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ABSTRACT: In vertebrates including fish, food intake regulation involves intricate networks of hormones produced by both brain and peripheral tissues. Under optimum conditions, nutritional intake is adequate for basal metabolic needs, growth, development, reproduction, and deposition of energy stores. As fish represent a very diverse group, different fish species live in very different environments and are exposed to variations in a wide range of factors, including not only internal factors, such as nutritional/metabolic status and reproductive events but also environmental factors, such as temperature and photoperiod. These physiological responses often include changes in appetite that might occur through modulations of the gene expression and action of feeding-regulating hormones. Despite recent advances, our current understanding of the regulation of feeding in fish is still limited and based primarily on studies involving a few fish species. This review will give a brief overview of our current knowledge of the regulation of feeding by three central (NPY, OX and CART) and two peripheral (ghrelin and GRP) appetite-related factors in a freshwater species, the goldfish (Carassius auratus) and two marine species, cod (Gadus morhua) and winter flounder (Pleuronectes americanus).
Comparative biochemistry and physiology. Part A, Molecular & integrative physiology 01/2009; 153(1):8-12. · 2.20 Impact Factor
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ABSTRACT: Full-length complementary deoxyribonucleic acid as well as genomic sequences encoding for two gastrointestinal appetite-related peptides, ghrelin and for gastrin-releasing peptide (GRP) were cloned from Atlantic cod (Gadus morhua) stomach using reverse transcription and rapid amplification of complementary deoxyribonucleic acid ends. Semi-quantitative reverse transcriptase polymerase chain reaction shows that both ghrelin and GRP are widely distributed in several peripheral tissues and throughout cod brain, although expression levels are very low. During development, ghrelin was detected at the cleavage stage, with low expression levels persisting until the first-feeding stage, while GRP was detected at the blastula stage, showing increased expression from the pre-hatching stage on. Juvenile cod fed medium rations displayed periprandial changes in gut ghrelin, but not GRP, expression, with higher expression levels at meal time compared to 2h before feeding time. Ghrelin gut mRNA expression was not affected by rations, whereas GRP gut mRNA expression was higher in fish fed high rations as compared to fish fed low rations. Neither ghrelin nor GRP gut mRNA expressions were affected by 30 days starvation or 5 days re-feeding.
General and Comparative Endocrinology 01/2009; 160(3):250-8. · 3.27 Impact Factor
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ABSTRACT: Links between energy homeostasis and reproduction have been demonstrated in vertebrates. As a general rule, abundant food resources favor reproduction whereas low food availability induces an inhibition of reproductive processes. In both mammals and fish, gonadotropin-releasing hormone (GnRH) and orexin (OX) are hypothalamic neuropeptides that play critical roles in the regulation of sexual behavior and appetite, respectively. In order to assess possible interactions between orexin and GnRH in the control of feeding and reproduction in goldfish, we examined the effects of chicken GnRH (cGnRH-II) intracerebroventricular (ICV) injection on feeding behavior and OX brain mRNA expression as well as the effects of orexin ICV injections on spawning behavior and cGnRH-II brain mRNA expression. Treatment with cGnRH-II at doses that stimulate spawning (0.5 ng/g or 1 ng/g) resulted in a decrease in both food intake and hypothalamic orexin mRNA expression. Treatment with orexin A at doses that stimulate feeding (10 ng/g) induced an inhibition of spawning behavior and a decrease in cGnRH-II expression in the hypothalamus and optic tectum-thalamus. Our results suggest that the anorexigenic actions of cGnRH-II in goldfish might be in part mediated by OX and that orexin inhibits reproductive behavior in part via the inhibition of the GnRH system. Our data suggest the existence of a coordinated control of feeding and reproduction by the orexin and GnRH systems in goldfish.
Hormones and Behavior 06/2008; 54(3):379-85. · 3.87 Impact Factor
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ABSTRACT: A full-length cDNA encoding for prepro-orexin (prepro-OX) was cloned from Atlantic cod (Gadus morhua) hypothalamus using reverse transcription and rapid amplification of cDNA ends (RACE). The 143 amino acids (aa) prepro-OX contains a 38 aa signal peptide, a 50 aa orexin-A peptide and a 29 aa orexin-B peptide. Semi-quantitative RT-PCR shows that prepro-OX mRNA is present in brain and pituitary and in peripheral tissues, including gill, spleen, stomach and gut. Within the brain, high expression levels are seen in the hypothalamus. During development, prepro-OX is expressed from the cleavage stage up to the hatched larvae. Slot blot analysis shows that prepro-OX expression levels are higher in fish fed low (0.2% BW) and medium (0.8% BW) rations than in fish fed high rations (1.5% BW). Fish fed low and medium rations also display periprandial changes in prepro-OX expression, with higher expression levels at meal time (0 h) compared to 2h before and 2h after feeding. Our results suggest that orexins might be involved in development and feeding regulation in Atlantic cod.
Molecular and Cellular Endocrinology 07/2007; 271(1-2):28-37. · 4.19 Impact Factor
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ABSTRACT: Full-length complementary deoxyribonucleic acid sequences encoding pituitary adenylate cyclase activating polypeptide (PACAP)/PACAP-related peptide (PRP) and preprosomatostatin 1 (PPSS 1) were cloned from Atlantic cod (Gadus morhua) hypothalamus using reverse transcription and rapid amplification of complementary deoxyribonucleic acid ends. Semi-quantitative reverse transcriptase polymerase chain reaction shows that PRP/PACAP mRNA and PPSS 1 mRNA are widely distributed throughout cod brain. During development, PRP/PACAP and PPSS 1 were detected at the 30-somite stage and pre-hatching stage, respectively, and expression levels gradually increased up to the hatched larvae. PPSS 1, but not PRP/PACAP, appeared to be affected by food availability during early development. In juvenile cod, PPSS 1 expression levels increased and remained significantly higher than that of control fed fish throughout 30 days of starvation and during a subsequent 10 days refeeding period. In contrast, PRP/PACAP expression levels were not affected by 30 days of food deprivation, but a significant increase in expression levels was observed during the 10 days refeeding period in the experimental food-deprived group as compared to the control fed group. Our results suggest that PRP/PACAP and PPSS 1 may be involved in the complex regulation of growth, feeding and metabolism during food deprivation and refeeding in Atlantic cod.
Peptides.
