Evaluation of different hormone inducers on the reproduction of <i>Prochilodus brevis</i> males<sup/>

Vieira, Carla Tatiana Nascimento Sousa; Sales, Yara Silvino; Lobato, Jessica Sales; Apoliano, Marcos Luiz da Silva; Ferreira, Yasmim Maia; Cândido-Sobrinho, Silvio Alencar; Pereira, Vanessa Alves; Salmito-Vanderley, Carminda Sandra Brito

doi:10.5935/1806-6690.20240004

ABSTRACT

The use of carp pituitary extract (CPE) in fish reproduction may have drawbacks, whereas analogues of mammalian (aGnRHm) or salmon (aGnRHs) gonadotropins containing dopamine inhibitor (DI) may offer greater advantages. The objective of this study was to evaluate the effect of different hormone inducers on the reproduction of Prochilodus brevis males. A total of 44 specimens of P. brevis were divided into six groups, namely, CPE 4.0 mg; saline solution 1.0 mL; aGnRHm + DI 0.3 mg and 0.5 mg; and aGnRHs + DI 0.25 mL and 0.35 mL kg^-1 of live weight. The number of ejaculates, seminal volume, curvilinear velocity (VCL), straight-line velocity (VSL), average path velocity (VAP), sperm morphology and concentration, and membrane and DNA integrity were determined. Sample normality was examined using the Shapiro-Wilk test, and homogeneity using the Levene test. Analysis of variance (ANOVA) was conducted, followed by Tukey's test to compare means, with statistical significance set at p < 0.05. Notably, all fish induced with CPE 4.0 and aGnRHm + DI demonstrated ejaculation, yielding a greater seminal volume. Sperm concentration under aGnRHs + DI 0.35 exceeded that with aGnRHm + DI 0.3 and CPE 4.0. Regarding velocity, aGnRHm + DI 0.3 outperformed aGnRHs + DI 0.35 in VCL, while aGnRHm + DI 0.3 and 0.5 and aGnRHs + DI 0.25 led to higher VSL than aGnRHs 0.35. Additionally, VAP was elevated under aGnRHm + DI 0.3 and CPE, in contrast to aGnRHs + DI 0.35. Improved sperm morphology was observed with aGnRHm + DI 0.5 and aGnRHs + DI 0.25 compared to aGnRHm + DI 0.3. The remaining parameters did not differ significantly.

Key words
Brazilian bocachico; Carp pituitary; Gonadotropins

INTRODUCTION

Prochilodus brevis, commonly known as the Brazilian bocachico or common curimatã, holds significant ecological importance within the fluvial ecosystems it inhabits due to its detritivore feeding behavior (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). Moreover, it enjoys commercial value, particularly in the northeast region of the country (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.). However, due to the unique characteristics of its eggs, which experience an increase in production during the reproductive period from December to May, the species faces a threat to survival, necessitating protection during the closed period (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.).

As a rheophilic fish, the Brazilian bocachico migrates kilometers against the current, particularly during the rainy season, to initiate reproduction. This migration serves as a crucial trigger for the hormonal cascade, influenced by environmental stimuli (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). Hormonal spikes are released in the hypothalamic-pituitary-gonadal axis through the bloodstream, leading to testicular hydration and heightened seminal plasma in males, and migration as well as the rupture of the germinal vesicle in females (MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.).

In confined or hormonally induced conditions within artificial environments, rheophilic fish are capable of releasing gametes (MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.). The most frequently employed hormone inducer for rheophilic fish, including the Brazilian bocachico, is carp pituitary extract (CPE) (BALDISSEROTO, 2018BALDISSEROTO, B. Fisiologia de peixes aplicada à piscicultura. 3. ed. Santa Maria: UFSM, 2018.). This natural inducer contains gonadotropins from donor fish, stimulating gamete release in recipient fish (BALDISSEROTO, 2018BALDISSEROTO, B. Fisiologia de peixes aplicada à piscicultura. 3. ed. Santa Maria: UFSM, 2018.). However, CPE is both costly and has been associated with disadvantages (SOUZA et al., 2018SOUZA, F. N. et al. Ovopel® and carp pituitary extract for induction of reproduction in Colossoma macropomum females. Animal Reproduction Science, v. 195, p. 53-57, 2018.).

An alternative option lies in using gonadotropin analogues (aGnRH) that possess high potency, capable of stimulating pituitary hormones like luteinizing hormone (LH) and follicle-stimulating hormone (FSH) (MARTINS et al., 2017MARTINS, E. F. F. et al. Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.; SOUZA et al., 2018SOUZA, F. N. et al. Ovopel® and carp pituitary extract for induction of reproduction in Colossoma macropomum females. Animal Reproduction Science, v. 195, p. 53-57, 2018.; VIVEIROS et al., 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.). These analogous inducers, such as mammalian GnRH (aGnRHm) or salmon (aGnRHs), are cost-effective and readily available in the fish market. These inducers may also be associated with a dopamine inhibitor (DI), a GnRH antagonist (MARTINS et al., 2017MARTINS, E. F. F. et al. Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.; VIVEIROS et al, 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.).

Despite their widespread use, pituitaries from mature fish can lead to immune reactions and disease transmission to recipient fish (MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.). Therefore, the use of natural hormone inducers like CPE, derived from the pituitary of other fish, can pose risks to the reproduction of the Brazilian bocachico, potentially transmitting diseases and causing batch-to-batch variability in commercial products (MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.). Conversely, mammalian GnRH analogues associated with a dopamine inhibitor offer advantages by targeting early stages of the hormonal cascade, directly affecting the recipient fish's pituitary gland and stimulating other gonadotropic hormones at a lower cost (MARTINS et al., 2017MARTINS, E. F. F. et al. Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.; SOUZA et al., 2018SOUZA, F. N. et al. Ovopel® and carp pituitary extract for induction of reproduction in Colossoma macropomum females. Animal Reproduction Science, v. 195, p. 53-57, 2018.; VIVEIROS et al., 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.). This study aimed to test different hormone inducers to enhance the release and quality of seminal fluid in P. brevis.

