Administration of Arginine Vasotocin and modified Isotocin improve artificial propagation and post-spawning survival of female yellow catfish

Abstract

Low rate of spawning and high percentage of death after artificial propagation are frequently observed in catfish, which do harms to the long-term population stability and genetic breeding programs in aquaculture. In this study, yellow catfish (Pelteobagrus fulvidraco), an important freshwater species in China was used as a research model, since the farmed female yellow catfish had poor reproduction performance and a high death rate after treatment with the traditional exogenous hormones, luteinizing hormone releasing hormone analogues2 (LHRH-A2) and human chorionic gonadotropin (HCG). We tried to investigate the roles of the Arginine Vasotocin (AVT)/ Isotocin (IT) neuropeptide family in reproduction and design an optimal strategy for inducing artificial propagation in yellow catfish. Two copies of pro-avt and pro-it were detected in hypothalamus and ovaries of yellow catfish, and their mRNA levels gradually increased during spring-summer season. Furthermore, the transcript levels of pro-avt and pro-it in hypothalamus significantly increased after injection of LHRH-A2 and HCG. Although AVT could not induce germinal vesicle breakdown (GVBD) in female yellow catfish, administration of AVT significantly stimulated premature ovulation in a dose-dependent manner and induced the expression of ovulation-related genes, ptgs2a and acvr1. Furthermore, there is a significant up-regulation of serum prostaglandin E2 (PGE2) and luteinizing hormone (LH) in female fish after AVT treatment, whereas no difference was observed in follicle stimulating hormone (FSH). Since IT of yellow catfish was insoluble in saline, a rigid peptide segment was added at the end of IT (the modified IT was named IT-M), which could greatly improve its solubility and induce ovulation in female yellow catfish. Subsequently, we demonstrated that adding carp pituitary extraction (CPE) to the second injection of traditional methods could efficiently improve the spawned fish, eggs production, fertilization rate, hatching rate and post-spawning survival of female yellow catfish, despite at a relatively high cost in hormones. We further discovered that IT-M + AVT could substitute for HCG + CPE in the second injection and had high efficiency in artificial propagation, reducing the hormone costs to less than one-third. Altogether, we provide an effective and affordable combination of exogenous hormones to improve reproduction performances and post-spawning survival rate in yellow catfish.