Your search keyword '"Pelle, Antonella"' showing total 2 results

1. Common carp, Cyprinus carpio, prefer branchial ionoregulation at high feeding rates and kidney ionoregulation when food supply is limited: additional effects of cortisol and exercise.

Author

Liew HJ, Pelle A, Chiarella D, Faggio C, Tang CH, Blust R, and De Boeck G

Subjects

Animals, Energy Metabolism, Kidney, Swimming physiology, Carps physiology, Feeding Behavior, Food Supply, Hydrocortisone physiology

Abstract

This study aims to examine ionoregulatory parameters during exercise and cortisol elevation in common carp fed different food rations. Fish subjected to two different feeding regimes (0.5 or 3.0% body mass (BM) daily) received no implant or an intraperitoneal cortisol implant (250 mg/kg BM) or sham, and were monitored over a 168-h post-implant (PI) period under resting, low aerobic swimming or exhaustive swimming conditions. Plasma osmolality was maintained at relatively stable levels without much influence of feeding, swimming or cortisol, especially in low feeding groups. Nevertheless, a transient hyponatremia was observed in all low feeding fish implanted with cortisol. The hyponatremia was more pronounced in fish swum to exhaustion but even in this group, Na + levels returned to control levels as cortisol levels recovered (168 h-PI). Cortisol-implanted fish also had lower plasma Cl - levels, and this loss of plasma Cl - was more prominent in fish fed a high ration during exhaustive swimming (recovered at 168 h-PI). Cortisol stimulated branchial NKA and H + ATPase activities, especially in high ration fish. In contrast, low ration fish upregulated kidney NKA and H + ATPase activities when experiencing elevated levels of cortisol. In conclusion, low feeding fish experience an ionoregulatory disturbance in response to cortisol implantation especially when swum to exhaustion in contrast to high feeding fish.

Published

2020

2. Cortisol emphasizes the metabolic strategies employed by common carp, Cyprinus carpio at different feeding and swimming regimes.

Author

Liew HJ, Chiarella D, Pelle A, Faggio C, Blust R, and De Boeck G

Subjects

Ammonia blood, Ammonia urine, Animals, Blood Glucose, Feeding Behavior, Fish Proteins metabolism, Glycogen metabolism, Hydrocortisone physiology, Lactic Acid blood, Lipid Metabolism, Liver metabolism, Muscle, Skeletal metabolism, Stress, Physiological, Swimming, Urea blood, Urea urine, Carps metabolism, Energy Metabolism, Hydrocortisone blood, Oxygen Consumption

Abstract

The objective of this study was to investigate the interaction between feeding, exercise and cortisol on metabolic strategies of common carp over a 168h post-implant period. Feeding provided readily available energy and clearly increased muscle and liver protein and glycogen stores. Swimming, feeding and cortisol all induced aerobic metabolism by increasing oxygen consumption, and stimulated protein metabolism as demonstrated by the increased ammonia and urea excretion and ammonia quotient. Hypercortisol stimulated ammonia self-detoxifying mechanisms by enhancing ammonia and urea excretion, especially during severe exercise. At high swimming level, higher branchial clearance rates in cortisol treated fish succeeded in eliminating the elevation of endogenous ammonia, resulting in reduced plasma Tamm levels compared to control and sham implanted fish. Carp easily induced anaerobic metabolism, both during routine and active swimming, with elevated lactate levels as a consequence. Both feeding and cortisol treatment increased this dependence on anaerobic metabolism. Hypercortisol induced both glycogenesis and gluconeogenesis resulting in hyperglycemia and muscle and liver glycogen deposition, most likely as a protective mechanism for prolonged stress situations and primarily fuelled by protein mobilization., (© 2013.)

Published

2013