Improvement of Senegalese sole sperm quality through the action of melatonin as an antioxidant

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The protective effect of endogenous melatonin on gilthead seabream sperm during cryopreservation

Publication . Félix, Francisca; Antunes, Raquel; Vera, L. M.; Oliveira, Catarina; Cabrita, Elsa

Cryopreservation is widely used for artificial reproduction techniques (ART) but requires good gamete quality to succeed. Considering the endogenously produced melatonin by the fish and its protective role in the organism, the objective of this experiment was to search for the best moment of the day to collect gilthead seabream (Sparus aurata) sperm with better quality and, at the same time, to test the potential protective effect of the exogenous melatonin during sperm freezing and thawing processes. Fish were first sampled every 6 h, corresponding to the beginning of the light period (6 h), mid-light (12h), beginning of the dark period (18 h), and mid-dark (24 h) to determine melatonin concentration in blood plasma by radioimmunoassay (RIA). The analysis showed higher values at 24 h (244 pg/mL) compared with 12 h (99 pg/mL), which allowed the selection of those moments for the next experiment. After, fish were sampled for sperm collection at mid-light (ML, 12 h) and mid-dark (MD, 24 h), and fresh sperm was used to assess gamete quality and for the cryopreservation assay. Sperm samples were cryopreserved to test supplementation of different melatonin concentrations (0.001 mM, 0.01 mM and 0.1 mM) together with a control group without added melatonin. Gamete quality was assessed through spermatozoa concentration and motility (CASA system), cell viability (PI/SYBR-green) and DNA fragmentation (Comet assay). Despite cell viability that was higher at ML, most of the fresh sperm motility parameters did not differ between ML and MD, only linearity (LIN) was enhanced at MD. Nevertheless, in cryopreserved samples, total motility (TM) was significantly higher at MD in all melatonin treatments, control, and fresh samples, revealing an endogenous night-effect. Moreover, spermatozoa concentration was also higher at MD (28.9 x 109/mL) than at ML (20.7 x 109/mL). Supplemented melatonin did not confer extra protection to gilthead seabream sperm during cryopreservation since the tested concentrations did not differ between the control in any sperm quality test. It is here suggested that endogenously produced melatonin may contribute to the improvement of some gamete quality parameters at mid-dark, allowing the aquaculture sector to select better sperm quality in a noninvasive way by choosing it as the best moment of the day for sperm collection.

2023Journal article

Open Access

Novel approaches on melatonin role: presence of clock-hormone in fish seminal plasma

Publication . Félix, Francisca; Gallego, Victor; Mendes, Ana; Soares, Florbela; Vera, Luisa M.; Cabrita, Elsa; Oliveira, Catarina

The study of melatonin is of great importance for the fundamental knowledge of any living system since it displays many different physiological roles, including being a potent natural antioxidant. To the best of our knowledge, there is no information regarding melatonin in fish seminal plasma. This study aimed to determine this clock-hormone levels in the seminal plasma of three aquaculture fish species: European seabass (Dicentrarchus labrax), gilthead seabream (Sparus aurata), and Senegalese sole (Solea senegalensis) (both wild and F1 breeders), and to explore melatonin potential role in fish reproduction and spermatozoa antioxidant status. Blood and seminal plasma were collected from fish during their reproductive season, at two different times of the day [mid-light (ML) and mid-dark (MD)], and melatonin concentration was determined by radioimmunoassay (RIA). Testosterone (T), 11-ketotestosterone (11KT), and total antioxidant status (TAS) were also determined, to investigate the putative role of seminal melatonin in fish reproduction, both at endocrine and antioxidant levels. For each species, Pearson's correlation analysis was performed between all possible factors. Blood plasma melatonin showed higher average values at night in the three species: gilthead seabream (808 +/- 139 pg/mL), European seabass (364 +/- 85 pg/mL), and Senegalese sole (248 +/- 40 and 88 +/- 11 pg/mL in F1 and wild males, respectively). However, melatonin levels in seminal plasma were species-specific: in European seabass, melatonin levels were not detectable at any time-point, whereas in gilthead seabream it was only found at MD (average of 21 pg/mL), and in Senegalese sole, different melatonin patterns were observed between F1 and wild males, but both had higher melatonin at MD (6.84 and 14.26 pg/mL, respectively). In gilthead seabream, at MD seminal melatonin levels correlated with the antioxidant status of seminal plasma. A relationship between blood melatonin and seminal TAS levels was observed in European seabass at ML: in this species, seminal melatonin could not be detected and the lowest seminal TAS levels were found. Regarding steroid analysis, opposite patterns in the seminal plasma of F1 and wild Senegalese sole were observed: at MD, wild Senegalese sole had substantially greater 11KT levels (2.53 ng/mL), whereas F1 males had higher T levels (1.92 ng/mL). In gilthead seabream, a positive correlation between T and ML blood melatonin and seminal TAS was observed. This study unraveled the species-specificity and daily changes of melatonin in fish seminal plasma.