MATERIAL AND METHODS

Animals, facilities, and authorization

Conducted in March 2022, coinciding with the reproductive period of the species, the experiment took place at the Laboratory of Biotechnology of Fish Reproduction (LBRP) on the Itaperi Campus of the State University of Ceará (UECE), Fortaleza, Ceará, Brazil. Ethical approval was obtained from the UECE Ethics Committee (approval no. 03463435/2022). The animals were provided with commercial feed (32% protein), both macerated and in grain form, and were housed in a 7000-L fiberglass tank equipped with a continuous water recirculation system and aeration facilitated by an air compressor using porous stones.

Hormonal induction and semen collection

For hormone induction, a total of 44 males were utilized, possessing an average weight of 160 g and an average length of 20 cm. These specimens were divided into six distinct groups: Group 1 received a placebo induction via the injection of saline solution (SS) at a rate of 1.0 mL kg^-1 live weight, serving as the negative control; Group 2 was administered carp pituitary extract at a dosage of 4.0 mg kg^-1 live weight, serving as the positive control; Group 3 received aGnRHm + DI (OVOPEL^®) at the dose of 0.3 pellet kg^-1 live weight; Group 4 received aGnRHm + DI (OVOPEL^®) at 0.5 pellet kg^-1 live weight; Group 5 was subjected to aGnRHs + DI (OVAPRIM^®) at 0.25 mL kg^-1 live weight; finally, Group 6 underwent aGnRHs + DI (OVAPRIM^®) at 0.35 mL kg^-1 live weight. This experimental setup was carried out under a completely randomized design.

Due to the distinct characteristics of hormonal action, the induction procedures for the various groups occurred at different times. Specifically, at 17h00, the administration of saline solution at a rate of 1.0 mL kg^-1 live weight, CPE at 4.0 mg kg^-1 live weight, and aGnRHm + DI 0.3, and aGnRHm + DI 0.5 were conducted for the first set of groups. Semen collection was performed after a span of 14 h following induction (PEREIRA et al., 2020PEREIRA, V. A. et al. Supplementation of cryodiluent media with seaweed or Nile tilapia skin sulfated polysaccharides for freezing of Colossoma macropomum (Characiformes: Serrasalmidae) semen. Aquaculture, v. 528, p. 735553, 2020.). Subsequently, at the time of seminal collection for these groups, the hormone induction of the aGnRHs + DI groups took place at 07h00. This involved administering aGnRHs + DI 0.25 and aGnRHs + DI 0.35, with the collection of semen performed six hours post-induction (VIVEIROS et al., 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.). All applications were accomplished through intracoelomic injections (LOPES et al., 2014LOPES, J. T. et al. Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.; VIVEIROS et al., 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.).

In the semen collection process, animals were individually sedated using a solution containing eugenol, alcohol, and water in a ratio of 1:10:10,000 (LOPES et al., 2014LOPES, J. T. et al. Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.; NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). When exhibiting signs of imbalance, animals were transferred to the collection area where their ocular region was covered with a damp cloth and the urogenital papilla was carefully cleaned and dried to prevent contamination (LOPES et al., 2014LOPES, J. T. et al. Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.). Soon after, an abdominal massage was performed in a craniocaudal direction to facilitate semen release (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.; PEREIRA et al., 2020PEREIRA, V. A. et al. Supplementation of cryodiluent media with seaweed or Nile tilapia skin sulfated polysaccharides for freezing of Colossoma macropomum (Characiformes: Serrasalmidae) semen. Aquaculture, v. 528, p. 735553, 2020.). Seminal content was collected using a syringe or graduated microtube. Collected samples were promptly placed in a thermal box with ice at around 4 °C for preservation until further analysis (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.).

Seminal analysis

Semen volume (mL) was quantified by measuring the collected amount in each graduated microtube (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). Ejaculation status was categorized based on visible semen presence; animals with even minimal semen were considered "ejaculated," while those lacking visible semen were deemed "non-ejaculated."

Kinetic analysis was conducted within one hour of collection using computerized semen analysis software, specifically (Sperm Class Analyser, SCA) by Microptics^®, configured for fish. A microvolume (1 μL) of semen from each animal was placed on a Makler chamber, activated with NaCl (220 mM), and subjected to parameter analysis, including total motility (%), curvilinear velocity (VCL, μm s^-1), straight-line velocity (VSL, μm s^-1), and average path velocity (VAP, μm s^-1) (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.).

For assessing Brazilian bocachico sperm morphology, semen was fixed using a 4% formalinized citrate solution (1:100; semen:fixative). A stained aliquot was prepared using Rose Bengal dye (4:20 ratio; dye:fixed semen) following Nunes et al. (2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). Using the smear technique, two slides were prepared with 100 spermatozoa each, and examined under an optical microscope (400x) (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.). Classification followed the method outlined by Miliorini et al. (2011MILIORINI, A. B. et al. A morphological classification proposal for curimba (Prochilodus lineatus) sperm damages after cryopreservation. Aquaculture Research, v. 42, n. 2, p. 177-187, 2011.).

The integrity of sperm cell plasma membranes was evaluated using the smear technique and eosin-nigrosin staining. A mixture of semen, eosin, and nigrosin (1:2:2 ratio) was applied to slides, and 200 spermatozoa per slide were assessed for membrane integrity using a light microscope (400 x). Those with an intact membrane were considered to be colorless and those with a ruptured membrane were considered to have a pinkish/red tinge (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.).

