Assessment of tebuconazole exposure on bovine testicular cells and epididymal spermatozoa.

This study is the first to investigate the effects of tebuconazole (TEB) on the physiological functions of bovine testicular cells and epididymal spermatozoa. Motility and plasma membrane integrity of spermatozoa exposed to TEB (0.001-100 µM) were evaluated at different incubation times (0-6 h), while TEB-induced spermiotoxicity was assessed after 24 h in cell cultures. Testicular cells, obtained from the parenchyma of bovine testes, were seeded at 1.0 × 104 and 1.5 × 106 cells/well in 96- and 12-well culture plates and incubated for 48 h in culture media containing TEB (0.001-100 µM) to evaluate cytotoxicity and hormone release, respectively. TEB did not affect the motility and plasma membrane integrity. However, significant spermiotoxicity occurred at higher TEB (1-100 µM) concentrations (P < 0.05) compared to control and lower doses. Although no dose caused cytotoxicity in testicular cells (P > 0.05), 1 and 100 µM TEB caused a significant increase in testosterone secretion (P < 0.05). As a result, high doses of TEB (1-100 µM) had slightly suppressive effects on spermatozoa; however, these doses had stimulatory effects on testosterone secretion by testicular cells. It appears that the disruption of hormonal homeostasis of testicular cells after TEB exposure may result in metabolic and especially reproductive adverse effects in bulls.

Short-term storage of rat sperm in the presence of various extenders.

Sperm preservation protocols differ among animal species because of different sperm characteristics among species. Rat sperm have extreme sensitivity to suboptimal conditions in centrifugation, pipetting and chilling due to their longer tail, the shape and size of the sperm head, and membrane composition. The aim of this study was to determine optimal conditions for short-term storage of rat sperm by evaluating their motility and membrane and acrosomal integrity in response to various extender solutions, temperatures, and durations. Motility of rat sperm was highest when stored at 22 °C; motility was 28% and 14% at 72 h in TL-HEPES and PBS extenders, respectively. The motility and membrane integrity of rat sperm fell significantly within 24 h at 4 and 37 °C. Although cold storage did not have a detrimental effect on acrosomal integrity of sperm, room temperature storage reduced acrosomal integrity after 24 h. LEY extender caused the highest loss in acrosomal integrity at 48 and 72 h. In conclusion, storage at 4 or 37 ° C reduced the motility and membrane integrity of rat sperm even with short incubation periods. Rat sperm stored in TL-HEPES or PBS remained motile for at least 3 d when held at 22 °C.

The effects of cooling rates and type of freezing extenders on cryosurvival of rat sperm.

Cryopreservation of rat sperm is very challenging due to its sensitivity to various stress factors. The objective of this study was to determine the optimal cooling rate and extender for epididymal sperm of outbred Sprague Dawley (SD) and inbred Fischer 344 (F344) rat strains. The epididymal sperm from 10 to 12 weeks old sexually mature SD and F344 strains were suspended in five different freezing extenders, namely HEPES buffered Tyrode's lactate (TL-HEPES), modified Kreb's Ringer bicarbonate (mKRB), 3% dehydrated skim milk (SM), Salamon's Tris-citrate (TRIS), and tes/tris (TES). All extenders contained 20% egg yolk, 0.75% Equex Paste and 0.1 M raffinose or 0.1 M sucrose. The sperm samples in each extender were cooled to 4°C and held for 45 min for equilibration before freezing. The equilibrated sperm samples in each extender were placed onto a shallow quartz dish inserted into Linkam Cryostage (BCS 196). The samples were then cooled to a final temperature of -150°C by using various cooling rates (10, 40, 70, and 100°C/min). For thawing, the quartz dish containing the sperm samples were rapidly removed from the Linkam cryo-stage and placed on a 37°C slide warmer and held for 1 min before motility analysis. Sperm membrane and acrosomal integrity and mitochondrial membrane potential (MMP) were assessed by SYBR-14/Propidium iodide, Alexa Fluor-488-PNA conjugate and JC-1, respectively. The total motility, acrosomal integrity, membrane integrity and MMP values were compared among cooling rates and extenders. Both cooling rate and type of extender had significant effect on cryosurvival (P < 0.05). Sperm motility increased as cooling rate was increased for both strains (P < 0.05). Highest cryosurvival was achieved when 100°C/min cooling rate was used in combination with TES extender containing 20% egg yolk, 0.75% Equex paste and either 0.1M sucrose or raffinose (P < 0.05). This study showed that TES extender containing 0.1 M raffinose or sucrose with 70°C/min and 100°C/min cooling rate improved post-thaw motility of rat sperm.