2023Journal article

Open Access

Effects of dietary supplementation with macroalgae on sperm quality and antioxidant system in Senegalese sole

Publication . Félix de Azeredo Pinto e Melo, Francisca; Silva, Nádia; Oliveira, Catarina; Cabrita, Elsa; Gavaia, Paulo

Within the efforts in the search for novel feed ingredients in aquaculture, macroalgae are being widely explored due to their diversity of bioactive compounds with considerable prophylactic and therapeutic potential. Plocamium cartilagineum and Sargassum vulgare, have the potential to positively impact fish health, mainly due to their antioxidant properties. The production of Senegalese sole (Solea senegalensis) still faces some constraints due to the low sperm quantity and quality of males from captivity, which is highly affected by oxidative stress. We hypothesized that the scavenger ability of P. cartilagineum and S. vulgare could ameliorate the reproductive performance of Senegalese sole males, once incorporated in the roodstock feeds. In this experiment, broodstock groups were fed with three different formulated experimental diets for 60 days: Control (Ctrl), a diet supplemented with 5% P. cartilagineum (Pc), and a diet supplemented with 5% S. vulgare (Sv). Fish were sampled twice to evaluate sperm quality using different techniques: sperm motility by Computer Assisted Sperm Analysis (CASA) software, and cell viability and Reactive Oxygen Species (ROS) by flow cytometer. At the final sampling, 6 fish per treatment were sacrificed and gonads were extracted to determine the relative expression of anti- and pro-apoptotic genes (bcl2b, bcl-x, mcl1b, badb, bax, boka), and genes involved in fish antioxidant system (sod3, cat, gpx, hsp70). Sex steroids were measured on blood plasma by ELISA. Specific growth rate (SGR) and feed efficiency were also evaluated at the end of the experiment. Senegalese sole breeders fed with Pc diet for 60 days showed enhanced sperm total motility and cell viability at the end of the experiment, when compared with the Ctrl diet. On the other hand, fish fed with Sv diet had lower spermatozoa intracellular ROS and upregulated gpx in the gonads. No differences were obtained in levels of sex steroids and gonadal apoptotic system after 60 days of feeding, however, the macroalgae species and the percentages of incorporation used proved to positively modulate different spermatozoa traits.

2024-09Journal article

Open Access

Melatonin production improves Senegalese sole sperm motility at night, but fails as a supplement during cryopreservation

Publication . Félix de Azeredo Pinto e Melo, Francisca; Ferrão, Leonor; Gallego, Victor; Oliveira, Catarina; Cabrita, Elsa

Melatonin is a powerful antioxidant present in fish seminal plasma. This study aimed to understand melatonin's endogenous and exogenous effects on first-generation Senegalese sole sperm quality for sperm management applications. In the first experiment, samples were collected at mid-light (ML) and mid-dark (MD) daytimes, to evaluate the effects on sperm motility. In a second experiment, using confocal microscopy and melatonin-FITC, spermatozoa permeability to melatonin was evaluated and, after showing that it enters the nucleus and mitochondria by passive diffusion, exogenous melatonin toxicity and antioxidant potential during a cryopreservation assay were performed. The toxicity assay tested different melatonin concentrations (0.01, 0.1, 1, and 10 mM) and exposure times (3, 5, 15 and 30 min), and sperm motility parameters were measured (TM, PM, VCL, VSL, LIN) using CASA system. The best conditions (0.1 and 10 mM) were selected for the cryopreservation assay, and a set of post-thaw sperm quality analyses were performed (motility, viability, reactive oxygen species, lipid peroxidation, and DNA fragmentation). The motility analyzed at ML and MD showed significant differences in all parameters, mainly on velocities (VCL, VSL, VAP), that were significantly higher at MD. Supplemented melatonin did not influence spermatozoa motility, MDA content or DNA fragmentation, although a lower percentage of viable cells was obtained on the 10 mM treatment. Altogether, Senegalese sole spermatozoa motility was enhanced at night, putatively by endogenous melatonin through direct or indirect mechanisms, whereas supplemented melatonin did not confer extra protection during cryopreservation.

2024-12Journal article

Open Access