Abstract
Ceramide kinase (CERK) is a critical mediator of eicosanoid synthesis, and its product, ceramide-1-phosphate (C1P), is required for the production of prostaglandins in response to several inflammatory agonists. In this study, mass spectrometry analysis disclosed that the main forms of C1P in cells were C(16:0) C1P and C(18:0) C1P, suggesting that CERK uses ceramide transported to the trans-Golgi apparatus by ceramide transport protein (CERT). To this end, downregulation of CERT by RNA interference technology dramatically reduced the levels of newly synthesized C1P (kinase-derived) as well as significantly reduced the total mass levels of C1P in cells. Confocal microscopy, subcellular fractionation, and surface plasmon resonance analysis were used to further localize CERK to the trans-Golgi network, placing the generation of C1P in the proper intracellular location for the recruitment of cytosolic phospholipase A(2)alpha. In conclusion, these results demonstrate that CERK localizes to areas of eicosanoid synthesis and uses a ceramide "pool" transported in an active manner via CERT.
Highlights
Ceramide kinase (CERK) is a critical mediator of eicosanoid synthesis, and its product, ceramide-1-phosphate (C1P), is required for the production of prostaglandins in response to several inflammatory agonists
We show that C1P subspecies are enriched in C16:0 C1P and C18:0 C1P in cells, and we demonstrate that CERK requires ceramide transported in an active manner by ceramide transport protein (CERT)
CERK used a wide spectrum of these ceramide subspecies in vitro with the same catalytic efficiency, analysis of several cell lines, such as A549 cells (Fig. 1), HeLa cells, and J774.1 macrophages, by mass spectrometry disclosed that the major form of C1P was C16:0 C1P, followed by C18:0 C1P
Summary
Ceramide kinase (CERK) is a critical mediator of eicosanoid synthesis, and its product, ceramide-1-phosphate (C1P), is required for the production of prostaglandins in response to several inflammatory agonists. Mass spectrometry analysis disclosed that the main forms of C1P in cells were C16:0 C1P and C18:0 C1P, suggesting that CERK uses ceramide transported to the trans-Golgi apparatus by ceramide transport protein (CERT). Subcellular fractionation, and surface plasmon resonance analysis were used to further localize CERK to the trans-Golgi network, placing the generation of C1P in the proper intracellular location for the recruitment of cytosolic phospholipase A2a. These results demonstrate that CERK localizes to areas of eicosanoid synthesis and uses a ceramide “pool” transported in an active manner via CERT.—Lamour, N.
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