Sphingosine kinase 1 is required for myristate-induced TNFα expression in intestinal epithelial cells

Sphingosine kinase 1 is required for myristate-induced TNFα expression in intestinal epithelial cells

•C14:0 myristate significantly increased TNFα and COX2 expression in intestinal epithelial cells.•Myristate-induced TNFα was sphingosine kinase-1 dependent, but sphingosine-1-phosphate receptor independent.•Myristate-induced TNFα required JNK activation as downstream of sphingosine kinase-1. Saturat...

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Bibliographic Details
Published in:Prostaglandins & other lipid mediators Vol. 149; p. 106423
Main Authors: Choi, Songhwa, Snider, Justin M., Cariello, Chris P., Lambert, Johana M., Anderson, Andrea K., Cowart, L. Ashley, Snider, Ashley J.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-08-2020
Subjects:
Intestinal inflammation
MAPK
Myristate
Saturated fatty acid
Sphingosine kinase
Intestinal inflammation
Sphingosine kinase
MAPK
Saturated fatty acid
Myristate
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Summary:•C14:0 myristate significantly increased TNFα and COX2 expression in intestinal epithelial cells.•Myristate-induced TNFα was sphingosine kinase-1 dependent, but sphingosine-1-phosphate receptor independent.•Myristate-induced TNFα required JNK activation as downstream of sphingosine kinase-1. Saturated fatty acids (SFA) have been known to trigger inflammatory signaling in metabolic tissues; however, the effects of specific SFAs in the intestinal epithelium have not been well studied. Several previous studies have implicated disruptions in sphingolipid metabolism by oversupply of SFAs in inflammatory process. Also, our previous studies have implicated sphingosine kinase 1 (SK1) and its product sphingosine-1-phosphate (S1P) as having key roles in the regulation of inflammatory processes in the intestinal epithelium. Therefore, to define the role for specific SFAs in inflammatory responses in intestinal epithelial cells, we examined myristate (C14:0) and palmitate (C16:0). Myristate, but not palmitate, significantly induced the pro-inflammatory cytokine tumor necrosis factor α (TNFα), and it was SK1-dependent. Interestingly, myristate-induced TNFα expression was not suppressed by inhibition of S1P receptors (S1PRs), hinting at a potential novel intracellular target of S1P. Additionally, myristate regulated the expression of TNFα via JNK activation in an SK1-dependent manner, suggesting a novel S1PR-independent target as a mediator between SK1 and JNK in response to myristate. Lastly, a myristate-enriched milk fat-based diet (MFBD) increased expression of TNFα in colon tissues and elevated the S1P to sphingosine ratio, demonstrating the potential of myristate-involved pathobiologies in intestinal tissues. Taken together our studies suggest that myristate regulates the expression of TNFα in the intestinal epithelium via regulation of SK1 and JNK.
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SC wrote the manuscript, performed conceptual and experimental design, as well as generation of data and analyses for cell culture and in vivo experiments. JMS performed lipid analyses from cell culture experiments. CC performed protein analyses from cell culture experiments. JML and AKA performed the in vivo HFD experiments and collected tissues for analysis. LAC contributed to experimental design, data analysis and manuscript editing. AJS conceived the original hypothesis, provided the necessary funding for materials and methods, and supervised the whole project.
Author contributions
ISSN:1098-8823
DOI:10.1016/j.prostaglandins.2020.106423