Characterization of Testicular Angiotensin-Converting Enzyme before and after Semen Cryopreservation and in the Acrosome Reaction of Spermatozoids of Nelore Bulls

The aim of this study was to characterize the testicular isoform of angiotensin-converting enzyme (tACE) before and after semen cryopreservation, and in the acrosome reaction of sperm from Nelore bulls in vitro. Ejaculates of 10 sexually mature Nelore bulls were used. After semen was collected, 1.0 mL of the ejaculate was used for the analysis and the rest was subjected to cryopreservation. Fresh semen before freezing, and frozen/thawed semen were centrifuged twice and the pellet was resuspended intyrode’s albumin lactate pyruvate (TALP). Thereafter, 100 μL aliquots containing 100 × 10 spermatozoa were prepared. Aliquots of samples were used for western blot analysis, subjected to capacitation, and thereafter, acrosome reaction assays were performed in vitro. With the help of an anti-ACE monoclonal antibody, a 100 kDa protein band was identified in the spermatozoa of Nelore bulls. Cryopreservation reduced the intensity of the protein bands obtained by western blot assay to less than half of that observed prior to freezing (P < 0.05). Inhibition of ACE by captopril (10 μM), decreased the percentage of capacitated spermatozoa with a positive acrosome reaction (P < 0.05), indicating the involvement of ACE in these processes. It is concluded that tACE can be found in the spermatozoa of Nelore bulls, and cryopreservation process decreases the intensity of bands of this enzyme; and that the inactivation of tACE reduces the capacity of spermatozoa to undergo the acrosome reaction. How to cite this paper: Almeida, R.G., Faria, F.J.C., Furtado, F.H.G., Santos, E.F. and Costa, D.S. (2019) Characterization of Testicular Angiotensin-Converting Enzyme before and after Semen Cryopreservation and in the Acrosome Reaction of Spermatozoids of Nelore Bulls. Agricultural Sciences, 10, 518-529. https://doi.org/10.4236/as.2019.104041 Received: March 22, 2019 Accepted: April 16, 2019 Published: April 19, 2019 Copyright © 2019 by author(s) and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/

kDa protein band was identified in the spermatozoa of Nelore bulls.Cryopreservation reduced the intensity of the protein bands obtained by western blot assay to less than half of that observed prior to freezing (P < 0.05).Inhibition of ACE by captopril (10 μM), decreased the percentage of capacitated spermatozoa with a positive acrosome reaction (P < 0.05), indicating the involvement of ACE in these processes.It is concluded that tACE can be found in the spermatozoa of Nelore bulls, and cryopreservation process decreases the intensity of bands of this enzyme; and that the inactivation of tACE reduces the capacity of spermatozoa to undergo the acrosome reaction.

