Arachidonic acid synthetic pathways of the oyster protozoan parasite, Perkinsus marinus: evidence for usage of a delta-8 pathway.

The meront stage of the oyster protozoan parasite, Perkinsus marinus, is capable of synthesizing saturated and unsaturated fatty acids including the essential fatty acid, arachidonic acid [20:4(n-6)]. Eukaryotes employ either delta-6 (Delta-6) or delta-8 (Delta-8) desaturase pathway or both to synthesize arachidonic acid. To elucidate the arachidonic acid synthetic pathways in P. marinus, meronts were incubated with deuterium-labeled precursors [18:1(n-9)-d6, 18:2(n-6)-d4, 18:3(n-3)-d4, and 20:3(n-3)-d8]. The lipids were extracted, converted to fatty acid methyl esters, and analyzed using gas chromatography/mass spectrometry and gas chromatography/flame ionization detection. Deuterium-labeled 18:2(n-6), 20:2(n-6), 20:3(n-6), and 20:4(n-6) were detected in meront lipids after 1-, 3-, 5-, and 10-day incubation with 18:1(n-9)-d6. Deuterium-labeled 20:2(n-6), 20:3(n-6) and 20:4(n-6) were found in lipids from meronts after incubation with 18:2(n-6)-d4 methyl ester. No labeled 18:3(n-6) was detected in either incubation. Apparently, when incubated with 18:1(n-9)-d6, the parasite first desaturated 18:1(n-9)-d6 to 18:2(n-6)-d6 by Delta-12 desaturase, then to 20:2(n-6)-d6 by elongation, and ultimately desaturated to 20:3(n-6)-d6 and 20:4(n-6)-d6 using the sequential Delta-8 and Delta-5 desaturation. Similarly, when incubated with 18:2(n-6)-d4, P. marinus converted the 18:2(n-6)-d4 to 20:2(n-6)-d4 by elongation and 20:2(n-6)-d4 to 20:3(n-6)-d4 by Delta-8 desaturase then by Delta-5 desaturase to 20:4(n-6)-d4. These results provide evidence that P. marinus employed the Delta-8 rather Delta-6 pathway for arachidonic acid synthesis. Additional support for the presence of a Delta-8 pathway was the demonstrated ability of the parasite to metabolize 18:3(n-3)-d4 to 20:3(n-3)-d4 and 20:4(n-3)-d4, and 20:3(n-3)-d8 to 20:4(n-3)-d6 and 20:5(n-3)-d6 using the sequential position-specific Delta-8 and Delta-5 desaturases.