The individual isoforms of ORMDL, the regulatory subunit of serine palmitoyltransferase, have distinctive sensitivities to ceramide

Abstract

Sphingolipids play crucial roles in cell membrane structure and in multiple signaling pathways. Sphingolipid de novo biosynthesis is mediated by the serine palmitoyltransferase (SPT) enzyme complex. Homeostatic regulation of this complex is dependent on its regulatory subunit, the ORMDLs, of which there are three isoforms. It is well established that the ORMDLs regulate SPT activity, but it is still unclear whether the three ORMDL isoforms have distinct functions and properties. Here, we focus on understanding the physiological importance of ORMDL isoforms (ORMDL1, ORMDL2, and ORMDL3) in regulating SPT activity and sphingolipid levels. This study delves into the differential responses of the SPT complexes containing different ORMDL isoforms to cellular ceramide levels. By using the CRISPR/Cas9 gene editing tool, we have developed Hela cell lines each of which harbor only one of the three ORMDL isoforms as well as a cell line deleted for all three isoforms. Consistent with other studies, we find that deletion of all three ORMDL isoforms desensitizes SPT to ceramide and dramatically increases levels of cellular sphingolipids. In contrast, each ORMDL isoform alone is capable of regulating SPT activity and maintaining normal levels of sphingolipid. Strikingly, however, we find that each ORMDL isoform exhibits isoform-specific sensitivity to ceramide. This suggests that the inclusion of specific ORMDL isoforms into the SPT complex may accomplish a fine-tuning of sphingolipid homeostasis. The study not only emphasizes the need for further investigation into the distinct roles of ORMDL isoforms but also sheds light on their potential as therapeutic targets.