Lysophosphatidylethanolamine acyltransferase 2 (LPEAT2) incorporates DHA into phospholipids and has possible functions for fatty acid-induced cell death.

Glycerophospholipids, one of the main constituents of biological membranes, are synthesized from glycerol-3-phosphate through the de novo pathway, and are reconstituted through the remodeling pathway. Lysophosphatidylethanolamine acyltransferase 2 (LPEAT2), one of the enzymes that play a role in the remodeling pathway, has been previously reported to have LPEAT, lysophosphatidylcholine acyltransferase (LPCAT) and lysophosphatidylglycerol acyltransferase (LPGAT) activities with 16:0-CoA, 18:0-CoA, and 18:1-CoA as donors. In this study, we found that LPEAT2 is active with 22:6-CoA. Knockdown studies using Neuro 2A cells showed that LPEAT2 has endogenous LPEAT activity with 22:6-CoA, and that LPEAT2 has functions for modulating 22:6/20:4 ratios of phospholipids. In addition, we demonstrated that Neuro 2A cells overexpressing LPEAT2 underwent cell death with necrotic morphology when differentiated into neuron-like cells, with supplementation with 22:6 (DHA). These results suggest that LPEAT2 plays a role in inducing cell death DHA-dependently. This study will lead to better understand how DHA levels are regulated in phospholipids, especially in the brain where LPEAT2 is highly expressed. Our study also provides insight to understand the mechanism of cell death induced by DHA.