Introduction
Angiotensin-converting enzyme (ACE) is a zinc-dependent metalloprotease, which is anchored to the plasma membrane and exists in two isoforms.A somatic form (sACE150 -180 kDa) is found in various organs and is involved in the control of blood pressure via the renin-angiotensin-aldosterone system.sACE converts inactive angiotensin I into angiotensin II, a potent vasoconstrictor that also stimulates the release of the hormone aldosterone, which induces sodium retention and increases blood pressure.In addition, it enhances this effect by inhibiting the action of the vasodilator bradykinin [1] [2] [3] [4] [5].
The second isoform is of lower molecular weight (110 kDa), although transcribed by the same gene, and is found exclusively in male germ cells; therefore, it was designated as a testicular isoform (tACE).This isoform is not expressed in animals before puberty, which suggests that hormonal stimulation is required for its synthesis [3].Hypophysectomized rats do not express tACE before puberty; however, animals that receive testosterone, follicle stimulate follicle-stimulating hormone (FSH), and luteinizing hormone (LH) soon after pituitary withdrawal can synthesize the enzyme, indicating the need for reproductive hormones in the expression of tACE [6].
tACE has an important function in the fertilization of the egg by sperm.In experiments with ACE-knockout mice, no changes in the number or morphology of sperm were observed, although they displayed defects when binding to the zonaepellucidae [7].For fertilization to occur, proteins such as TESP5 and PH-20, which are anchored to the spermatozoa by glycosylphosphatidylinositol (GPI), need to be released, and this is one of the roles performed by ACE, and explains why ACE-knockout mice have impaired fertility [8].
Part of ACE is released from spermatozoa during capacitation [9], indicating that it is also involved in this process; however, its role remains unclear.Gur et al. [10] showed that the activity of angiotensin II on spermatozoa capacitation and the acrosome reaction involves the AT1 receptor.This demonstrates the indirect action of ACE in these processes, as the enzyme is responsible for the conversion of angiotensin I into angiotensin II.
Several studies have revealed ACE activity in human [11], canine [2], swine [12], equine [13], and rodent semen [14].In a study, Costa and Thundathil [15] observed ACE activity in the semen of Holstein bulls, making ACEa candidate protein marker of bovine fertility.Thus, the present study was carried out to verify the immunolocalization of ACE in spermatozoa, to compare its expression pattern before and after cryopreservation, and to determine its importance in sperm capacitation in Nelore bulls.

Animals and Semen Collection
Semen samples from 10 sexually mature Nelore bulls (Bos taurusindicus) were used.Semen was collected by the artificial vagina technique in an artificial insemination center.Only ejaculates with motility greater than 70% and vigour greater than three were used.Sperm motility (0% -100%) and sperm vigour (score from 0 to 5) were subjectively assessed by the same technician in at least four fields in each sample, and the results were expressed in average of the fields.
All international guidelines for the care and use of animals for scientific purposes were followed in this experiment.
In this system, the cooling rate was 0.25˚C/min up to 5˚C, where it remained constant for 5 hours.Then, the freezing rate was −15˚C /min from 5˚C to −80˚C, and then from −10˚C/min to −140˚C.Thereafter, the vials were racked and stored in cryogenic cylinders at −196˚C.

Preparation of Spermatozoid Pellets
In order to prepare the fresh semen pellet, a 1.0 mL sample was withdrawn immediately after the ejaculate was collected and centrifuged twice at 700 g for 30 min (at room temperature) in Tyrode's albumin lactate pyruvate medium (TALP [16]) to remove the seminal plasma.The supernatant was discarded and the pellet formed was used for the subsequent analyses.
To prepare a frozen/thawed semen pellet, 48 hours after of storage in cryogenic tanks, 10 vials were thawed in a water bath at 37˚C for 30 s.Then, the semen was placed in the same tube and centrifuged twice at 700 g for 30 min with TALP to remove the diluent.The supernatant was discarded and the pellet formed was used for subsequent analyses.

