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Structural basis of the acyl-transfer mechanism of human GPAT1.

Zachary Lee JohnsonMark AmmiratiDavid Jonathan WasilkoJeanne S ChangStephen NoellTimothy L FoleyHyejin YoonKathleen SmithShoh AsanoKatherine HalesMin WanQingyi YangMary A PiotrowskiKathleen A FarleyTamara GilbertLisa M AschenbrennerKimberly F FennellJason K DutraMary XuChunyang GuoAlison E VargheseJustin BellengerAlandra QuinnChristopher W Am EndeGraham M WestMatthew C GrifforDonald BennettMatthew F CalabreseClaire M SteppanSeungil HanHuixian Wu
Published in: Nature structural & molecular biology (2022)
Glycerol-3-phosphate acyltransferase (GPAT)1 is a mitochondrial outer membrane protein that catalyzes the first step of de novo glycerolipid biosynthesis. Hepatic expression of GPAT1 is linked to liver fat accumulation and the severity of nonalcoholic fatty liver diseases. Here we present the cryo-EM structures of human GPAT1 in substrate analog-bound and product-bound states. The structures reveal an N-terminal acyltransferase domain that harbors important catalytic motifs and a tightly associated C-terminal domain that is critical for proper protein folding. Unexpectedly, GPAT1 has no transmembrane regions as previously proposed but instead associates with the membrane via an amphipathic surface patch and an N-terminal loop-helix region that contains a mitochondrial-targeting signal. Combined structural, computational and functional studies uncover a hydrophobic pathway within GPAT1 for lipid trafficking. The results presented herein lay a framework for rational inhibitor development for GPAT1.
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