Le_2020_Elife_9_

Reference

Title : Modular metabolite assembly in C. elegans depends on carboxylesterases and formation of lysosome-related organelles - Le_2020_Elife_9_
Author(s) : Le HH , Wrobel CJ , Cohen SM , Yu J , Park H , Helf MJ , Curtis BJ , Kruempel JC , Rodrigues PR , Hu PJ , Sternberg PW , Schroeder FC
Ref : Elife , 9 : , 2020
Abstract :

Signaling molecules derived from attachment of diverse metabolic building blocks to ascarosides play a central role in the life history of C. elegans and other nematodes; however, many aspects of their biogenesis remain unclear. Using comparative metabolomics, we show that a pathway mediating formation of intestinal lysosome-related organelles (LROs) is required for biosynthesis of most modular ascarosides as well as previously undescribed modular glucosides. Similar to modular ascarosides, the modular glucosides are derived from highly selective assembly of moieties from nucleoside, amino acid, neurotransmitter, and lipid metabolism, suggesting that modular glucosides, like the ascarosides, may serve signaling functions. We further show that carboxylesterases that localize to intestinal organelles are required for the assembly of both modular ascarosides and glucosides via ester and amide linkages. Further exploration of LRO function and carboxylesterase homologs in C. elegans and other animals may reveal additional new compound families and signaling paradigms.

PubMedSearch : Le_2020_Elife_9_
PubMedID: 33063667

Related information

Citations formats

Le HH, Wrobel CJ, Cohen SM, Yu J, Park H, Helf MJ, Curtis BJ, Kruempel JC, Rodrigues PR, Hu PJ, Sternberg PW, Schroeder FC (2020)
Modular metabolite assembly in C. elegans depends on carboxylesterases and formation of lysosome-related organelles
Elife 9 :

Le HH, Wrobel CJ, Cohen SM, Yu J, Park H, Helf MJ, Curtis BJ, Kruempel JC, Rodrigues PR, Hu PJ, Sternberg PW, Schroeder FC (2020)
Elife 9 :