RELATIONSHIP BETWEEN CHOLINE AVAILABILITY AND ACETYLCHOLINE SYNTHESIS IN DISCRETE REGIONS OF RAT BRAIN

Abstract— The relationship between choline availability and the synthesis of acetylcholine in discrete brain regions was studied in animals treated with the organophosphorus cholinesterase inhibitor paraoxon. Administration of paraoxon (0.23 mg/kg) inhibited acetylcholinesterase activity by approx 90% in the striatum, hippocampus and cerebral cortex and increased acetylcholine levels to 149%, 124% and 152% of control values, respectively. Free choline levels were unaltered by paraoxon in the hippocampus and cerebral cortex, but were significantly decreased in the striatum to 74% of control. When animals were injected with choline chloride (60 mg/kg), 60 min prior to the administration of paraoxon, the paraoxon-induced choline depletion in the striatum was prevented and the paraoxon-induced acetylcholine increase was potentiated from 149% to 177% of control values. Choline pretreatment had no significant effect in either the hippocampus or cerebral cortex, brain regions that did not exhibit a decrease in free choline levels after paraoxon administration. Results indicate that choline administration, which had no significant effect on acetylcholine levels by itself, increased acetylcholine synthesis in the striatum in the presence of acetylcholinesterase inhibition. However, this effect was not apparent in either the hippocampus or the cerebral cortex at similar levels of enzyme inhibition. It appears that choline generated from the hydrolysis of acetylcholine may play a significant role in the regulation of neurotransmitter synthesis in the striatum, but not in the other brain areas studied. The evidence supports the concept that the regulatory mechanisms controlling the synthesis of acetylcholine in striatal interneurons may differ from those in other brain regions.     

Choline acetyltransferase activity of spinal cord cell cultures is increased by diisopropylphosphorofluoridate.

Diisopropylphosphorofluoridate (DFP) increased the specific activity of choline acetyltransferase (ChAT) in mouse spinal cord cell cultures but paraoxon did not, though both toxicants inhibited cholinesterase activity to a comparable extent. This effect of DFP was observed after prolonged exposure but not after short-term application to the cultures. It is postulated that this delayed effect of DFP $\text{in vitro}$ may possibly be related tothe delayed neuropathy caused by DFP in certain species $\text{in vivo}$.     

Effect of cryopreservation on lipids and some physiological features of spermatozoa from rams pastured in highlands and in valleys

The effect of low temperature preservation on the motility and morphology of acrosomes, acrosomal proteolytic activity, phospholipid and fatty acid composition of phosphatidyl choline (PC) and phosphatidyl ethanolamine (PE), and the cholesterol/phospholipid molar ratio in sperm from rams housed in the highlands or in the valleys, were studied. The indices of motility and morphological integrity of sperm from highland rams were much greater compared with those of valley rams. Phosphatidyl choline (PC) of the highland rams was more unsaturated, while PE was more saturated compared with those of valley rams. Cryopreservation of the sperm from highland rams significantly increased the content of choline plasmalogen, accompanied by a slight rise in the levels of lysophosphatidyl choline (LPC) and phosphatidyl inositol (PI) in their sperm. The fatty acid composition altered following cryopreservation. These variations were mainly due to a decrease in the amount of docosahexaenic acid and an increase in the amounts of linoleic and palmitic fatty acids. The results may be indicative of the fact that the alterations in the sperm of the valley rams were more pronounced and they may be attributed to the structural features of the sperm, as well as a reduced concentration of oxygen in the organs and tissues of the highland rams.     

Detection of pesticides using an amperometric biosensor based on ferophthalocyanine chemically modified carbon paste electrode and immobilized bienzymatic system

A new highly sensitive amperometric method for the detection of organophosphorus compounds has been developed. The method is based on a ferophthalocyanine chemically modified carbon paste electrode coupled with acetylcholinesterase and choline oxidase co-immobilized onto the surface of a dialysis membrane. The activity of cholinesterase is non-competitively inhibited in the presence of pesticides. The highest sensitivity to inhibitors was found for a membrane containing low enzyme loading and this was subsequently used for the construction of an amperometric biosensor for pesticides. Analyses were done using acetylcholine as substrate; choline produced by hydrolysis in the enzymatic layer was oxidized by choline-oxidase and subsequently H(2)O(2) produced was electrochemically detected at +0.35 V vs. Ag/AgCl. The decrease of substrate steady-state current caused by the addition of pesticide was used for evaluation. With this approach, up to 10(-10) M of paraoxon and carbofuran can be detected.     

