Vitellocyte-specific expression of phospholipid hydroperoxide glutathione peroxidases in Clonorchis sinensis

Abstract

Phospholipid hydroperoxide glutathione peroxidase (PHGPx) is a major antioxidant enzyme and may protect against lipid hydroperoxidation in biomembranes. We isolated full-length cDNA sequences encoding four different PHGPxs from a causative agent of cholangiocarcinoma, Clonorchis sinensis (CsGPx1, CsGPx2, CsGPx3 and CsGPx4). These sequences contained an in-frame TGA codon for selenocysteine (Sec) and a concurrent Sec insertion sequence in their 3′-untranslated regions. The open reading frames were composed of six exons in the chromosomal segments of CsGPx1 (7705bp), CsGPx2 (5871bp) and CsGPx3 (3867bp) and five exons in CsGPx4 (5655bp). The positions of these introns were tightly conserved between the trematode and vertebrate PHGPx genes. Oxidative stimulation of viable worms with H2O2 or paraquat resulted in 1.5- to 2-fold induction of the GPx activity. The CsGPx proteins were specifically localised in vitellocytes within vitelline follicles and premature eggs in the proximal uterus. In the eggs, glutathione, an electron donor for GPx, was co-localised with the CsGPx proteins, while thioredoxin, which is preferred by peroxiredoxin, was principally detected in the extracellular space between the embryonic cell mass and an eggshell. Our data may suggest a concerted or a specialised function between a thioredoxin-dependent enzyme(s) and GPx in protecting against H2O2-derived damage during maturation of the embryo and formation of the eggshell, in these catalase-lacking trematode parasites. The uniquely conserved genomic organisation and Sec-dependency amongst trematode and vertebrate PHGPx homologues will also provide insight into the evolutionary episode and functional/biochemical diversification of GPx proteins.