Comparison of cryoprotective effects of iodixanol, trehalose and cysteamine on ram semen.

This study was conducted to improve cryosurvival of electroejaculated (EE) ram semen in the presence of iodixanol (OptiPrep™), trehalose or cysteamine. A tris-based extender was used to prepare 12 extenders containing OptiPrep™ (Op), trehalose (Tr) or cysteamine (Cy) alone, or different combinations of these compounds. Extenders were designated as follows: Tris (control), Op1.25 (1.25% Op, v/v), Op2.5 (2.5% Op, v/v), Op5 (5% Op, v/v), Tr50 (50mM Tr), Tr100 (100mM Tr), Cy (5mM Cy), OpTr (2.5% Op and 100mM Tr), OpCy (2.5% Op and 5mM Cy), TrCy (100mM Tr and 5mM Cy), OpTrCy1 (2.5% Op, 100mM Tr and 5mM Cy) and OpTrCy2 (1.25% Op, 50mM Tr and 2.5mM Cy). A two-step dilution was used and glycerol was added at 5°C in the second step. Diluted samples were equilibrated for 1h, loaded in 0.25mL straws and frozen in a programmable freezing machine. Supplementation of 5% OptiPrep™ significantly protected post-thaw progressive motility, membrane integrity, acrosomal integrity and morphological damages. Trehalose supplementation protected membrane integrity of ram sperm; however, it did not help post-thaw motility and morphology. Supplementation of 5mM cysteamine had detrimental effect on cryosurvival of EE ram semen. These results demonstrate that the supplementation of iodixanol increases the cryosurvival of EE ram semen in a dose-dependent manner.

Effect of chilling on the motility and acrosomal integrity of rat sperm in the presence of various extenders.

Studies were conducted to determine the effect of chilling on rat sperm and optimal components (extenders) to avoid chilling-induced injury. In the first experiment, the effects of chilling (at 4, 10, or 22 degrees C) on the motility and acrosomal integrity of epididymal sperm from 2 strains of rats (Sprague-Dawley and Fischer 344, F344) were compared. In the second experiment, the motility of epididymal Sprague-Dawley rat sperm after exposure to extenders (HEPES-buffered Tyrode lactate, skim milk, lactose monohydrate, Tris-citrate, and TEST) and cooling and warming was determined. We tested the effects of supplementing base extender solutions with 20% lactose-egg yolk (LEY) alone or in combination with a commercial SDS-based paste (0.5%, v/v) in preventing chilling injury. The motility after each treatment was determined after both cooling and warming. In the third experiment, the motility of Sprague-Dawley rat sperm were compared after supplementing the base extenders with either 0.4 M permeating cryoprotective agent (CPA; glycerol, ethylene glycol, propylene glycol, or DMSO) or 0.1 M nonpermeating CPA (raffinose and sucrose) after cooling and warming. The results showed that chilling significantly reduced the motility-but not acrosomal integrity-of Sprague-Dawley and F344 sperm. Neither motility nor acrosomal integrity differed between Sprague-Dawley and F344 strains. The addition of LEY into each extender significantly prevented motility loss after chilling. These results will be useful during the preparation of optimal extenders and development of successful cryopreservation protocol for rat sperm.

Effects of nonylphenol on motility and subcellular elements of epididymal rat sperm.