DNA integrity was determined using the Sperm Chromatin Dispersion (SCD) test, based on the fragmentation rate of sperm chromatin, according to Fernández et al. (2005FERNÁNDEZ, J. L. et al. Simple determination of human sperm DNA fragmentation with an improved sperm chromatin dispersion test. Fertility and Sterility, v. 84, n. 4, p. 833-842, 2005.), following adaptations by Almeida-Monteiro et al. (2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.) and adaptations from this very study. Two hundred spermatozoa were analyzed per slide using a phase contrast microscope coupled to a camera (Nikon Eclipse 50i, Tokyo, Japan) in a CASA system. The presence of a halo around the sperm head was analyzed, and cells with an outer halo indicated intact DNA, while those without a halo indicated DNA fragmentation.

Sperm concentration was determined by fixing semen samples in saline formalin (1:1000 ratio; semen:formaldehyde). A Neubauer chamber was used for counting, with 10 µL of each sample (LOPES et al., 2014LOPES, J. T. et al. Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.).

Statistical analyses

Statistical analyses were performed using the R statistical environment (R CORE TEAM, 2019R CORE TEAM. R: a language and environment for statistical computing. Vienna, Austria: The R Project for Statistical Computing, 2019.). Data are presented as means ± standard deviation and were calculated using the dplyr package (WICKHAM et al., 2019WICKHAM, H. et al. Welcome to the Tidyverse. Journal of Open Source Software, v. 4, n. 43, p. 1686, 2019.).

Fisher's Exact Probability Test, available in the stats package (R CORE TEAM, 2019R CORE TEAM. R: a language and environment for statistical computing. Vienna, Austria: The R Project for Statistical Computing, 2019.), was employed to assess the influence of treatments and concentrations on ejaculation frequency. One-tailed tests were utilized to compare probabilities (P < 0.05).

For variables requiring transformation, such as Frequency, DNA integrity, motility, and morphology, the square root of the arcsine was applied (Equation 1: y=sin^(-1)⁡〖√x×(180⁄π)), to achieve normal distribution. Continuous variables (VCL, μm s^-1; VSL, μm s^-1, VAP, μm s^-1, and concentration) were kept in their original magnitudes.

Data normality was tested using the Shapiro-Wilk test, and homogeneity was assessed using the Levene test. Once the assumptions of normality were met, significant differences were evaluated between the aGnRHm + DI and aGnRHs + DI treatments and their respective concentrations, as well as CPE (positive control) and SS (negative control) using one-way ANOVA analysis. Tukey's test was employed for mean comparisons (P < 0.05).

RESULTS AND DISCUSSION

This study marks the pioneering comparison of hormonal induction of reproduction in P. brevis, utilizing mammalian and salmon GnRH in conjunction with antidopaminergic agents. Table 1 presents the reproductive characteristics of P. brevis semen, including ejaculation parameters, volume, and concentration, following various hormonal treatments in comparison to controls.

Thumbnail

Table 1
Hormone induction effects on Prochilodus brevis sperm parameters

Mean percentage and standard error (±) values for volume, concentration, and ejaculation based on induced animals. Statistical significance level: p < 0.05. Different superscript letters indicate significant differences (p < 0.05). SS - saline solution; CPE - carp pituitary extract; aGnRHm + DI - mammalian GnRH analogue with dopamine inhibitor; aGnRHs + DI - salmon GnRH analogues with dopamine inhibitor. *n/nt - number of animals that ejaculated over the total number of animals induced

Semen collection from P. brevis was attempted using SS 1.0 (placebo), resulting in only two out of four animals ejaculating, with negligible semen volume, rendering measurement unfeasible (Table 1). Conversely, CPE 4.0 induced a seminal volume of 0.62 mL, with successful ejaculation in all eight animals. The aGnRHm + DI treatment group demonstrated superior seminal volume efficiency compared to the SS 1.0 group (Table 1). Furthermore, a higher number of animals ejaculated in the aGnRHm + DI group compared to the aGnRHs + DI group.

The number of animals that ejaculated in the aGnRHs + DI group was unexpected. This could be attributed to the potential potentiating effect of the antidopaminergic agent on the reproductive response of GnRH. Antidopaminergics inhibit dopamine, a dopaminergic neurotransmitter that restrains the synthesis and release of GnRH into the middle eminence and portal hypophyseal circulation (MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.). A study involving the induction of reproduction using aGnRH hormones (gonadorelin) in Hypancistrus zebra reported variations in semen release among animals, contrasting with the uniform gametic release seen with carp pituitary homogenate (CPH) as control (CALDAS et al., 2021CALDAS, J. S. et al. Effects of hormonal treatment on induced spermiation and semen quality in the endangered Amazonian fish Hypancistrus zebra (Siluriformes, Loricariidae). Aquaculture, v. 533, p. 736140, 2021.). This is akin to the outcomes of the current study using GnRHs in conjunction with the antidopaminergic domperidone. In the H. zebra study, the disparity in ejaculation was attributed to immunological factors (CALDAS et al., 2021CALDAS, J. S. et al. Effects of hormonal treatment on induced spermiation and semen quality in the endangered Amazonian fish Hypancistrus zebra (Siluriformes, Loricariidae). Aquaculture, v. 533, p. 736140, 2021.). In the present research, using metoclopramide as the antidopaminergic (aGnRHm + DI), all animals achieved semen release, often in larger volumes than those treated with domperidone (aGnRHs + DI), suggesting that the specific type of dopamine inhibitor could influence outcomes.

In certain fish species, two doses of inducing hormones are necessary for complete maturation and ejaculation. For instance, in P. brevis, two doses of CPE 4.0 were applied to prompt release (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.), differing from our study, where a single dose led to 100% semen release. This variation could stem from inconsistencies in CPE 4.0 composition and a lack of control over hormone proportion and presence due to collection from animals in varying reproductive states.

