Abstract
Previous studies have infused radiolabeled arachidonic acid (AA) into rat brains and followed AA esterification into phospholipids for up to 24 h; however, the half-life of AA in rat brain phospholipids is unknown. Eighteen day old rats were fed either an n-3 PUFA adequate or deprived diet for 15 weeks. Following the 15 weeks, 40 microCi of [(3)H] AA was injected intracerebroventricularly into the right lateral ventricle using stereotaxic surgery and returned to their dietary treatment. From 4-120 days after [(3)H] AA administration, brains were collected for chemical analyses. The half-life of AA in rat brain phospholipids was 44 +/- 4 days for the n-3 PUFA adequate group and 46 +/- 4 days for the n-3 PUFA deprived group, which closely approximates the predicted half-life previously reported, based on the rate of entry from the plasma unesterified pool, suggesting the plasma unesterified pool is a major contributor to brain uptake of AA. Furthermore, unlike a previous report in which the half-life of brain phospholipid docosahexaenoic acid (DHA) was increased in n-3 PUFA deprived rats, n-3 PUFA deprivation did not significantly alter the AA half-life, suggesting different mechanisms exist to maintain brain concentrations of AA and DHA.
Highlights
Previous studies have infused radiolabeled arachidonic acid (AA) into rat brains and followed AA esterification into phospholipids for up to 24 h; the half-life of AA in rat brain phospholipids is unknown
We calculated a half-life of 44 and 46 days for the n-3 PUFA adequate and deprived groups, respectively, which is similar to the halflife predicted from the incorporation rate of plasma unesterified [3H] AA into brain phospholipids [22]
The calculated half-lives may be used as a guideline in future studies attempting to manipulate brain phospholipid AA using a dietary strategy; our half-lives may represent the upper-limit rate of loss, as a study using an n-6 PUFA adequate and deprived diet for 15 weeks reported a much slower rate of loss [56]
Summary
Previous studies have infused radiolabeled arachidonic acid (AA) into rat brains and followed AA esterification into phospholipids for up to 24 h; the half-life of AA in rat brain phospholipids is unknown. Journal of Lipid Research Volume 51, 2010 535 into brain phospholipids Jin,i(plasma unesterified AA) From this calculation, a mathematical model can be used to predict an AA half-life in rat brain phospholipids [equation 1: ln[2]*cbrain,i(phospholipid AA)/Jin,i(plasma unesterified AA)], where cbrain,i(phospholipid AA) is the concentration of AA in brain phospholipid i, and Jin,i(plasma unesterified AA) is the net rate of AA entry from the plasma unesterified pool into brain phospholipid i, which was determined to be 42 and 48 days for n-3 PUFA adequate and n-3 PUFA deprived animals, respectively. These studies did not take into account other potential sources of AA, including lipoprotein-transported AA or an as yet unidentified source
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