Choline dehydrogenase polymorphism rs12676 is a functional variation and is associated with changes in human sperm cell function

Approximately 15% of couples are affected by infertility and up to half of these cases arise from male factor infertility. Unidentified genetic aberrations such as chromosomal deletions, translocations and single nucleotide polymorphisms (SNPs) may be the underlying cause of many cases of idiopathic male infertility. Deletion of the choline dehydrogenase (Chdh) gene in mice results in decreased male fertility due to diminished sperm motility; sperm from Chdh(-/-) males have decreased ATP concentrations likely stemming from abnormal sperm mitochondrial morphology and function in these cells. Several SNPs have been identified in the human CHDH gene that may result in altered CHDH enzymatic activity. rs12676 (G233T), a non-synonymous SNP located in the CHDH coding region, is associated with increased susceptibility to dietary choline deficiency and risk of breast cancer. We now report evidence that this SNP is also associated with altered sperm motility patterns and dysmorphic mitochondrial structure in sperm. Sperm produced by men who are GT or TT for rs12676 have 40% and 73% lower ATP concentrations, respectively, in their sperm. rs12676 is associated with decreased CHDH protein in sperm and hepatocytes. A second SNP located in the coding region of IL17BR, rs1025689, is linked to altered sperm motility characteristics and changes in choline metabolite concentrations in sperm.     

Effects that bovine sperm cryopreservation using two different extenders has on sperm membranes and chromatin

The process of cryopreservation impairs sperm cell function, potentially leading to a reduction in fertility. The objectives of the present study were to evaluate the effects that cryopreservation using two different extenders has on sperm motility and mitochondrial function, as well as on the integrity of plasma membranes, acrosomal membranes and chromatin, using practical and objective techniques. The focus of the present study was to identify correlations between alterations in sperm membranes and sperm motility in cryopreserved bovine spermatozoa. Seven ejaculates were collected from eight Simmental bulls (n=56). After collection, semen volume and concentration were assessed for purposes of dilution. Sperm motility was evaluated subjectively and by computer-assisted semen analysis, morphological characteristics were evaluated by differential interference microscopy, the integrity of plasma and acrosomal membranes, as well as mitochondrial function, were determined using a combination of fluorescent probes containing fluorescein isothiocyanate-Pisum sativum agglutinin, propidium iodide or 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolcarbocyanine iodide. Chromatin integrity was evaluated using the acridine orange technique. The semen was subsequently divided into two aliquots and diluted with one of two extenders (Bioxcell or Botu-Bov), after which both were packaged in 0.5 mL straws and frozen using an automated system. Two straws of semen from each treatment were thawed, and the semen parameters were evaluated as described above. Cryopreservation of sperm reduced motility, damaging plasma and acrosomal membranes, as well as decreasing mitochondrial function. The Botu-Bov extender was more effective in preserving sperm motility and membrane integrity than was the Bioxcell extender.     

Characterization of cholinesterases in plasma of three Portuguese native bird species: application to biomonitoring

Over the last decades the inhibition of plasma cholinesterase (ChE) activity has been widely used as a biomarker to diagnose organophosphate and carbamate exposure. Plasma ChE activity is a useful and non-invasive method to monitor bird exposure to anticholinesterase compounds; nonetheless several studies had shown that the ChE form(s) present in avian plasma may vary greatly among species. In order to support further biomonitoring studies and provide reference data for wildlife risk-assessment, plasma cholinesterase of the northern gannet (Morus bassanus), the white stork (Ciconia ciconia) and the grey heron (Ardea cinerea) were characterized using three substrates (acetylthiocholine iodide, propionylthiocholine iodide, and S-butyrylthiocholine iodide) and three ChE inhibitors (eserine sulphate, BW284C51, and iso-OMPA). Additionally, the range of ChE activity that may be considered as basal levels for non-exposed individuals was determined. The results suggest that in the plasma of the three species studied the main cholinesterase form present is butyrylcholinesterase (BChE). Plasma BChE activity in non-exposed individuals was 0.48±0.11 SD U/ml, 0.39±0.12 SD U/ml, 0.15±0.04 SD U/ml in the northern gannet, white stork and grey heron, respectively. These results are crucial for the further use of plasma BChE activity in these bird species as a contamination bioindicator of anti-cholinesterase agents in both wetland and marine environments. Our findings also underscore the importance of plasma ChE characterization before its use as a biomarker in biomonitoring studies with birds.     

Neuromuscular dysfunction induced by acetylcholinesterase inhibition.

