Excess Lipids Keep Dengue at Bay

Shelby Bradford,  The Scientist,  2024.

The Aedes aegypti mosquito can transmit dengue virus; however, infection with endosymbiotic bacteria from the Wolbachia genus reduces viral transmission from these insects. Consequently, Wolbachia-infected mosquitos are one biocontrol agent used in areas with endemic dengue cases.  “We are trying to go backwards now, because the intervention works, but we don’t know how,” said Robson Loterio, a microbiologist at the Burnet Institute and author of a paper published in mBio exploring the mechanism of Wolbachias antiviral activity. The findings can help researchers prevent viral escape from this biocontrol method.

Loterio and his team infected A. aegypti cells with antiviral Wolbachia strains. Using transmission electron microscopy and confocal microscopy, they showed that these bacteria predominantly clustered at the cell’s endoplasmic reticulum (ER). The ER produces molecules used in lipid droplet synthesis. Since both Wolbachia and dengue rely on lipid metabolism, the team investigated the effect of Wolbachia on droplet formation during viral infection by comparing antiviral Wolbachia-infected cells to Wolbachia-free cells. Lipid droplets accumulated in both types of cells, but cells with the bacteria had more lipid accumulation.


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