Western blot
To detect ACE in Nelore bull spermatozoa, the pellet concentration was determined after centrifugation with TALP, and protein was extracted from 100 µL aliquots containing 100 × 10 6 spermatozoa with 25 μL Laemmli buffer (4% SDS, 20% glycerol, 10% DTT, 0.004% bromophenol blue, and 0.125 M Tris HCl, pH 6.8) and heating at 100˚C for 5 min.The samples were then centrifuged at 11,200 g for 5 min.
The supernatant (protein extract) was subjected to SDS-polyacrylamide gel electrophoresis (SDS-PAGE 10%) to separate the proteins according to their Agricultural Sciences molecular weights.After 1 h at a constant electric current of 100 V, the proteins traversed the entire length of the gel.The gel was then carefully removed from the cassette and submerged in 20% ethanol for 10 min to increase transfer efficiency.Proteins were transferred from the gel to a nitrocellulose membrane by electrophoresis in a sandwich system with transfer buffer (25 mM Tris, 0.2 M glycine, and 20% methyl alcohol, pH 8.5), at a constant voltage of 350 mA.The resulting nitrocellulose membranes were stained with 0.2% ponceau in acetic acid to determine the effectiveness of the electrotransfer.Subsequently, nonspecific binding sites were blocked with 3% skimmed milk powder, diluted in tris-buffered saline + tween 20 medium (TTBS), for 60 min at room temperature.The membranes were then incubated (overnight at 4˚C) with the primary antibody (anti-ACE, clone 2E2, Millipore ® , 1:5000 in TTBS).Following overnight incubation the membranes were washed three times in TTBS, and incubated with secondary antibody (goat anti-mouse IgG, HRP conjugate, Millipore ® , 1:10,000 in TTBS) for 1 h at room temperature.After washing three times with TTBS, the protein bands were identified by chemiluminescence [17].
To confirm that all samples contained the same amount of protein, another gel was prepared using the same samples, and a further western blot was performed using a monoclonal anti-β-tubulin antibody [18].The pixel density of the protein bands was compared with the software Image J 1.40 (ranging between 0 = anechoic and 255 = hyperechoic); the more protein present in the sample, the more hypoechoic the image and the lower the number of pixels.ACE was detected in seminal plasma by adding 25 μL of Laemmli buffer to 100-μL aliquots of plasma diluted in TALP (1:50) and heated at 100˚C for 5 min to extract protein.Then, the samples were centrifuged at 11,200 g for 5 min and the supernatant was used for western blotting, with the same methodology described for spermatozoa.

Testing of Sperm Capacitation
Aliquots of 50 µL containing 200 × 10 6 spermatozoa were used for each of the following treatments for each bull: control group (50 µL of semen + 50 µL of SP-TALP), heparin group (50 µL of semen + 49 µL of SP-TALP + 1.0 µL of heparin 100 µg/µL), captopril + heparin group (50 µL of semen + 49 µL of SP-TALP + 1.0 µL of heparin 100 µg/µL+ 10 µM captopril).The samples were incubated in a CO 2 incubator at 39˚C for 4 h.Sperm motility and vigour were evaluated every hour in each experimental group to evaluate whether capacitation occurred at a similar time for each animal evaluated.

Induction of Acrosome Reaction in the Capacitated Spermatozoids
After 4-h incubation, an aliquot of each treatment was incubated for a further 30 min with L-α-lysophosphatidylcholine (LPC) to induce the acrosome reaction in the capacitated spermatozoids [19].After this period, smears stained with fluo-Agricultural Sciences rescein-conjugated Pisumsativum agglutinin (FITC-PSA) were prepared and analyzed under an epifluorescence microscope.Cells (200) were counted and the percentage of spermatozoa with a green-stained acrosomal region (a positive acrosome reaction), was estimated.

Statistical Analysis
The size of the protein bands was subjected to analysis of variance and differences between groups were compared with a t-test, setting a significance level of P < 0.05.The percentage of cells exhibiting a positive acrosome reaction between treatments was compared by chi-square test.The level of significance set was P < 0.05.

Western Blot
The use of a monoclonal anti-ACE antibody revealed at leastone 100-kDa protein band in the spermatozoid suspension from Nelore bulls.
The pattern of the pre-(Figure 1(a)) and post-cryopreservation (Figure 1(b)) protein bands in semen with the anti-ACE antibody showed that the amount of protein was reduced following cryopreservation.Western blot analysis with an anti-β-tubulin antibody (Figure 1(c)) showed that the same amount of protein was used in the samples evaluated.
Figure 1 shows a single picture of an X-ray film; the three nitrocellulose membranes were placed together in order to avoid differences in the intensity of protein bands following exposure to luminol for different times.
The freezing process increased the number of pixels in the ACE bands of samples from the 10 Nelore bulls after cryopreservation (P < 0.05), indicating reduced protein expression of this enzyme as a result of the protocol used (Figure 2).The amount of protein in the samples from each animal was similar, as demonstrated by the number of pixels in the β-tubulin bands for samples from the 10 bulls (Figure 3).

