The Effect of Orally Supplemented Melatonin on Larval Performance and Skeletal Deformities in Farmed Gilthead Seabream ( Sparus aurata )

The gilthead seabream larval rearing in continuous light is common in most Mediterranean hatcheries to stimulate larval length growth and increase food consumption. Several studies have shown that continuous light affects larval development and increases the prevalence of skeletal deformities. Melat...

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Bibliographic Details
Published in:International Journal of Molecular Sciences
Main Authors: Kamel Mhalhel, Antonino Germanà, Francesco Abbate, Maria Cristina Guerrera, Maria Levanti, Rosaria Laurà, Giuseppe Montalbano
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2020
Subjects:
melatonin
opercular complex
bone deformity
growth
Sparus aurata
PTHrP
Biology (General)
QH301-705.5
Chemistry
QD1-999
Atlantic salmon
Online Access:https://doi.org/10.3390/ijms21249597
https://doaj.org/article/37ed66b851bb4482ad4516af9666203b
Description
Summary:The gilthead seabream larval rearing in continuous light is common in most Mediterranean hatcheries to stimulate larval length growth and increase food consumption. Several studies have shown that continuous light affects larval development and increases the prevalence of skeletal deformities. Melatonin is a crucial pineal neurohormone that displays daily secretion patterns, stimulates cell proliferation and embryonic development in Atlantic salmon and zebrafish, and improves osseointegration in mice and humans. However, no studies have examined the effects of orally supplemented melatonin on skeletal deformities in Sparus aurata larvae. We administered exogenous melatonin to gilthead seabream larvae via enriched rotifers and nauplii of Artemia. Exogenous melatonin induced bone deformities and stimulated parathyroid hormone-related protein-coding gene ( PTHrP ) mRNA expression. In addition to the melatonin-induced PTHrP high expression level, the recorded non coordinated function of skeletal muscle and bone during growth can be the fountainhead of bone deformities. Both myosin light chain 2 ( mlc2 ) and bone gamma-carboxyglutamate protein-coding gene ( bglap ) expression levels were significantly affected by melatonin administration in an inverse dose–response manner during the exogenous melatonin administration. This is the first study to report the effect of inducing melatonin bone deformities on Sparus aurata larvae reared under ordinary hatchery conditions.

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