Seminal volume is known to be influenced by the type and dosage of hormones employed for reproductive induction. Despite lacking intrinsic fertilization effects, seminal volume corresponds to the quantity of cells contained (FERNANDES et al., 2020FERNANDES, J. F. F. et al. Contribuição técnica: identificação de anomalias espermáticas no sêmen in natura de curimatã (Prochilodus lacustris) (Steindachner, 1907). Brazilian Journal of Development, v. 6, n. 3, p. 10418-10431, 2020.; SOLIS-MURGAS et al., 2011SOLIS-MURGAS, L. D. et al. Importância da avaliação dos parâmetros reprodutivos em peixes nativos. Revista Brasileira de Reprodução Animal, v. 35, n. 2, p. 186-191, 2011.). The increase in seminal volume following hormone application is attributed to heightened hydration of the testicular ducts under stimulation (BERNARDES JÚNIOR; BOMBARDELLI; NUÑER, 2017BERNARDES JÚNIOR, J. J. B.; BOMBARDELLI, R. A.; NUÑER, O. A. P. Gonadorelin increases semen production and does not affect its quality in Leporinus obtusidens. Animal Reproduction Science, v. 185, p. 154-160, 2017.; MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.). This increase results from luteinizing activity stimulated by inducers, promoting augmented fluid production in sertoli cells and seminal vesicles, thus enhancing maturation-inducing steroid synthesis (CALDAS et al., 2021CALDAS, J. S. et al. Effects of hormonal treatment on induced spermiation and semen quality in the endangered Amazonian fish Hypancistrus zebra (Siluriformes, Loricariidae). Aquaculture, v. 533, p. 736140, 2021.; MYLONAS; DUNCAN; ASTURIANO, 2017MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.). Consequently, increased seminal volume occurs through hydrostatic pressure within the testes, facilitating greater displacement through the ducts (CALDAS et al., 2021CALDAS, J. S. et al. Effects of hormonal treatment on induced spermiation and semen quality in the endangered Amazonian fish Hypancistrus zebra (Siluriformes, Loricariidae). Aquaculture, v. 533, p. 736140, 2021.; RAINIS; BALLESTRAZZI, 2005RAINIS, S.; BALLESTRAZZI, R. The control of reproduction in finfish species through GnRH treatments. Italian Journal of Animal Science, v. 4, n. 4, p. 345-353. DOI: 10.4081/ijas.2005.345.
https://doi.org/10.4081/ijas.2005.345... ).

Sperm concentration knowledge is crucial for successful fertilization due to spermatozoa-to-oocyte ratio (SANCHES et al., 2015SANCHES, E. A. et al. Sperm characteristics of Steindachneridion parahybae (Steindachner, 1877) throughout 112 h of storage at four temperatures. Journal of Applied Ichthyology, v. 31, p. 79-88, 2015.). In this study, CPE 4.0 provided lower sperm concentration (109 spermatozoa/mL) compared to aGnRHs + DI 0.35 (p < 0.05) (Table 1). Among the inducers, aGnRHs + DI 0.35 outperformed aGnRHm + DI 0.3 (p < 0.05) (Table 1). Previous studies on P. brevis showed sperm concentrations induced by CPE 4.0 at 27.89 ± 6.13 (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.) and 41.19 ± 8.35 spermatozoa/mL (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.). Comparatively, P. lacustres displayed 4.1 ± 2.0 spermatozoa/mL (no hormonal induction) (FERNANDES et al., 2020FERNANDES, J. F. F. et al. Contribuição técnica: identificação de anomalias espermáticas no sêmen in natura de curimatã (Prochilodus lacustris) (Steindachner, 1907). Brazilian Journal of Development, v. 6, n. 3, p. 10418-10431, 2020.), while P. lineatus showed 13.6 ± 9.9 spermatozoa/mL (aGnRHs + DI 0.25 mg kg^-1) (VIVEIROS et al., 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.).

Considering the foregoing, it becomes evident that there exists a variation in sperm concentration in P. brevis or between species of the same genus. This variability stems from genetic diversity between individuals, alongside factors such as the timing of semen collection, management practices, and unique environmental conditions specific to each region (FERNANDES et al., 2020FERNANDES, J. F. F. et al. Contribuição técnica: identificação de anomalias espermáticas no sêmen in natura de curimatã (Prochilodus lacustris) (Steindachner, 1907). Brazilian Journal of Development, v. 6, n. 3, p. 10418-10431, 2020.). Moreover, the general attributes of semen are subject to a multitude of influences, including nutritional status, age, weight of the animals, health condition, exogenous hormonal interventions, frequency and methodology of semen collection, intervals of sexual rest, and prevailing climatic conditions (SOLIS-MURGAS et al., 2011SOLIS-MURGAS, L. D. et al. Importância da avaliação dos parâmetros reprodutivos em peixes nativos. Revista Brasileira de Reprodução Animal, v. 35, n. 2, p. 186-191, 2011.), which can also be subject to disruptions due to confinement conditions (ALMEIDA, 2013ALMEIDA, F. L. Endocrinologia aplicada na reprodução de peixes. Revista Brasileira de Reprodução Animal, v. 37, n. 2, p. 174-180, 2013.). Furthermore, the application of aGnRH serves to elevate the production of seminal fluid, as well as stimulate processes such as spermatogenesis, spermiogenesis, and spermiation (MARTINS et al., 2017MARTINS, E. F. F. et al. Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.). This surge in seminal fluid production may potentially contribute to the elimination of intratesticular spermatozoa, providing a rationale for the higher sperm concentration identified in this study.