The organophosphate cholinesterase inhibitor paraoxon produces a dose-dependent necrosis in rat skeletal muscle fibers after a single administration. The pathology, which is initiated at the motor end-plate region, is evident as early as 30 minutes after paraoxon administration and is characterized by dilated mitochondria, expanded sarcoplasmic reticulum, fused and widened subsynaptic folds, and coated cleft vesicles. By 24 hours, a generalized breakdown of muscle fiber architecture is evident with an accompanying infiltration of phagocytes. Electrophysiological studies have shown that paraoxon increases neurotransmitter release and causes spontaneous and impulse-related antidromic nerve activity, both of which can be reduced significantly by reactivation of inhibited acetylcholinesterase (AChE) with pyridine-2-aldoxime methiodide. The severity of the myopathy has been found to be positively correlated to the degree and duration of AChE inhibition. It appears that 2 hours of inhibition, with a critical loss in activity, viz., 85%, is necessary to initiate severe muscle fiber necrosis. Prior nerve transection prevents myopathic development and current data support the hypothesis that the induction of skeletal muscle fiber necrosis is triggered by inhibition of a neurally regulated fraction of AChE.     

Kinematic study on the effect of pH on bull sperm function

Since the mammalian spermatozoa became capable of motion, during the epididymal transit, the spermatozoon swims in a liquid medium and it is completely dependent on the environmental conditions. Some reports have suggested an influence of pH on sperm kinetic characteristics, but no study has objectively described how motility changes in a different environmental pH. In this study, we evaluated the effect of different environmental pHs (5.5, 6, 6.5, 7, 7.5, 8, and 8.5) on kinetic parameters, sperm viability, mitochondrial activity, and sperm morphology of bull semen immediately and 1 h after dilution. The results showed higher values for sperm motility characteristics, viability, and mitochondrial activity at pH 7 and 7.5. Values of pH lower than 6.5 and higher than 8 resulted in suboptimal motility, with a decrease in most parameters. At pH 8 and 8.5, a discrepancy between viability and total and progressive motility was found, with a significant amount of spermatozoa that were live but immotile. This reduction seemed related to a decrease in mitochondrial activity, possibly due to the increase in pH. The flow cytometric evaluation of sperm viability assessed by calcein AM was very consistent with the amount of spermatozoa with membrane integrity, evaluated in fluorescence by propidium iodide/SYBR-14 stain. Thus, the calcein AM stain could be used as viability stain instead the classic propidium iodide/SYBR-14 stain because this could allow the addiction of other functional stains without a overlapping of the fluorescent signal in the flow cytometer.     

Initiation of motility by steelhead (Oncorhynchus mykiss) sperm: membrane ion exchangers and pH sensitivity

Initiation of motility in salmonid sperm is sensitive to the pH of the extracellular medium, however, the basis of this sensitivity is not clear. Sperm incubated in an immobilization buffer (SI) at low pH ( 7.1–7.2) become motile when diluted with activating medium (AM) at high ( 8.5) but not low pH. Based on this observation, various agents were tested to determine whether the onset of steelhead sperm motility upon activation with high pH AM, following incubation with low pH SI, could be blocked by inhibiting membrane exchangers postulated to be important in intracellular pH (pHi) regulation. Amiloride (inhibitor of proton:sodium exchange), SITS and DIDS (inhibitors of anion exchange) and bafilomycin A 1 (inhibitor of H⁺-ATPase activity) were not effective in this experimental design. However, regardless of SI pH, DIDS was effective in blocking motility as was replacing chloride with thiocyanate or including the chloride channel blocker, niflumic acid, in SI suggesting that chloride efflux plays a key role in motility initiation. Nonetheless, the results of this study suggest that the rapid onset of sperm motility with activation at high pH following incubation at low pH is probably not based on rapid adjustment of pHi via membrane exchangers/transporters but rather due to an effect of pH on motility-associated processes at the extracellular surface of the sperm.     