Nonylphenol (NP) is an important environmental toxicant and potential endocrine disrupting chemical. The objective of these studies was to determine the effects of NP on epididymal rat sperm in vitro. Epididymal sperm samples from Sprague-Dawley rats were incubated in 1, 10, 100, 250, and 500 microg/ml NP for 1, 2, 3, or 4h. Computer-assisted sperm analysis was used to determine motility. Epifluorescent microscopy was used to determine acrosomal status and flow cytometry was used to determine mitochondrial membrane potential (MMP) and chromatin integrity. Exposure of epididymal rat sperm to 250 or 500 microg/ml NP was highly detrimental to motility (P<0.05), with complete loss of motility observed after exposure to 500 microg/ml NP (P<0.05). The acrosomal integrity of sperm was significantly reduced with the lowest concentration (1 microg/ml) of NP, and higher concentrations resulted in a dose-dependent induction of the acrosomal reaction (P<0.05). Similarly, the percentage of sperm with high MMP declined dramatically after exposure to 100, 250, and 500 microg/ml NP (P<0.05). Duration of NP exposure did not have any effect on motility or MMP and NP did not appear to have detrimental effects on chromatin integrity (P>0.05). These results indicate that major mechanism of action of NP on rat sperm is by adversely affecting their acrosomal integrity. However, NP-induced impaired sperm motility, decreased mitochondrial membrane potential also likely to play an important role in destruction of sperm function.

Motility and acrosomal integrity comparisons between electro-ejaculated and epididymal ram sperm after exposure to a range of anisosmotic solutions, cryoprotective agents and low temperatures.

Effective ram sperm cryopreservation protocols, which would yield acceptable lambing rates following artificial insemination (AI), are currently lacking. The objectives of the current studies were to compare the effects of various anisosmotic conditions, cryoprotective agents (CPAs) and chilling on the motility and acrosomal integrity of electro-ejaculated and epididymal ram sperm. Three experiments were conducted. In experiment 1, ejaculated and epididymal ram sperm were exposed to 75, 150, 225, 600, 900 and 1200 milliosmolal (mOsm)/kg sucrose solutions, held for 5 min and then returned to isosmotic condition. Motility characteristics of sperm during exposure to each anisosmotic solutions and after returning to isosmotic conditions were determined. In experiment 2, ejaculated and epididymal ram sperm were exposed to 1M glycerol (Gly), dimethyl sulfoxide (DMSO), ethylene glycol (EG) and propylene glycol (PG) for 5 min and then returned to isosmotic conditions. Motility characteristics of sperm samples during exposure to each CPA solution and after returning to isosmotic conditions were determined. In experiment 3, effects of various temperatures on motility characteristics of ejaculated and epididymal ram sperm were determined after exposing them to three different sub-physiologic temperatures (4, 10 and 22 degrees C) for 30 min and subsequently returning them to 37 degrees C. The motility of ejaculated ram sperm was significantly more affected from anisosmotic stress than was epididymal ram sperm (P<0.05). While anisosmotic stress had no effects on acrosomal integrity of epididymal ram sperm, there was a significant reduction in acrosomal integrity for ejaculated ram sperm after the addition and removal of a 75 mOsm sucrose solution. The abrupt addition and removal of 1M Gly, DMSO, EG or PG had no effect on the motility and acrosomal integrity of epididymal ram sperm (P>0.05). However, there was a slight decrease in acrosomal integrity for ejaculated ram sperm after exposure to 1M Gly, DMSO or EG (P>0.05). Both epididymal and ejaculated ram sperm exhibited temperature-dependent loss of motility and acrosomal integrity (P<0.05). However, ejaculated ram sperm was more sensitive to chilling stress than epididymal sperm (P<0.05). In conclusion, the current data suggest that while epididymal ram sperm is extremely resilient to various cryobiologically relevant stress conditions, ejaculated ram sperm demonstrate greater sensitivity to such stressors. These findings should be taken into account when developing cryopreservation protocols for ejaculated and epididymal ram sperm.