Sperm kinetics constitutes a crucial parameter for the characterization of fish semen, given its direct correlation with the fertilization rate (FIGUEROA et al., 2016FIGUEROA, E. et al. Cryopreservation of Atlantic salmon Salmo salar sperm: effects on sperm physiology. Journal of Fish Biology, v. 89, n. 3, p. 1537-1550, 2016.). In this study, no significant difference was noted in VCL between the positive control (CPE 4.0) and the other treatment groups (Table 2). However, when comparing the aGnRH + DI treatments, VCL demonstrated a lower value with aGnRHs + DI 0.35 than with aGnRHm + DI 0.3 (Table 2). Regarding VAP, both CPE 4.0 and aGnRHm + DI 0.3 yielded higher results compared to aGnRHs + DI 0.35 (p > 0.05) (Table 2). Similarly, when comparing the aGnRH + DI treatments, VCL was lower under aGnRHs + DI 0.35 than under aGnRHm + DI 0.3, and CPE 4.0 and aGnRHm + DI 0.3 demonstrated superior VAP values to aGnRHs + DI 0.35 (p > 0.05) (Table 2).

Thumbnail

Table 2
Velocity and motility parameters of Prochilodus brevis spermatozoa following the application of different hormone inducers

Among sperm kinetic parameters, VCL emerges as a paramount factor in seminal evaluation, as its curvilinear movement is instrumental in facilitating the sperm's entry into the oocyte (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). In fact, a study conducted on a species from the same genus, P. lineatus, revealed that VCL exhibited the most significant positive correlation with the fertilization process, in cryopreserved semen. This relationship is corroborated by VCL, as it represents the actual trajectory of fish sperm (VIVEIROS et al., 2010VIVEIROS, A. T. M. et al. Motility and fertility of the subtropical freshwater fish streaked prochilod (Prochilodus lineatus) sperm cryopreserved in powdered coconut water. Theriogenology, v. 74, n. 4, p. 551-556, 2010.).

While VCL is the most important velocity examined in the analysis of seminal dynamics within fish, notably P. brevis, due to the anticipated curvilinear path that spermatozoa traverse to locate the oocyte's micropyle (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.), it is crucial to recognize that the parameters evaluated in sperm kinetics are interconnected (SANCHES et al., 2015SANCHES, E. A. et al. Sperm characteristics of Steindachneridion parahybae (Steindachner, 1877) throughout 112 h of storage at four temperatures. Journal of Applied Ichthyology, v. 31, p. 79-88, 2015.). Both VAP and VSL, when combined with VCL, assume significance in the fertilization process (VIVEIROS et al., 2010VIVEIROS, A. T. M. et al. Motility and fertility of the subtropical freshwater fish streaked prochilod (Prochilodus lineatus) sperm cryopreserved in powdered coconut water. Theriogenology, v. 74, n. 4, p. 551-556, 2010.).

Regarding total motility, there were no significant differences between treatments (p < 0.05) (Table 2). The total motility achieved with CPE induction in P. brevis aligned with previous studies, recording values of 95.54 ± 3.63% (LOPES et al., 2014LOPES, J. T. et al. Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.) and 99.08 ± 0.36% (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.). In P. lineatus, CPE at 4.0 resulted in a total motility of 65 ± 21%, comparable to aGnRHs at 0.25 mL (76 ± 11%) (VIVEIROS et al., 2015VIVEIROS, A. T. M. et al. Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.).

In terms of sperm morphology, the percentage of normal sperm differed only from the aGnRHm + DI 0.3 treatment, being higher (Table 3). Among the aGnRH treatments, aGnRHm 0.3 displayed lower values than aGnRHm 0.5 and aGnRHs 0.25, though not differing from other treatments (p < 0.05) (Table 3). Earlier investigations reported P. brevis sperm morphology as 85.67 ± 6.52% (ALMEIDA-MONTEIRO et al., 2020ALMEIDA-MONTEIRO, P. S. et al. Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.) and 74.18 ± 10.63% normal cells (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.) following CPE induction.

Thumbnail

Table 3
Normal morphology, membrane integrity, and DNA integrity of Prochilodus brevis spermatozoa following the application of different hormone inducers

Morphological normality holds significance, as even though CPE-induced sperm exhibit viable motility, reduced normality could hinder successful oocyte penetration, critically affecting fertilization potential (NUNES et al., 2016NUNES, L. T. et al. Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.). The lower normality percentage observed with aGnRHm + DI 0.3 in comparison to other aGnRH treatments might be linked to the maturity stage of cells transitioning from spermatids to spermatozoa, released without complete gamete maturation (KAVAMOTO et al., 1999KAVAMOTO, E. T. et al. Anormalidades morfológicas nos espermatozóides do curimbatá, Prochilodus scrofa (STEINDACHNER, 1881) (OSTEICHTHYES, CHARACIFORMES, PROCHILODONTIDAE). Boletim do Instituto de Pesca, v. 25, p. 61-66, 1999.).

In terms of membrane and DNA integrity, no significant differences were observed between treatments (Table 3). Consequently, hormone treatments did not impact the plasma membrane or DNA of P. brevis sperm cells. Notably, this study marked the first instance of DNA integrity analysis being employed in seminal analysis of fish post hormone induction, warranting further investigation of this parameter.

