilla/L1 (a lamellocyte surface marker) suggesting that entry occurs via a flotillin/lipid raft-dependent pathway. Once internalized, venosomes reach all intracellular compartments, including late and recycling endosomes, lysosomes, and the endoplasmic reticulum network. Venosomes therefore enter their target cells by a specific mechanism and the virulence factors are widely distributed in the lamellocytes' compartments to impair their functions.
Keyphrases
- drosophila melanogaster
- escherichia coli
- pseudomonas aeruginosa
- staphylococcus aureus
- endoplasmic reticulum
- antimicrobial resistance
- biofilm formation
- induced apoptosis
- cystic fibrosis
- cell cycle arrest
- cell proliferation
- protein protein
- signaling pathway
- amino acid
- living cells
- binding protein
- pi k akt
- single molecule