Regional asymmetry of metabolic and antioxidant profile in the sciaenid fish shi drum (Umbrina cirrosa) white muscle. Response to starvation and refeeding.

The objective of the present study is to characterize the metabolic and antioxidant profile of white muscle of shi drum in two sites of the body, anterior dorsal (AM) and posterior dorsal (PM) portions. In addition, it will be analyzed the possible effect of starvation and a subsequent refeeding, with two different protocols, pair feeding and ad libitum. Activities of key enzymes of intermediary metabolism and of antioxidant enzymes, as well as lipid peroxidation, as an index of oxidative stress, were evaluated. The results indicate the existence of a regional asymmetry of the metabolic capacities of the white muscle of shi drum, which is likely related to the different contribution to swimming of the body regions examined. Starvation induces a metabolic depression that is more marked in those activities that support burst swimming in PM, while those activities supporting maintenance requirements are conserved. The greatest energy demands during starvation appear to lie in AM, which showed the highest oxidative metabolism rate. The increased use of fatty acids as energy source for AM leads to oxidative stress. A period of more than four weeks of refeeding for full restoration of metabolic capacities in AM is needed, probably related to the higher muscle mass located in this region. On the contrary, all enzyme activities in PM returned to control levels in both refeeding protocols, but pair feeding seems to be advantageous since compensatory growth has been taking place without signs of oxidative stress. This work was addressed to gain knowledge on the physiology of a promising fish species in aquaculture like shi drum. The results displayed here show how the starving and further re-feeding events could generate oxidative stress situations characterized by high lipid peroxidation levels which may influence negatively on the quality of the edible part of the fish. This study opens an interesting field on this fish species which deserves being investigated in the future.Versión del edito

Time Course of Metabolic Capacities in Paralarvae of the Common Octopus, Octopus vulgaris, in the First Stages of Life. Searching Biomarkers of Nutritional Imbalance

The culture of the common octopus (Octopus vulgaris) is promising since the species has a relatively short lifecycle, rapid growth, and high food conversion ratios. However, recent attempts at successful paralarvae culture have failed due to slow growth and high mortality rates. Establishing an optimal nutritional regime for the paralarvae seems to be the impeding step in successful culture methods. Gaining a thorough knowledge of food regulation and assimilation is essential for paralarvae survival and longevity under culture conditions. The aim of this study, then, was to elucidate the characteristic metabolic organization of octopus paralarvae throughout an ontogenic period of 12 days post-hatching, as well as assess the effect of diet enrichment with live prey containing abundant marine phospholipids. Our results showed that throughout the ontogenic period studied, an increase in anaerobic metabolism took place largely due to an increased dependence of paralarvae on exogenous food. Our studies showed that this activity was supported by octopine dehydrogenase activity, with a less significant contribution of lactate dehydrogenase activity. Regarding aerobic metabolism, the use of amino acids was maintained for the duration of the experiment. Our studies also showed a significant increase in the rate of oxidation of fatty acids from 6 days after-hatching. A low, although sustained, capacity for de novo synthesis of glucose from amino acids and glycerol was also observed. Regardless of the composition of the food, glycerol kinase activity significantly increased a few days prior to a massive mortality event. This could be related to a metabolic imbalance in the redox state responsible for the high mortality. Thus, glycerol kinase might be used as an effective nutritional and welfare biomarker. The studies in this report also revealed the important finding that feeding larvae with phospholipid-enriched Artemia improved animal viability and welfare, significantly increasing the rate of survival and growth of paralarvae.En prens