The use of CPE has been effectively integrated into confined fish reproduction (GODINHO; GODINHO, 1986GODINHO, H. P.; GODINHO, A. L. Induced spawning of the pacu, Colossoma mitrei (Berg 1895), by hypophysation with crude carp pituitary extract. Aquaculture, v. 55, n. 1, p. 69-73, 1986.; SAHOO; GIRI; CHANDRA, 2008SAHOO, S. K.; GIRI, S. S.; CHANDRA, S. Effects of latency periods and injection doses with carp pituitary extract on spawning performance and egg quality of Asian Catfish, Clarias batrachus (Linn.). Journal of Applied Aquaculture, v. 20, n. 4, p. 295-303, 2008.) due to its composition containing LH and FSH, pivotal for ejaculation success (QUESNEL; BRETON, 1995QUESNEL, H.; BRETON, B. In vitro modulation by steroids and growth hormone of the specific binding of gonadotropin II in rainbow trout (Oncorhynchus mykiss) follicular layers. Comparative Biochemistry and Physiology Part C: Pharmacology, Toxicology and Endocrinology, v. 111, n. 2, p. 197-203, 1995.). Nonetheless, adverse effects from pituitary gland hormone inducers have been observed (MARTINS et al., 2017MARTINS, E. F. F. et al. Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.), prompting consideration of aGnRH as a viable alternative for maintaining favorable seminal quality. The commendable seminal quality achieved at specific aGnRH concentrations in this P. brevis study supports their application in this rheophilic species. This could stem from the pituitary being prompted to release endogenous gonadotropins, differing from the mechanism of CPE (BALDISSEROTO, 2018BALDISSEROTO, B. Fisiologia de peixes aplicada à piscicultura. 3. ed. Santa Maria: UFSM, 2018.; MARTINS et al., 2017MARTINS, E. F. F. et al. Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.; SOUZA et al., 2018SOUZA, F. N. et al. Ovopel® and carp pituitary extract for induction of reproduction in Colossoma macropomum females. Animal Reproduction Science, v. 195, p. 53-57, 2018.).

Furthermore, treatment cost per kilogram of live weight stood at BRL 1.19 for CPE 4.0, BRL 0.36 for aGnRHm 0.3, BRL 0.60 for aGnRHm 0.5, BRL 1.43 for aGnRHs 0.25, and BRL 2.00 for aGnRHs 0.35. Consequently, the most cost-effective concentrations in terms of kinetics were those below CPE commercial prices. In confinement-based reproduction of rheophilic species, induction is indispensable, with hormonal application being the most commercially widespread technique. Therefore, cost consideration is pivotal when opting for hormone-based methods, ensuring optimal cost-benefit in fish farming endeavors.

CONCLUSIONS

For the reproduction of P. brevis through hormonal induction, the use of GnRH analogues associated with a dopamine inhibitor can replace existing protocols with CPE. The treatments involving aGnRHm at concentrations of 0.3 or 0.5 mg kg^-1 of live weight are particularly recommended based on their favorable cost-effectiveness. Importantly, these treatments exhibit minimal detrimental impacts on P. brevis sperm cells when compared to the use of carp pituitary extract.

ACKNOWLEDGMENTS

The authors extend their gratitude for the support received from the Cearense Foundation for Scientific and Technological Development (FUNCAP) and the National Council for the Improvement of Higher Education Personnel (CAPES).

REFERENCES

ALMEIDA-MONTEIRO, P. S. et al Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.
ALMEIDA, F. L. Endocrinologia aplicada na reprodução de peixes. Revista Brasileira de Reprodução Animal, v. 37, n. 2, p. 174-180, 2013.
BALDISSEROTO, B. Fisiologia de peixes aplicada à piscicultura 3. ed. Santa Maria: UFSM, 2018.
BERNARDES JÚNIOR, J. J. B.; BOMBARDELLI, R. A.; NUÑER, O. A. P. Gonadorelin increases semen production and does not affect its quality in Leporinus obtusidens. Animal Reproduction Science, v. 185, p. 154-160, 2017.
CALDAS, J. S. et al Effects of hormonal treatment on induced spermiation and semen quality in the endangered Amazonian fish Hypancistrus zebra (Siluriformes, Loricariidae). Aquaculture, v. 533, p. 736140, 2021.
FERNANDES, J. F. F. et al Contribuição técnica: identificação de anomalias espermáticas no sêmen in natura de curimatã (Prochilodus lacustris) (Steindachner, 1907). Brazilian Journal of Development, v. 6, n. 3, p. 10418-10431, 2020.
FERNÁNDEZ, J. L. et al Simple determination of human sperm DNA fragmentation with an improved sperm chromatin dispersion test. Fertility and Sterility, v. 84, n. 4, p. 833-842, 2005.
FIGUEROA, E. et al Cryopreservation of Atlantic salmon Salmo salar sperm: effects on sperm physiology. Journal of Fish Biology, v. 89, n. 3, p. 1537-1550, 2016.
GODINHO, H. P.; GODINHO, A. L. Induced spawning of the pacu, Colossoma mitrei (Berg 1895), by hypophysation with crude carp pituitary extract. Aquaculture, v. 55, n. 1, p. 69-73, 1986.
KAVAMOTO, E. T. et al Anormalidades morfológicas nos espermatozóides do curimbatá, Prochilodus scrofa (STEINDACHNER, 1881) (OSTEICHTHYES, CHARACIFORMES, PROCHILODONTIDAE). Boletim do Instituto de Pesca, v. 25, p. 61-66, 1999.
LOPES, J. T. et al Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.
MARTINS, E. F. F. et al Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.
MILIORINI, A. B. et al A morphological classification proposal for curimba (Prochilodus lineatus) sperm damages after cryopreservation. Aquaculture Research, v. 42, n. 2, p. 177-187, 2011.
MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.
NUNES, L. T. et al Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.
PEREIRA, V. A. et al Supplementation of cryodiluent media with seaweed or Nile tilapia skin sulfated polysaccharides for freezing of Colossoma macropomum (Characiformes: Serrasalmidae) semen. Aquaculture, v. 528, p. 735553, 2020.
QUESNEL, H.; BRETON, B. In vitro modulation by steroids and growth hormone of the specific binding of gonadotropin II in rainbow trout (Oncorhynchus mykiss) follicular layers. Comparative Biochemistry and Physiology Part C: Pharmacology, Toxicology and Endocrinology, v. 111, n. 2, p. 197-203, 1995.
R CORE TEAM. R: a language and environment for statistical computing. Vienna, Austria: The R Project for Statistical Computing, 2019.
RAINIS, S.; BALLESTRAZZI, R. The control of reproduction in finfish species through GnRH treatments. Italian Journal of Animal Science, v. 4, n. 4, p. 345-353. DOI: 10.4081/ijas.2005.345.
» https://doi.org/10.4081/ijas.2005.345
SAHOO, S. K.; GIRI, S. S.; CHANDRA, S. Effects of latency periods and injection doses with carp pituitary extract on spawning performance and egg quality of Asian Catfish, Clarias batrachus (Linn.). Journal of Applied Aquaculture, v. 20, n. 4, p. 295-303, 2008.
SANCHES, E. A. et al Sperm characteristics of Steindachneridion parahybae (Steindachner, 1877) throughout 112 h of storage at four temperatures. Journal of Applied Ichthyology, v. 31, p. 79-88, 2015.
SOLIS-MURGAS, L. D. et al Importância da avaliação dos parâmetros reprodutivos em peixes nativos. Revista Brasileira de Reprodução Animal, v. 35, n. 2, p. 186-191, 2011.
SOUZA, F. N. et al Ovopel® and carp pituitary extract for induction of reproduction in Colossoma macropomum females. Animal Reproduction Science, v. 195, p. 53-57, 2018.
VIVEIROS, A. T. M. et al Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.
VIVEIROS, A. T. M. et al. Motility and fertility of the subtropical freshwater fish streaked prochilod (Prochilodus lineatus) sperm cryopreserved in powdered coconut water. Theriogenology, v. 74, n. 4, p. 551-556, 2010.
WICKHAM, H. et al Welcome to the Tidyverse. Journal of Open Source Software, v. 4, n. 43, p. 1686, 2019.