A comparison of cholinesterase activity after intravenous, oral or dermal administration of methyl parathion

Time-dependent changes in blood cholinesterase activity caused by single intravenous, oral or dermal administration of methyl parathion to adult female rats were defined. Intravenous and oral administration of 2.5 mg/kg methyl parathion resulted in rapid (<60 min) decreases in cholinesterase activity which recovered fully in vivo within 30-48 h. In contrast, spontaneous reactivation of cholinesterase in vitro was complete within 6 h at 37 degrees C. Dermal administration of methyl parathion caused dose-dependent inhibition of cholinesterase activity which developed slowly (> or =6 h) and was prolonged (> or =48 h). Time- and route-dependent effects of methyl parathion on cholinesterase activity in brain and other tissues generally paralleled its effects on activity in blood. In conclusion, pharmacodynamics of methyl parathion differ substantially with route of exposure. Recovery of cholinesterase in vivo after intravenous or oral exposure may partially reflect spontaneous reactivation and suggests a rapid clearance of methyl parathion or its active metabolite methyl paraoxon. The more gradual and prolonged inhibition of cholinesterase caused by dermal administration is consistent with disposition of methyl parathion at a site from which it or methyl paraoxon is only slowly distributed. Thus, dermal exposure to methyl parathion may pose the greatest risk for long-term adverse effects.     

Characterization of a pseudocholinesterase purified from surgeonfish tissues confirms the atypical nature of this enzyme

The sialated, presumed-globular form of an atypical pseudocholinesterase (pseudo-ChE) previously described from surgeonfish tissues (Leibel: Comparative Biochemistry and Physiology 1988) has been purified to apparent homogeneity using a combination of salt fractionation along with ion-exchange and concanavalin A-Sepharose affinity chromatographic techniques. An overall 1,400-fold purification has been achieved with a 24% final yield of a cholinesterase (ChE) whose final specific activity is 50 mumol/min-mg. The purified enzyme was subjected to detailed biochemical and physical analysis. The purified pseudo-ChE is a sialated, globular, tetrameric enzyme with an apparent sedimentation coefficient of 11.5 S (+/- 0.5 S) and a molecular weight of 250 kilodaltons. The monomers are apparently not secured by disulfide bridges. The enzyme preferentially hydrolyzes acetyl(thio)choline but also hydrolyzes propionyl(thio)choline at reduced but comparable rates along with a wide variety of other noncholine esters. As such, it demonstrates the relative nonspecificity associated with classical pseudo-ChEs. However, the enzyme exhibits limited, but real, substrate inhibition with all choline esters as does true acetylcholinesterase (AChE). The enzyme is insensitive to the AChE inhibitor BW 284C51, sensitive to one (RO2-0683) of two (RO2-1250) pseudo-ChE inhibitors, and particularly sensitive to paraoxon inhibition (10(3)-10(4)-fold more so than AChE). It exhibits the short thermal half-life characteristic of pseudo-ChEs but not the expected ionic activation/inhibition profile. It is clear from this and other studies of atypical extrasynaptic cholinesterase activities occurring in other vertebrates that the orthodox categorization of cholinesterase as either "true" ("specific"; E.C. 3.1.1.7) or "pseudo" ("nonspecific"; E.C. 3.1.1.8) is inadequate to accommodate the increasing instances of ChE activities that exhibit atypical, intermediate properties.     

Caffeine-stimulated ATP-reactivated motility in a detergent-treated bovine sperm model.

Mammalian sperm cells contain most of the components of a cyclic AMP-mediation system. To determine if the cyclic AMP-dependent protein kinase has a role in the control of bovine sperm motility, a sperm model was developed that was permeable to exogenously added ATP. Treatment of bovine epididymal spermatozoa with dithiothreitol and Brij-35 (polyoxyethylene alcohol), a nonionic surfactant, resulted in a sperm model with caffeine-stimulated, ATP-reactivatable motility. The results of the data obtained using this sperm model can be summarized as follows. (1) Brij partially solubilized the cyclic AMP-dependent protein kinase activity and released nearly half of the total acid-extractable nucleotides of the cells. (2) Brij treatment severely damaged the sperm mitochondria as judged by their lack of respiration. (3) Brij-treated spermatozoa lose their motility but were reactivated with ATP; the reactivated motility was stimulated by caffeine. (4) Despite the caffeine stimulation of motility in Brij-treated spermatozoa, increased protein phosphorylation did not accompany reactivation of motility, nor could a cyclic AMP effect be demonstrated on reactivated motility or on kinase activity in the sperm model.     