Efecto de la dieta sobre el proteoma de paralarvas de Octopus vulgaris

Nowadays, the common octopus (Octopus vulgaris) culture is hampered by massive mortalities occurring during early life-cycle stages (paralarvae). Although the causes of the high paralarvae mortality are not yet well defined and understood, the nutritional stress caused by diet is pointed out as one of the main factors. In this study the effect of diet on paralarvae is analysed trough a proteomic approach, to search for new biomarkers of nutritional stress. A total of 50 proteins showing differential expression in each condition analysed have been identified, highlighting proteins related with carbohydrate metabolism: glyceraldehyde-3-phosphate-dedydrogenase (GAPDH), triosephosphate isomerase and NADP+-specific isocitrate dehydrogenase; pyrimidine and beta-alanine metabolisms and vitamin B5 and CoA biosynthesis: dihydropyrimidinase; energetic metabolism: arginine kinase; detoxification: glutathione-S-transferase (GST), stress: heat shock proteins (HSP70); structural constituent of eye lens:S-crystallin; and cytoskeleton: actin, actin-beta/gamma1 and beta actin. Theresults obtained allow defining characteristic“proteomes” of paralarvae depending on the diet; as well as the use of these proteins as new biomarkers to evaluate their nutritional stress.En la actualidad el cultivo del pulpo común (Octopus vulgaris) se ve frenado por la alta mortalidad durante los primeras fases de desarrollo larvario. Aunque las causas de las mortalidades masivas de las paralarvas no están bien definidas, se apunta al estrés nutricional causado por la dieta como una de los factores principales. En este estudio se analiza el efecto de la dieta en paralarvas de pulpo mediante una aproximación proteómica, con el objetivo de buscar nuevos biomarcadores de estrés nutricional. Se han identificado 50 proteínas del total de las que presentaban expresión diferencial en cada condición analizada, destacando proteínas relacionadas con metabolismo de carbohidratos: gliceraldehido-3-fosfato deshidrogenasa (GAPDH), trifosfatoisomerasa e isocitrato dehidrogenasa NAPD+ dependiente; metabolismo de pirimidinas y beta–alanina y biosíntesis de vitamina B5 y CoA: dihidropirimidasa; metabolismo energético: arginina cinasa; sistema de detoxificación: glutatión-S transferasa (GST); de estrés: proteínas de estrés térmico (HSP70);estructura de la lente del ojo: S-cristalino; y citoesqueleto: actina, actina-beta/gamma1 y beta actina. Los resultados obtenidos permiten definir “proteomas” característicos de paralarvas en función de la dieta; así como el uso de estas proteínas como nuevos biomarcadores para evaluar el estrés nutricional de las mismas

EFECTO DE LOS FOSFOLÍPIDOS MARINOS SOBRE BIOMARCADORES NUTRICIONALES Y DE ESTRÉS FISIOLÓGICO DE LAS PARALARVAS DEL PULPO COMÚN (OCTOPUS VULGARIS) BAJO CONDICIONES DE CULTIVO ESTANDARIZADAS EN TRES CENTROS

El efecto del enriquecimiento de la Artemia con fosfolípidos marinos (LC60), sobre el crecimiento, la supervivencia y los biomarcadores de condición nutricional (ARN/ADN) y de estrés fisiológico (proteínas de estrés (HSP70), enzimas antioxidantes y peroxidación lipídica) en paralarvas cultivadas de pulpo común (Octopus vulgaris) se evaluó bajo un protocolo estandarizado en tres centros. Las paralarvas recién eclosionadas mostraron diferencias significativas entre centros en peso seco y en la mayor parte de los biomarcadores analizados. Por el contario, en paralarvas cultivadas de 15 días, se encontraron diferencias significativas debidas a la dieta, presentando un incremento en la tasa de crecimiento específica (TCE) en el grupo alimentado con Artemia enriquecida con LC60 y mayores niveles de actividad GPX T y GR. Sin embargo, la dieta no tuvo efecto en la supervivencia de las paralarvas. Los biomarcadores de condición nutricional y de estrés fisiológicos presentaron diferencias entre los centros. Los resultados indican que el uso de fosfolípidos marinos como enriquecimiento de Artemia mejora el crecimiento de las paralarvas, si bien no se observa un efecto positivo de dicho tratamiento sobre la supervivencia de las mismas

Fisiología de la nutrición y del estrés en las primeras fases de vida del pulpo común (Octopus vulgaris). Resultados del proyecto OCTOPHYS

El cultivo del pulpo común (Oclopus vulgaris) está severamente limitado por las altas mortalidades que se producen durante su cultivo larvano, aunque en la actualidad, las causas especfficas de tan alta mortalidad siguen siendo desconocidas. Este proyecto pretende adquirir conocimientos básicos sobre la biología y fisiologia de las paralarvas a través de un enfoque multidisciplinarque incluye aspectos innovadores relacionados con la fisiologia de la nutrición y el estrés. Los objetivos propuestos están basados en un fuerte input zootécnico y prevén el uso de herramientas biométricas, bioquímicas, enzimáticas, moleculares y proteómicas, con el fin último de optimizar la condición y supervivencia de las paralarvas. Incluyen asimismo la búsqueda y selección de biomarcadores capaces de detectar y cuantíñcar el estrés nutricional.The culture oflhe common octopus (Octopus vulgaris) is hindered by high mortalities encountered during its paralarval rearing, allhough at present, Ihe specific causes forlhe high mortalities observed remain unidentified. This project aims at galhering a beller understanding of Ihe basic biology and physiology ofthe paralarvae, through a multidisciplinary and integrated approach, which includes Ihe study oflhe physiology 01 nutrition and!he evaluation 01Ihe stress condition. The objectives proposed are basad on a strong zootechnical input and foresee Ihe use of biometric, biochemical, enzymatic, molecular biology and proteomic tools, pointing towards the ultimate optimisation of Ihe paralarval condition and survival. They also include Ihe study ofthe nutritionally-derived stress and Ihe selection ofbiomarkers capable of its detection and quantification