Long-chain fatty acid amides are signaling lipids found in mammals and other organisms; however, details of the metabolic pathways for the N-acylglycines and primary fatty acid amides (PFAMs) have remained elusive. Heavy-labeled precursor and subtraction lipidomic experiments in mouse neuroblastoma N18TG2 cells, a model cell line for the study of fatty acid amide metabolism, establish the biosynthetic pathways for the N-acylglycines and the PFAMs. We provide evidence that the N-acylglycines are formed by a long-chain specific glycine-conjugating enzyme, glycine N-acyltransferase-like 3 (GLYATL3). siRNA knockdown of GLYATL3 in the N18TG2 cells resulted in a decrease in the levels of the N-acylglycines and the PFAMs. This is the first report of an enzyme responsible for long-chain N-acylglycine production in cellula. The production of the PFAMs in N18TG2 cells was reported to occur by the oxidative cleavage of the N-acylglycines, as catalyzed by peptidylglycine α-amidating monooxygenase (PAM). siRNA knockdown of PAM resulted in an accumulation of [(13)C18]N-oleoylglycine and decreased levels of [(13)C18]oleamide when the N18TG2 cells were grown in the presence of [(13)C18]oleic acid. The addition of [1-(13)C]palmitate to the N18TG2 cell growth media led to the production of a family of [1-(13)C]palmitoylated fatty acid amides, consistent with the biosynthetic pathways detailed herein.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4847626PMC
http://dx.doi.org/10.1194/jlr.M062042DOI Listing

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