Abstract
Eicosanoids, oxygenated metabolites of C20 polyunsaturated fatty acids (PUFAs), mediate fundamental physiological processes, including immune reactions and reproduction, in insects. Prostaglandins (PGs) make up one group of eicosanoids, of which PGE2 is a relatively well-known mediator in various insect taxa. While PG biosynthesis has been reported, the specific biosynthetic pathway for PGE2 is not known in insects. Here, we posed the hypothesis that Se-mPGES2 mediates biosynthesis of physiologically active PGE2 through its cognate protein. To test this hypothesis, we interrogated a transcriptome of the lepidopteran insect, Spodoptera exigua, to identify a candidate PGE2 synthase (Se-mPGES2) and analyzed its sequence and expression. Its predicted amino acid sequence contains a consensus thioredoxin homology sequence (Cys-x-x-Cys) responsible for catalytic activity along with an N-terminal membrane-associated hydrophobic domain and C-terminal cytosolic domain. It also shares sequence homology (36.5%) and shares almost overlapping three dimensional structures with a membrane-bound human PGES2 (mPGES2). Se-mPGES2 was expressed in all developmental stages with high peaks during the late larval instar and adult stages. Immune challenge significantly up-regulated its expression levels in hemocytes and fat body. Injecting double-stranded RNA (dsRNA) specific to Se-mPGES2 significantly impaired two cellular immune responses, hemocyte-spreading behavior and nodule formation following bacterial challenge. Humoral immunity was also significantly suppressed, registered as reduced phenoloxidase activity and antimicrobial peptide expression levels. The suppressed immune responses were reversed following PGE2, but not arachidonic acid (AA), treatments. RNAi treatments also reduced the egg-laying behavior of females. Control females mated with the RNAi-treated males led to substantially reduced egg-laying behavior, which was also reversed following PGE2 injections into females. These results strongly bolster our hypothesis that Se-mPGES2 acts in the biosynthesis of PGE2, a crucial biochemical signal mediating immune and reproductive physiology of S. exigua.
Highlights
Eicosanoids are oxygenated metabolites of three C20 polyunsaturated fatty acids (PUFAs)
Based on a human mPGES-1 model (Sjögren et al, 2013), this domain may catalyze the isomerization of prostaglandin H2 (PGH2) to prostagladin E2 (PGE2) from the sequence alignment analysis on the conserved amino acid residues (Figure 1E)
The data reported in this paper strongly support our hypothesis that Se-membrane-bound human PGES2 (mPGES2) mediates biosynthesis of physiologically active PGE2 through its cognate protein
Summary
Eicosanoids are oxygenated metabolites of three C20 polyunsaturated fatty acids (PUFAs). Prostaglandin (PG) biosynthesis begins with hydrolysis of arachidonic acid (AA) from cellular phospholipids by a phospholipase A2 (PLA2). In vertebrates AA is oxygenated by an enzyme with two catalytic sites, endoperoxide synthase/cyclooxygenase (COX). COXs are divided into a Insect PGES2 constitutively produced COX-1 and an inducible COX-2. PGs are potent lipid messengers involved in numerous homeostatic biological functions in mammals (Funk, 2001). PGs act in various physiological processes such as reproduction, secretion, and immune responses in insects (Stanley and Kim, 2014)
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