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Methylene-bridge tryptophan fatty acylation regulates PI3K-AKT signaling and glucose uptake.

Cell reports (2022-03-17)
Song-Hua Hu, Xia-Di He, Ji Nie, Jun-Li Hou, Jiang Wu, Xiao-Yan Liu, Yun Wei, Hui-Ru Tang, Wen-Xing Sun, Shu-Xian Zhou, Yi-Yuan Yuan, Yan-Peng An, Guo-Quan Yan, Yan Lin, Peng-Cheng Lin, Jean J Zhao, Ming-Liang Ye, Jian-Yuan Zhao, Wei Xu, Shi-Min Zhao
ZUSAMMENFASSUNG

Protein fatty acylation regulates numerous cell signaling pathways. Polyunsaturated fatty acids (PUFAs) exert a plethora of physiological effects, including cell signaling regulation, with underlying mechanisms to be fully understood. Herein, we report that docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA) regulate PI3K-AKT signaling by modifying PDK1 and AKT2. DHA-administered mice exhibit altered phosphorylation of proteins in signaling pathways. Methylene bridge-containing DHA/EPA acylate δ1 carbon of tryptophan 448/543 in PDK1 and tryptophan 414 in AKT2 via free radical pathway, recruit both the proteins to the cytoplasmic membrane, and activate PI3K signaling and glucose uptake in a tryptophan acylation-dependent but insulin-independent manner in cultured cells and in mice. DHA/EPA deplete cytosolic PDK1 and AKT2 and induce insulin resistance. Akt2 knockout in mice abrogates DHA/EPA-induced PI3K-AKT signaling. Our results identify PUFA's methylene bridge tryptophan acylation, a protein fatty acylation that regulates cell signaling and may underlie multifaceted effects of methylene-bridge-containing PUFAs.

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Millipore
ANTI-FLAG® M2-Affinitätsgel, purified immunoglobulin, buffered aqueous glycerol solution
Sigma-Aldrich
Monoklonaler ANTI-FLAG® M2-Antikörper in Maus hergestellte Antikörper, clone M2, purified immunoglobulin (Purified IgG1 subclass), buffered aqueous solution (10 mM sodium phosphate, 150 mM NaCl, pH 7.4, containing 0.02% sodium azide)
Sigma-Aldrich
Lipase, auf Immobead 150 immobilisiert aus Pseudomonas cepacia, ≥900 U/g