Glycolysis plays a major role for adenosine triphosphate supplementation in mouse sperm flagellar movement

The mammalian sperm must be highly motile for a long time to fertilize a egg. It has been supposed that ATP required for sperm flagellar movement depends predominantly on mitochondrial respiration. We assessed the contribution of mitochondrial respiration to mouse sperm motility. Mouse sperm maintained vigorous motility with high beat frequency in an appropriate solution including a substrate such as glucose. The active sperm contained a large amount of ATP. When carbonyl cyanide m-chlorophenylhydrazone (CCCP) was applied to suppress the oxidative phosphorylation in mitochondria, the vigorous motility was maintained and the amount of ATP was kept at the equivalent level to that without CCCP. When pyruvate or lactate was provided instead of glucose, both sperm motility and the amount of ATP were high. However, they were drastically decreased when oxidative phosphorylation was suppressed by addition of CCCP. We also found that sperm motility could not be maintained in the presence of respiratory substrates when glycolysis was suppressed. 2-Deoxy-d-glucose (DOG) had no effect on mitochondrial respiration assessed by a fluorescent probe, 5,5',6,6'-tetrachloro-1,1',3,3'-tetraethylbenzimidazolylcarbocyanine iodide (JC-1), but, it inhibited motility and decreased ATP content when pyruvate or lactate were provided as substrates. The present results suggest that glycolysis has an unexpectedly important role in providing the ATP required for sperm motility throughout the length of the sperm flagellum.     

Incorporation of ascorbic acid and α-tocopherol to the extender media to enhance antioxidant system of cryopreserved sea bass sperm

Despite the overwhelming application of sperm cryopreservation in aquaculture and broodstock management, its detrimental effects on sperm quality must be taken into account. Imbalance of reactive oxygen species is considered one of the main triggers of cell damage after cryopreservation, because the spermatozoa antioxidant system is decimated during this process, mainly because the natural antioxidants present in seminal plasma diminish when sperm is diluted in extenders. It has been demonstrated that the addition of antioxidants to the extender improves the quality of thawed sperm. Thus, the aim of the present work was to evaluate the status of the antioxidant system in cryopreserved sea bass sperm, and the possibility of enhancing this system to reduce oxidation of the membrane compounds by extender supplementation with vitamins. To do this, sperm from European sea bass (Dicentrarchus labrax) was cryopreserved using an extender control (NAM), supplemented with 0.1 mm α-tocopherol or 0.1 mm ascorbic acid. Sperm motility (computer assisted sperm analysis (CASA) parameters), viability (SYBR Green/propidium iodide (PI)), lipid peroxidation (malondialdehyde (MDA) levels) and protein oxidation (DNPH levels) were analyzed, as well as the status of the sperm antioxidant system by determining glutathione peroxidase, glutathione reductase and superoxide dismutase (GPX, GSR and SOD) activity. The results demonstrated that extenders containing vitamins significantly increased sperm motility. Total motility, velocity and linearity increased from 31.2 ± 3.0 μm/sec, 18.3 ± 1.7 μm/sec and 46.9 ± 2.0% in extender containing 0.1 mm α-tocopherol or 30.6 ± 3.9 μm/sec, 19.5 ± 1.6 μm/sec and 47.9 ± 2.2% in extender containing 1 mm ascorbic acid respect to the extender control (20.7 ± 3.3 μm/sec, 13.8 ± 1.7 μm/sec and 37.3 ± 4.1%). However, viability and levels of lipid peroxidation and protein oxidation were not affected by the presence of these antioxidants, suggesting that membrane impairment could be more associated to osmotic shock or membrane destabilization than oxidative damage. The increased activity of both GPX and GSR after cryopreservation showed that the antioxidant system of sea bass sperm must play an important role in preventing oxidation of the membrane compounds. In conclusion, the addition of α-tocopherol and ascorbic acid to the extender media, together with the antioxidant system of the spermatozoa improved sea bass sperm motility, which is one of the impairment parameters most affected by cryopreservation.     

Choline in tardive dyskinesia and Huntington's disease.

Eight men, 4 with tardive dyskinesia and 4 with Huntington's disease, were treated with oral doses of choline chloride up to 20 g daily for three to eight weeks. Prior to treatment, 7 of the 8 patients were tested with a graded dose of 3 mg of physostigmine salicylate, a cholinesterase inhibitor. Six of these 7 patients had a favorable acute response to physostigmine. The same six patients had a favorable response to chronic treatment with choline chloride. Relapses following a switch from active treatment to placebo were delayed, but this could not be explained on the basis of the rate of choline disappearance from plasma. Re-treatment with choline chloride reversed relapse in most instances. Choline chloride may ameliorate these movement disorders by increasing central cholinergic activity, but other mechanisms are possible. Its practical importance as a treatment needs further elucidation.     