Various physical stress factors on rat sperm motility, integrity of acrosome, and plasma membrane.

The objective of this study was to determine the effects of various physical interventions such as centrifugation regimes, Percoll gradient separation, and repeated pipetting on various viability parameters of epididymal sperm of Fischer 344 (F-344) and Sprague-Dawley (SD) rat strains. Three experiments were conducted. In experiment 1, sperm motility and acrosomal and membrane integrity were compared after exposing sperm samples to 200, 400, 600, and 800 x g centrifugal forces for 5, 10, or 15 minutes. In experiment 2, sperm motility and acrosomal and membrane integrity were compared after passing them through a Percoll separation using centrifugal forces of 600, 800, 1000, and 1200 x g for either 15 or 30 minutes. In experiment 3, the effect of repeated pipetting (2, 4, 6, 8, and 10 times) on motility and membrane integrity of rat sperm was compared with that on mouse, ram, bull, and boar sperm. The results revealed that both F-344 and SD rat sperm motility and membrane integrity were significantly affected by centrifugation (P < .05). The acrosomal integrity of SD rat sperm was affected after using 800 x g centrifugation force for 10 or 15 minutes (P < .05), whereas F-344 rat sperm acrosomal integrity was not affected by any centrifugation regimes (P > .05). Sperm from SD rats also had higher motility and membrane integrity loss than did sperm from F-344 rats after centrifugation and pipetting (P < .05). Percoll gradient separation did not cause significant motility loss or acrosomal damage to either F-344 or SD sperm (P > .05). Repeated pipetting had a dramatic adverse effect on both rat and mouse sperm motility (P < .05) as compared with sperm from bull, boar, and ram, which were not affected at all (P > .05). These data suggest that rat sperm have unique properties that need to be considered during centrifugation, Percoll gradient separation, and pipetting procedures.

The influence of trehalose, taurine, cysteamine and hyaluronan on ram semen Microscopic and oxidative stress parameters after freeze-thawing process.

There is a lack of information regarding lipid peroxidation and antioxidant capacity in cryopreserved ram semen, and cryopreservation is associated with the production of reactive oxygen species (ROS) which lead to lipid peroxidation (LPO) of sperm membranes, resulting in a loss of motility, viability and fertility of sperm. The aim of this study was to determine the influence of certain additives and their different doses on standard semen parameters, lipid peroxidation and antioxidant activities after the cryopreservation/thawing of ram semen. Ejaculates collected from four Akkaraman rams, a native breed of sheep, were evaluated and pooled at 33 degrees C. Semen samples which were diluted with a Tris-based extender containing additives including trehalose (50, 100mM), taurine (25, 50mM), cysteamine (5, 10mM), and hyaluronan (0.5, 1mg/ml), and an extender containing no additives (control) were cooled to 5 degrees C and frozen in 0.25ml French straws, being stored in liquid nitrogen. Frozen straws were thawed individually at 37 degrees C for 20s in a water bath for evaluation. The use of a Tris-based extender supplemented with 50mM trehalose, 25mM taurine, and 5 and 10mM cysteamine led to higher percentages of post-thaw motility, in comparison to the control group (P<0.01). No significant differences were observed in the percentages of acrosome and total abnormalities, and the hypoosmotic swelling test upon the supplementation of the freezing extender with antioxidants after the thawing of semen. In biochemical assays, the addition of antioxidants did not cause significant differences in levels of malondialdehyde (MDA), glutathione (GSH), and glutathione peroxidase (GSH-Px), after thawing, when compared to groups with no additives. In this study, catalase (CAT) activities were higher in the group that was applied 25mM taurine as an antioxidant, than in all of the other groups (P<0.001). Compared to the controls, antioxidant treatment with 100mM trehalose, 50mM taurine, 5mM cysteamine and 0.5mg/ml hyaluronan, significantly elevated vitamin E (vit E) levels in samples (P<0.001).