Wang_2023_J.Innate.Immun__

Reference

Title : Perilipin1 deficiency prompts lipolysis in lipid droplets and aggravates the pathogenesis of persistent immune activation in Drosophila - Wang_2023_J.Innate.Immun__
Author(s) : Wang L , Lin J , Yang K , Wang W , Lv Y , Zeng X , Zhao Y , Yu J , Pan L
Ref : J Innate Immun , : , 2023
Abstract :

Lipid droplets (LDs) are highly dynamic intracellular organelles, which are involved in lots of biological processes. However, the dynamic morphogenesis and functions of intracellular LDs during persistent innate immune responses remain obscure. In this study, we induce long-term systemic immune activation in Drosophila through genetic manipulation. Then, the dynamic pattern of LDs is traced in the Drosophila fat body. We find that deficiency of Plin1, a key regulator of LDs' reconfiguration, blocks LDs minimization at the initial stage of immune hyperactivation but enhances LDs breakdown at the later stage of sustained immune activation via recruiting the lipase Brummer (Bmm, homologous to human ATGL). The high wasting in LDs shortens the lifespan of flies with high-energy-cost immune hyperactivation. Therefore, these results suggest a critical function of LDs during long-term immune activation and provide a potential treatment for the resolution of persistent inflammation.

PubMedSearch : Wang_2023_J.Innate.Immun__
PubMedID: 37742619

Related information

Citations formats

Wang L, Lin J, Yang K, Wang W, Lv Y, Zeng X, Zhao Y, Yu J, Pan L (2023)
Perilipin1 deficiency prompts lipolysis in lipid droplets and aggravates the pathogenesis of persistent immune activation in Drosophila
J Innate Immun :

Wang L, Lin J, Yang K, Wang W, Lv Y, Zeng X, Zhao Y, Yu J, Pan L (2023)
J Innate Immun :