Edited by

Editor-in-Chief: Prof. Alek Sandro Dutra - alekdutra@ufc.br

Publication Dates

Publication in this collection
27 Oct 2023
Date of issue
2024

History

Received
13 Dec 2022
Accepted
14 Aug 2023

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ALMEIDA-MONTEIRO, P. S. et al Sperm vitrification of Prochilodus brevis using Powder Coconut Water (ACP-104) in association with different cryoprotectant concentrations. Aquaculture Research, v. 51, n. 11, p. 4565-4574, 2020.

[2] ALMEIDA, F. L. Endocrinologia aplicada na reprodução de peixes. Revista Brasileira de Reprodução Animal, v. 37, n. 2, p. 174-180, 2013.

[3] BALDISSEROTO, B. Fisiologia de peixes aplicada à piscicultura 3. ed. Santa Maria: UFSM, 2018.

[4] BERNARDES JÚNIOR, J. J. B.; BOMBARDELLI, R. A.; NUÑER, O. A. P. Gonadorelin increases semen production and does not affect its quality in Leporinus obtusidens. Animal Reproduction Science, v. 185, p. 154-160, 2017.

[5] CALDAS, J. S. et al Effects of hormonal treatment on induced spermiation and semen quality in the endangered Amazonian fish Hypancistrus zebra (Siluriformes, Loricariidae). Aquaculture, v. 533, p. 736140, 2021.

[6] FERNANDES, J. F. F. et al Contribuição técnica: identificação de anomalias espermáticas no sêmen in natura de curimatã (Prochilodus lacustris) (Steindachner, 1907). Brazilian Journal of Development, v. 6, n. 3, p. 10418-10431, 2020.

[7] FERNÁNDEZ, J. L. et al Simple determination of human sperm DNA fragmentation with an improved sperm chromatin dispersion test. Fertility and Sterility, v. 84, n. 4, p. 833-842, 2005.

[8] FIGUEROA, E. et al Cryopreservation of Atlantic salmon Salmo salar sperm: effects on sperm physiology. Journal of Fish Biology, v. 89, n. 3, p. 1537-1550, 2016.

[9] GODINHO, H. P.; GODINHO, A. L. Induced spawning of the pacu, Colossoma mitrei (Berg 1895), by hypophysation with crude carp pituitary extract. Aquaculture, v. 55, n. 1, p. 69-73, 1986.

[10] KAVAMOTO, E. T. et al Anormalidades morfológicas nos espermatozóides do curimbatá, Prochilodus scrofa (STEINDACHNER, 1881) (OSTEICHTHYES, CHARACIFORMES, PROCHILODONTIDAE). Boletim do Instituto de Pesca, v. 25, p. 61-66, 1999.

[11] LOPES, J. T. et al Avaliação de diferentes crioprotetores e taxas de diluição na criopreservação seminal de Prochilodus brevis. Revista Brasileira de Reprodução Animal, v. 38, n. 3, p. 170-175, 2014.

[12] MARTINS, E. F. F. et al Ovopel and carp pituitary extract for the reproductive induction of Colossoma macropomum males. Theriogenology, v. 98, p. 57-61, 2017.

[13] MILIORINI, A. B. et al A morphological classification proposal for curimba (Prochilodus lineatus) sperm damages after cryopreservation. Aquaculture Research, v. 42, n. 2, p. 177-187, 2011.

[14] MYLONAS, C. C.; DUNCAN, N. J.; ASTURIANO, J. F. Hormonal manipulations for the enhancement of sperm production in cultured fish and evaluation of sperm quality. Aquaculture, v. 472, p. 21-44, 2017.

[15] NUNES, L. T. et al Cryopreservation of Prochilodus brevis semen: freezing media and thawing rates. Semina: Ciências Agrárias, v. 37, n. 3, p. 1643-1653, 2016.

