Orm proteins control ceramide synthesis and endocytosis via LCB-mediated Ypk1 regulation.

Abstract

Sphingolipids (SPLs) are major components of cell membranes with significant functions. Their production is a highly-regulated multi-step process with the formation of two major intermediates, long chain bases (LCBs) and ceramides. Homologous Orm proteins in both yeast and mammals negatively regulate LCB production by inhibiting serine palmitoyltransferase (SPT), the first enzyme in SPL de novo synthesis. Orm proteins are therefore regarded as major regulator of SPL production. Combining targeted lipidomic profiling with phenotypic analysis of yeast mutants with both ORM1 and ORM2 deleted (orm1/2Δ), we report here that Ypk1, an AGC family protein kinase, signaling is compromised in an LCB-dependent manner. In orm1/2Δ, phosphorylation of Ypk1 at its activation sites is reduced, so does its in vivo activity shown by reduced phosphorylation of Ypk1 substrate, Lac1, the catalytic component of ceramide synthase (CerS). A corresponding defect in ceramide synthesis was detected, preventing the extra LCBs generated in orm1/2Δ from fully converting into downstream SPL products. The results suggest that Orm proteins play a complex role in regulating SPL production in yeast S. cerevisiae by exerting an extra and opposite effect on CerS. Functionally, we define an endocytosis and an actin polarization defect of orm1/2Δ and demonstrate the roles of Ypk1 in mediating the effects of Orm proteins on endocytosis. Collectively, the results reveal a previously unrecognized complexity of SPL de novo synthesis pathway and point to a potential role of Orm proteins as upstream regulators to control Ypk1-mediated biological functions via regulating LCB production.