Induction of the Acrosome Reaction in the Capacitated Spermatozoids
Following induction of the acrosome reaction, the smears were analyzed under an epifluorescence microscope.The estimated percentage of spermatozoa with a positive acrosome reaction was 83% in the Heparin group (Figure 4(a)), 11% in the control group (Figure 4(b)), and 13% in the captopril + heparin group (Figure 4(c)).There was a significant difference between the results obtained for the heparin group and those obtained for the other two groups (P < 0.05); however, there was no difference between the control and heparin + captopril groups (P > 0.05).

Discussion
Western blot analysis with a monoclonal anti-ACE antibody revealed a single protein band with a molecular mass of approximately 100 kDa in extracts prepared from the semen of sexually mature Nelore bulls.The molecular mass of the protein band was consistent with that reported for tACE, between 90 and 110 kDa [4].This result was consistent with the findings of other studies in different species: rabbit [20], pig [21], human [22], mouse [23], sheep [24], and Holsteinbulls [15].
Equal amounts of protein were loaded from each animal, as confirmed by the immunodetection of β-tubulin (Figure 1(c)).This suggests that differences in the intensity of protein bands among animals (Figure 1 The location of tACE in sperm varies between species, and disagreement exists among researchers investigating the same species.Nikolaeva et al. [28], in a study with human sperm, found tACE in the post-acrosomal region and in the midpiece, while Köhn et al. [29] described its presence in the same species, in the entire sperm head (acrosome, equatorial segment, post-acrosomal region), midpiece, and flagellum, and Foresta et al. [30] in cytoplasmic droplets.
In pigs, tACE was detected in spermatids and cytoplasmic droplets of epidydimal sperm [21].In an experiment with rabbits, Brentjens et al. [31] found tACE in spermatids and cytoplasmic droplets, consistent with findings in pigs.
The location of this enzyme inspermatozoa of rodents was described by Metayer et al. [32], and in both rats and mice, was located in the midpiece and the initial part of the flagellum.
Changes in the structure of the plasma membrane (PM) occur during the freeze/thaw of semen, which can lead to cold thermal shock, loss of proteins on the spermatozoa surface, and damage to the sperm cell, such as rupture of the PM and, consequently, death of the spermatozoa [33] [34].Several seminal proteins are related to semen freezability, such as bovine acidic seminal fluid protein (aSFP), albumin, OPN, sperm binding proteins (BSP) A1 and A2, and P25b [25] [35].In the present study, the expression of tACE was reduced by approximately 70% (from 2923 to 938.5) (P < 0.05) after semen cryopreservation, which is similar to the results found by Nauc and Manjunath [36], who observed a 70% to 80% reduction in the concentration of BSP proteins bound to the PM after the cryopreservation of bovine semen.
As with tACE, BSP A1 and A2 are related to sperm capacitation, and sperm protein P25b is involved in the fusion of gametes [37] [38], Although the exact role of tACE in these processes is unknown [9], given that this enzyme is anchored to the PM [1], like BSP and P25b, reorganization of PM components during freezing may explain the reduced amount of tACE detected in sperm.Like the proteins listed above, which are important for bull fertility, the quantity of tACE in bovine ejaculate could be considered an important factor in the choice of a breeder for the freezing of semen, since after the cryopreservation process, there is reduced tACE, along with other proteins [34], and their presence is indispensable for the fertilization of the egg [8] [39].
In an experiment carried out comparing ACE activity in rooster, buffalo, and bull semen by spectrophotometry (using hippuryl-L-histidyl-L-leucine, as a substrate), Mohan et al. [40] reported that ACE activity in the bird was not altered by cold shock.However, in both buffaloes and bulls, there was a decrease in the amount of ACE in the spermatozoa and an increase in seminal plasma.This was attributed to the loss of enzyme from the sperm cell PM, and its accumulation in plasma due to the cold thermal shock experienced by sperm during the freezing process.It is probable that the same occurred in our study, since there was a reduction in the amount of ACE in the spermatozoa of the Nelore bulls after cryopreservation; however, the amount of ACE in the plasma following cryopreser- the reproductive system of the female, termed sperm capacitation and acrosome reaction, and these events are necessary for the fertilization of the egg [10].Ball et al. [13] suggested that ACE plays an important role in capacitation processes and in the acrosome reaction in sperm, although this mechanism has not been fully elucidated.In this experiment, the heparin group displayed a higher percentage of capacitated sperm, and sperm with a positive acrosome reaction, compared with the control and heparin + captopril groups (83%, 11%, and 13%, respectively) (P < 0.05), indicating that ACE inhibition by captopril (10 µM) affected capacitation and, consequently, the acrosome reaction.The percentage of sperm with a positive acrosome reaction in the captopril group was similar to that in the control group, with a spontaneous reaction (P > 0.05).These results are similar to those found in Holstein bulls [15].Costa and Thundathil [15] showed that spermatozoa and seminal plasma of Holstein bulls possess ACE activity, through the hydrolysis of furanylacryloyl-L-phenylalanylglycylglycine (FAPGG) to furanylacryloyl-L-phenylalanyl and glycyl-glycine.Captopril (10 μM) was efficient in inhibiting the activity of tACE and, consequently, sperm capacitation; therefore, a smaller percentage of cells had a positive acrosome reaction, as observed in the present study.
Gur et al. [10] found angiotensin II (AT1) receptors only in the tail of noncapacitated sperm; however, in capacitated cells, AT1 was found in the tail and periacrosomal regions.Those authors successfully induced the acrosome reaction in vitro using angiotensin II in the presence of calcium.It is probable that the amount of ACE inhibitor used in our experiment was able to reduce the conversion of angiotensin I to angiotensin II, which seems to play an important role in the activation of the acrosome reaction via the AT1 receptor, which would explain the lower percentage of capacitated spermatozoa in the heparin + captopril group.

