Polychaete consumption increased prostaglandin biosynthesis in female Penaeus monodon.

The polychaete Perinereis nuntia is preferred over commercial feed pellets for boosting ovarian maturation of the female black tiger shrimp Penaeus monodon. High levels of prostaglandins in polychaetes are believed to enhance shrimp ovarian development. However, the impact of polychaete feeding on shrimp prostaglandin biosynthesis and fatty acid regulatory pathways have yet to be investigated. As polychaetes contain higher levels of arachidonic acid (ARA), eicosapentaenoic acid (EPA), prostaglandin E2 (PGE2) and prostaglandin F2α (PGF2α) than feed pellets, we examined the effects of polychaete feeding alone and in combination with eyestalk ablation on shrimp hepatopancreases and ovaries. Shrimp fed with polychaetes contained higher levels of EPA, PGE2 and PGF2α in hepatopancreases than those of pellet-fed shrimp. Similarly, higher levels of ARA and higher transcription levels of cyclooxygenase (COX) and prostaglandin F synthase (PGFS) were detected in ovaries of polychaete-fed shrimp compared to those of pellet-fed shrimp. The combination of polychaete-feeding and eyestalk ablation, commonly practiced to induce ovarian development, increased levels of ARA and EPA and transcription levels of COX in hepatopancreases and ovaries of polychaete-fed shrimp compared to those of pellet-fed shrimp. In ovaries, prostaglandin biosynthesis gene transcripts were induced by polychaete feeding while transcriptional levels of fatty acid regulatory genes were regulated by shrimp feed and eyestalk ablation. Our findings not only elucidate the effects of polychaete consumption on shrimp prostaglandin biosynthesis and fatty acid regulatory pathways during larvae production, but also suggests that high levels of dietary ARA, EPA and prostaglandins are essential during P. monodon ovarian development.

Differential regulation of the lipoxygenase pathway in shrimp hepatopancreases and ovaries during ovarian development in the black tiger shrimp Penaeus monodon.

Dietary polyunsaturated fatty acids (PUFAs) are critical to the success of ovarian development in marine crustaceans, especially for domesticated species such as the black tiger shrimp Penaeus monodon. These fatty acids are stored in a midgut gland called the hepatopancreas and subsequently serve as an energy source or are incorporated in yolk during ovarian development. PUFAs are known precursors of hydroxy fatty acids, including hydroxyeicosatetraenoic acid and hydroxyeicosapentaenoic acid (HEPE), which are catalyzed by lipoxygenases (LOX). In previous studies, 8-HEPE has been shown to regulate female reproduction and adipogenesis in marine crustaceans. However, whether the biosynthesis of 8-HEPE in these species is the result of LOX activity has yet to be investigated. In this study, 8-HEPE was identified exclusively in P. monodon hepatopancreases using liquid chromatography-mass spectrometry. Treatment with nordihydroguaiaretic acid resulted in the reduction of 8-HEPE, suggesting the enzyme-dependent catalysis of 8-HEPE in hepatopancreases. Additionally, a full-length P. monodon LOX (PmLOX) was amplified from shrimp ovary cDNA. Sequence analysis revealed that the putative PmLOX contains domains and catalytic residues required for LOX catalytic function. Furthermore, PmLOX expression increased steadily as shrimp ovary maturation progressed, while PmLOX expression and the amount of 8-HEPE decreased in shrimp hepatopancreases. These findings not only suggest differential requirements for hydroxy fatty acid biosynthesis in shrimp ovaries and hepatopancreases during the P. monodon ovarian development, but also provide insights into the LOX pathway in marine crustaceans.

Transcriptomic Analysis of Male Black Tiger Shrimp (Penaeus monodon) After Polychaete Feeding to Enhance Testicular Maturation.

To reveal molecular mechanism of how polychaetes enhanced reproductive maturation in the male black tiger shrimp (Penaeus monodon), transcriptomic profiles of male reproductive organs (testes and vas deferens) between polychaete-fed and commercial pellet-fed male brooders were compared using cDNA microarray. The overall profiles were distinguishingly different between the two feed groups as well as between testes and vas deferens. Additionally, six of 11 differentially expressed gene identified by the microarray (HNRPUL1 and GCP4 in testes, MAT2B, CDC16, and CSN5 in vas deferens, and SLD5 in both organs) were validated by quantitative real-time PCR (qPCR) and found to exhibit significantly higher expression levels in polychaete-fed shrimp than those in commercial pellet-fed shrimp. From microarray and qPCR results, the differentially expressed transcripts in both testes and vas deferens between different feeds belonged to DNA replication and microtubule nucleation pathways. Interestingly, while the transcripts involved in nutrient uptake and nucleotide biosynthesis were increased only in testes, those involved in protein refolding and apoptosis were increased only in vas deferens. These findings suggest that polychaetes may enhance spermatogenesis by increasing spermatogonia proliferation in testes and by regulating mature spermatozoa in vas deferens.