Altered eicosanoid production and phospholipid remodeling during cell culture

Toshiaki Okuno,Miguel A Gijón,Simona Zarini,Sarah A Martin,Robert M Barkley,Christopher A Johnson,Mai Ohba,Takehiko Yokomizo,Robert C Murphy

doi:10.1194/jlr.m083030

Toshiaki Okuno, Miguel A Gijón + Show 7 more

Open Access

https://doi.org/10.1194/jlr.m083030

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Abstract

The remodeling of PUFAs by the Lands cycle is responsible for the diversity of phospholipid molecular species found in cells. There have not been detailed studies of the alteration of phospholipid molecular species as a result of serum starvation or depletion of PUFAs that typically occurs during tissue culture. The time-dependent effect of cell culture on phospholipid molecular species in RAW 264.7 cells cultured for 24, 48, or 72 h was examined by lipidomic strategies. These cells were then stimulated to produce arachidonate metabolites derived from the cyclooxygenase pathway, thromboxane B2, PGE2, and PGD2, and the 5-lipoxygenase pathway, leukotriene (LT)B4, LTC4, and 5-HETE, which decreased with increasing time in culture. However, the 5-lipoxygenase metabolites of a 20:3 fatty acid, LTB3, all trans-LTB3, LTC3, and 5-hydroxyeicosatrienoic acid, time-dependently increased. Molecular species of arachidonate containing phospholipids were drastically remodeled during cell culture, with a new 20:3 acyl group being populated into phospholipids to replace increasingly scarce arachidonate. In addition, the amount of TNFα induced by lipopolysaccharide stimulation was significantly increased in the cells cultured for 72 h compared with 24 h, suggesting that the remodeling of PUFAs enhanced inflammatory response. These studies supported the rapid operation of the Lands cycle to maintain cell growth and viability by populating PUFA species; however, without sufficient n-6 fatty acids, 20:3 n-9 accumulated, resulting in altered lipid mediator biosynthesis and inflammatory response.

Highlights

The remodeling of PUFAs by the Lands cycle is responsible for the diversity of phospholipid molecular species found in cells
The stimulated production of arachidonate metabolites derived from the cyclooxygenase pathway, TxB2, prostaglandin E2 (PGE2), and prostaglandin D2 (PGD2) (Fig. 1), was found to decrease for those cells cultured for increasing amounts of time
This information was consistent with a 20:3 fatty acid that was released by a phospholipase activated by the addition of the calcium ionophore to those cells carried for more than 1 day in culture

Summary

Introduction

The remodeling of PUFAs by the Lands cycle is responsible for the diversity of phospholipid molecular species found in cells. The amount of TNF induced by lipopolysaccharide stimulation was significantly increased in the cells cultured for 72 h compared with 24 h, suggesting that the remodeling of PUFAs enhanced inflammatory response These studies supported the rapid operation of the Lands cycle to maintain cell growth and viability by populating PUFA species; without sufficient n-6 fatty acids, 20:3 n-9 accumulated, resulting in altered lipid mediator biosynthesis and inflammatory response.—Okuno, T., M. The remodeling of AA by what has been termed the Lands cycle has been studied for a number of years [5] and is known to be responsible for the diversity of phospholipid molecular species seen in all cellular membranes This phospholipid remodeling pathway is a result of CoA esters of PUFAs being synthesized by a family of long-chain acyl-CoA synthases [6] and the action of specific acyltransferases, including the lysophospholipid acyltransferases, LPCAT3/MBOAT5 [7] and LPIAT1/ MBOAT7 [8], known to incorporate AA into phosphatidylcholine (PC) and phosphatidylinositol (PI), respectively. LTB4 is a pro-inflammatory lipid mediator that activates and recruits neutrophils into inflammatory areas [11], whereas cysLTs (LTC4 and its metabolites, LTD4 and LTE4) induce bronchoconstriction and neutrophil extravasation, and participate in vascular leakage [12]

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