Conclusion
tACE can be found in the sperm of Nelore bulls.The cryopreservation process leads to a decrease in the intensity of the bands of this enzyme, and the inactivation of tACE reduces the ability of sperm to undergo the acrosome reaction.

Figure 1 .
Figure 1.Immunodetection reactions of ACE in the semen of Nelore bulls, pre-(a) and post-cryopreservation (b).Immunodetection of β-tubulin protein (c).Western blot analysis with anti-ACE monoclonal antibody and anti-β-tubulin.Each column represents a different bull.

Figure 2 .
Figure 2. Number of pixels in the ACE bands, as detected by western blot, for 10 Nelore bulls, pre-and post-cryopreservation, calculated by Image J Software 1.40.The lower the number of pixels, the greater the amount of ACE.Different letters represent a significant difference, determined by the t test (P < 0.05).

Figure 3 .
Figure 3. Number of pixels in the β-tubulin bands, as detected by western blot, of the spermatozoa of 10 Nelore bulls, calculated by Image J Software 1.40.The lower the number of pixels, the greater the amount of β-tubulin.
(a) and Figure 1(b)) are intrinsic to each individual.Other proteins present in the plasma membrane of sperm or in seminal plasma, are correlated with fertility in bulls, either in a proportional manner, such as osteopontin (OPN), BSP 30 kDa, phospholipase A2, heparin binding proteins, and P25b [25] [26], or in an inversely proportional manner, such as spermadhesinZ13 and clusterin [26] [27].Thus, if a visual difference is found in the amount of ACE protein among the animals evaluated is also observed in fertility and/or seminal freezing, ACE could be a fertility marker.

Figure 4 .
Figure 4. Smears stained with FITC PSA were analyzed under an epifluorescence microscope to estimate the percentage of spermatozoa with a positive acrosome reaction.(a) heparin; (b) Control; and (c) Captopril + heparin.400× magnification.Green coloration in the acrosomal region indicates a positive acrosome reaction (red arrow).