[16] PEREIRA, V. A. et al Supplementation of cryodiluent media with seaweed or Nile tilapia skin sulfated polysaccharides for freezing of Colossoma macropomum (Characiformes: Serrasalmidae) semen. Aquaculture, v. 528, p. 735553, 2020.

[17] QUESNEL, H.; BRETON, B. In vitro modulation by steroids and growth hormone of the specific binding of gonadotropin II in rainbow trout (Oncorhynchus mykiss) follicular layers. Comparative Biochemistry and Physiology Part C: Pharmacology, Toxicology and Endocrinology, v. 111, n. 2, p. 197-203, 1995.

[18] R CORE TEAM. R: a language and environment for statistical computing. Vienna, Austria: The R Project for Statistical Computing, 2019.

[19] RAINIS, S.; BALLESTRAZZI, R. The control of reproduction in finfish species through GnRH treatments. Italian Journal of Animal Science, v. 4, n. 4, p. 345-353. DOI: 10.4081/ijas.2005.345.
» https://doi.org/10.4081/ijas.2005.345

[20] SAHOO, S. K.; GIRI, S. S.; CHANDRA, S. Effects of latency periods and injection doses with carp pituitary extract on spawning performance and egg quality of Asian Catfish, Clarias batrachus (Linn.). Journal of Applied Aquaculture, v. 20, n. 4, p. 295-303, 2008.

[21] SANCHES, E. A. et al Sperm characteristics of Steindachneridion parahybae (Steindachner, 1877) throughout 112 h of storage at four temperatures. Journal of Applied Ichthyology, v. 31, p. 79-88, 2015.

[22] SOLIS-MURGAS, L. D. et al Importância da avaliação dos parâmetros reprodutivos em peixes nativos. Revista Brasileira de Reprodução Animal, v. 35, n. 2, p. 186-191, 2011.

[23] SOUZA, F. N. et al Ovopel® and carp pituitary extract for induction of reproduction in Colossoma macropomum females. Animal Reproduction Science, v. 195, p. 53-57, 2018.

[24] VIVEIROS, A. T. M. et al Gamete quality of streaked prochilod Prochilodus lineatus (Characiformes) after GnRHa and dopamine antagonist treatment. Zygote, v. 23, n. 2, p. 212-221, 2015.

[25] VIVEIROS, A. T. M. et al. Motility and fertility of the subtropical freshwater fish streaked prochilod (Prochilodus lineatus) sperm cryopreserved in powdered coconut water. Theriogenology, v. 74, n. 4, p. 551-556, 2010.

[26] WICKHAM, H. et al Welcome to the Tidyverse. Journal of Open Source Software, v. 4, n. 43, p. 1686, 2019.

Treatment	Ejaculation (n/nt^*)	Volume (mL)	Concentration (sperm/mL)
SS 1.0	2/4	0 ± 0 b	26.00 ± 9.43 ab
CPE 4.0	8/8	0.62 ± 0.03 ab	24.30 ± 2.17 b
aGnRHm + DI 0.3	8/8	0.88 ± 0.04 a	17.03 ± 9.37 b
aGnRHm + DI 0.5	8/8	0.86 ± 0.86 a	29.61 ± 2.46 ab
aGnRHs + DI 0.25	4/8	0.5 ± 0.12 ab	44.06 ± 9.84 ab
aGnRHs + DI 0.35	7/8	0.22 ± 0.01 ab	59.89 ± 5.93 ab

Treatment	VCL (μm s^-1)	VAP (μm s^-1)	VSL (μm s^-1)	Total motility (%)
SS 1.0	73.20 ± 18.31 ab	41.35 ± 10.92 ab	22.50 ± 5.79 ab	87.65 ± 1.23
CPE 4.0	102.91 ± 2.27 ab	72.83 ± 1.43 a	46.31 ± 0.97 a	95.20 ± 0.33
aGnRHm + DI 0.3	111.20 ± 5.14 a	69.35 ± 2.55 a	42.36 ± 1.59 a	92.97 ± 1.74
aGnRHm + DI 0.5	100.73 ± 3.28 ab	62.73 ± 1.79 ab	38.33 ± 1.23 ab	96.27 ± 0.58
AGnRHs + DI 0.25	102.20 ± 2.80 ab	65.92 ± 3.97 ab	45.07 ± 2.96 a	95.25 ± 0.50
aGnRHs + DI 0.35	61.18 ± 5.16 b	36.54 ± 3.60 b	21.85 ± 2.27 b	68.92 ± 5.29

Treatment	Normal morphology	Membrane integrity	DNA integrity
SS 1.0	71.25 ± 0.17 ab	84.75 ± 3.71	66.75 ± 11.49
CPE 4.0	67.00 ± 0.58 ab	87.50 ± 0.46	50.62 ± 1.2
aGnRHm + DI 0.3	49.50 ± 0.87 b	77.00 ± 4.00	65.43 ± 2.92
aGnRHm + DI 0.5	74.75 ± 1.41 a	83.93 ± 0.72	64.87 ± 3.06
aGnRHs + DI 0.25	80.12 ± 2.21 a	88.37 ± 0.32	74.37 ± 6.57
aGnRHs + DI 0.35	62.00 ± 2.64 ab	87.50 ± 0.48	61.28 ± 3.95

Brasil

Brasil

Evaluation of different hormone inducers on the reproduction of Prochilodus brevis males1 1 Research

ABSTRACT

INTRODUCTION

MATERIAL AND METHODS

Animals, facilities, and authorization

Hormonal induction and semen collection

Seminal analysis

Statistical analyses

RESULTS AND DISCUSSION

CONCLUSIONS

ACKNOWLEDGMENTS

REFERENCES

Edited by

Publication Dates

History

Evaluation of different hormone inducers on the reproduction of Prochilodus brevis males¹ 1 Research