Human cytomegalovirus promotes de novo PC synthesis during early virus replication

Human cytomegalovirus (HCMV) infection reprograms metabolism, including lipid synthesis. While several metabolite-related pathways have been demonstrated to have altered activity in infected cells, the alteration of lipid-related pathways by HCMV has not been examined beyond fatty acid synthesis and elongation. In this study, we addressed this lack of understanding by focusing on phosphatidylcholine (PC), a class of lipids we previously showed is increased by HCMV infection in human foreskin fibroblasts. Here, we found that HCMV infection increases the abundance of PCs in several different fibroblasts and, similarly, in endothelial and epithelial cells. Additionally, HCMV elevates PC levels regardless of the level of confluency, type of growth medium, and presence of serum. Next, we investigated if HCMV alters the activity in the three PC synthesis pathways. We demonstrate that HCMV infection promotes the activity in the de novo PC synthesis pathway using a ¹³ C-choline isotopic tracer and liquid chromatography high resolution tandem mass spectrometry (LC-MS/MS). Infection did not alter the activity in the other two pathways. Moreover, we examined the kinetics of PC remodeling by HCMV and found that the de novo synthesis pathway is promoted and the PC lipidome shifts 24 hours post infection. That led us to examining if the early stages of replication are sufficient to alter PC levels. After inhibiting late virus replication, we found that HCMV alters the PC lipidome independent of late gene expression. Overall, this work suggests that an immediate-early or early viral protein promotes the reprogramming of host lipid metabolism to ensure the synthesis of a lipidome necessary to support HCMV replication.