Optical detection of organophosphorus compounds based on Mn-doped ZnSe d-dot enzymatic catalytic sensor

In this paper, we report a sensitive and selective method for detection of organophosphorus compounds (OPs) based on Mn:ZnSe d-dots-enzyme-hydrogen peroxide (H(2)O(2)) fluorescence quenching system. Acetylcholine esterase (AChE) can hydrolyze acetylcholine (ACh) to choline. Subsequently, choline oxidase (ChOx) oxidizes choline to generate H(2)O(2). The enzyme-generated H(2)O(2) can quench the fluorescence of Mn:ZnSe d-dots. When paraoxon are introduced in solution, it can interact with the active centers of AChE and decrease the enzyme activity. This leads to the decrease of the H(2)O(2) production and then the fluorescence quenching rate of Mn:ZnSe d-dots. Experimental results showed that the enzyme inhibition percentage of Mn:ZnSe d-dots-ChOx-AChE-ACh system was proportional to the logarithm of paraoxon in the range 4.84×10(-11) to 4.84×10(-6) mol/L with the detection limit (S/N=3) of 1.31×10(-11) mol/L. The proposed biosensor has been employed for quick determination of paraoxon in tap water and milk samples with satisfactory reproducibility and accuracy. This nano-biosensor was proved to be sensitive, rapid, simple and tolerance of most interfering substances.     

Oxidation of cholinesterase-inhibiting pesticides: A simple experiment to illustrate the role of bioactivation in the toxicity of chemicals

A simple undergraduate laboratory experiment that can be used in Biochemistry and Toxicology courses to illustrate the importance of metabolic reactions in the toxicity of chemical substances is reported. It involves the experimental confirmation that oxidized phosphorothionate esters, commonly used as insecticides, are stronger cholinesterase inhibitors and therefore exhibit higher toxicity than do their sulphur analogs starting from which the first are formed by in vivo oxidative desulphuration. Two separated aliquots of a bovine blood sample are incubated with parathion and paraoxon, its oxygen analog, and compared for cholinesterase activity with "normal" blood. Previously, a standard sample of paraoxon was obtained by oxidation of the thiono group of parathion with bromine vapour by reaction TLC. The comparison of the inhibitory capacity of both compounds is made by a colorimetric procedure using acetylthiocholine as substrate of the enzyme and 5,5'-dithiobis-(2-nitrobenzoic acid) as chromogen.     

Cyclic GMP-specific phosphodiesterase-5 regulates motility of sea urchin spermatozoa

Motility, chemotaxis, and the acrosome reaction of animal sperm are all regulated by cyclic nucleotides and protein phosphorylation. One of the cyclic AMP-dependent protein kinase (PKA) substrates in sea urchin sperm is a member of the phosphodiesterase (PDE) family. The molecular identity and in vivo function of this PDE remained unknown. Here we cloned and characterized this sea urchin sperm PDE (suPDE5), which is an ortholog of human PDE5. The recombinant catalytic domain of suPDE5 hydrolyzes only cyclic GMP (cGMP) and the activity is pH-dependent. Phospho-suPDE5 localizes mainly to sperm flagella and the phosphorylation increases when sperm contact the jelly layer surrounding eggs. In vitro dephosphorylation of suPDE5 decreases its activity by approximately 50%. PDE5 inhibitors such as Viagra block the activity of suPDE5 and increase sperm motility. This is the first PDE5 protein to be discovered in animal sperm. The data are consistent with the hypothesis that suPDE5 regulates cGMP levels in sperm, which in turn modulate sperm motility.     

An investigation of the effectiveness of certain antioxidants in preserving the motility of reactivated bull sperm models

Bull sperm that had been disrupted by freezing and thawing were reactivated with 1 mM Mg-adenosine 5'-triphosphate. The antioxidants superoxide dismutase, catalase, dithiothreitol, and reduced glutathione (GSH) were tested for their ability to prolong the motility of the reactivated sperm. GSH was employed both by itself and as part of a reducing system that maintained the tripeptide in the reduced form. Three of the test agents were found to increase the duration of motility in the sperm preparations; these were reduced glutathione, dithiothreitol, and superoxide dismutase. Glutathione was the most effective protective agent, yielding reactivated preparations with a half-life for the decay of motility of 2.5 h. While dithiothreitol (DTT) is widely employed as an antioxidant, we found that DTT is measurably less effective than glutathione (half-life of 1.5 h). In spite of glutathione's effectiveness in preserving motility, we have found, by direct assay, that mature bull sperm do not contain detectable amounts of this common biological antioxidant. Our results support the hypothesis that oxidative damage contributes to the loss of motility in reactivated sperm and suggest that oxidation could be a factor in motility loss in living sperm.