Acid and neutral alpha-glucosidase in the reproductive organs and seminal plasma of the bull

A synthetic substrate (p-nitrophenyl-alpha-D-glucopyranoside) was used to measure the acid and neutral alpha-glucosidase activity in bull seminal plasma, spermatozoa and in homogenates of bull reproductive organs. Marked differences were observed in the activities of these enzymes in the various tissues studied. Epididymis and particularly its caput region contained the highest specific activity of acid alpha-glucosidase. The activity of neutral alpha-glucosidase was highest in testis and in different parts of the epididymis. Seminal plasma, spermatozoa and seminal vesicle secretion contained only the acid enzyme activity. After fractionation with anion exchange chromatography in HPLC (Mono Q) and chromatofocussing, acid alpha-glucosidase activity of seminal plasma was recovered in two fractions with different pI values. The corresponding activities were found in the secretion of seminal vesicles, which thus form the major secretory source of seminal plasma acid alpha-glucosidase. In the fractionation with gel filtration on Sepharose 6B, the acid alpha-glucosidase had a smaller molecular weight than did the neutral enzyme. In anion exchange chromatography and chromatofocussing the testicular and epididymal homogenates each contained two acid and two neutral isoenzymes. In both fractionations the elution pattern of acid alpha-glucosidase was clearly different from that of the enzymes in seminal plasma. The pH optimum of acid alpha-glucosidase ranged from 3.75 to 4.5 and that of the neutral enzyme from 6.5 to 7.0. The neutral activity was more sensitive to many divalent metal ions and differences were also observed in the response of the enzymes to different concentrations of turanose and KCl.     

beta-Glucuronidase in the bull seminal plasma and reproductive organs

The biochemical distribution of beta-glucuronidase activity was studied in different reproductive organs, seminal plasma and spermatozoa of the bull. The highest specific activity was found in the epididymis, where the activity seemed to be mostly in nonsecretory and only partly in secretory form. A molecular weight of 340 X 10(3) to 360 X 10(3) was recorded for beta-glucuronidase in the bull seminal plasma and different reproductive organs with gel filtration on Sepharose 6B. In chromatofocusing four activity areas (CF-1 to CF-4) were usually obtained for beta-glucuronidase in the bull seminal plasma. The major peak CF-2 (also in the different reproductive organs) had a pI value of 5.6-5.3 and the two minor activity areas CF-1 and CF-3 had pI values of 6.0-5.8 and 5.2-4.5, respectively. Peak CF-4 eluted with a NaCl gradient after the Polybuffer elution and possibly represents an enzyme form incompletely detached from negatively charged cellular material. Isoelectric focusing on polyacrylamide gel confirmed the heterogeneity of beta-glucuronidase, since several activity bands were detected in the secretion of the different parts of the epididymis. beta-Glucuronidase activities CF-1, CF-2 and CF-3 had similar pH activity profiles (pH optimum around pH 3.0-4.0) and response to thermal inactivation at 50 degrees C. The multiple beta-glucuronidase activities of the bull seminal plasma are proposed to derive mainly from the secretion of the cauda epididymidis.     

Seminal ribonuclease synthesis in bull reproductive organs during ontogenesis

Seminal ribonuclease (AS RNase) is synthesized in the epididymis, ampullary glands and seminal vesicles of sexually mature bulls. During sexual maturation of Czech red-spotted bulls it first begins to be synthesized in the seminal vesicles and ampullary glands, after the age of 20 weeks. At this age practically none is synthesized in the epididymis. As soon as the epithelial cells of the seminal vesicles start to synthesize the enzyme and secretion of the fluids of this organ begins, synthesis per ml fluid is almost the same as in sexually mature bulls. AS RNase synthesis in the cauda epididymidis begins after the age of 27 weeks and is individually variable. AS RNase synthesis in the reproductive organs depends on the testosterone concentration in the blood plasma of the bull.     

Beta-galactosidase in the seminal plasma and reproductive organs of the bull

The distribution of beta-galactosidase activity was studied in different reproductive organs, seminal plasma and spermatozoa of the bull. The highest specific activity of beta-galactosidase was found in testis and in different parts of the epididymis, where the activity seemed to be partly in secretory (cauda secretion) and partly in non-secretory, bound form (caput to cauda epididymidis). Gel filtration on Sepharose 6B at pH 7.0 revealed two beta-galactosidase forms (GF-1, Mr approximately 500,000-600,000 and GF-2, Mr approximately 190,000-220,000) in reproductive organs and seminal plasma. The pH-optimum of both beta-galactosidase forms was about 3.75-4.75. Hg2+ and p-chloromercuribenzoate inhibited strongly these activities. Further, form GF-2 seemed to be slightly more sensitive to the thermal inactivation at 50-70 degrees C than form GF-1. In chromatofocusing beta-galactosidase activities in bull seminal plasma coeluted with those of the cauda epididymidis (pI-values 7.5-6.4). On the contrary, prostate, Cowper's gland, testis, ampulla and seminal vesicles had enzyme activities eluting at lower pI-values (6.3-4.2). Thus, the seminal plasma activity is mainly an indicator for the function of the epididymal cauda.     

beta-N-acetylglucosaminidase in the reproductive organs and seminal plasma of the bull

The highest specific activity of beta-N-acetylglucosaminidase (beta-NAG) was found in the different parts of the epididymis, where the activity seemed to be partly in secretory and partly in non-secretory, tissue-bound form. Epididymal spermatozoa also contained moderate beta-NAG activity. The beta-NAG was separated by chromatofocussing and anion exchange chromatography with HPLC into multiple forms with distinct pI values (8.0-4.0). The cauda epididymidis, ampulla and the seminal vesicles formed the major secretory sources of the high beta-NAG activity in bull seminal plasma. The major secretory forms of beta-NAG in caput and cauda epididymidis showed distinct elution profiles. In the fractionation with gel filtration on Sepharose 6B, the beta-NAG activities derived from bull testis and caput epididymidis had smaller molecular weights than did the secretory enzymes in seminal plasma, seminal vesicle secretion and cauda epididymidis. Maximum activity of all beta-NAG isoenzymes was observed at pH 5.0. They were almost totally inactivated at 60 degrees C and about 75-80% of the activity was lost at 55 degrees C. All the isoenzymes were strongly inhibited by thiol reagents but not with other metal ions and chelating agents. Histochemical studies showed a strong granular (lysosomal) reaction for beta-NAG in basal cells and basal parts of the principal cells in all but the initial segment of the epididymis. An apical (secretory) reaction was prominent in the distal caput and corpus as well as in distal cauda. After the distal caput the luminal sperm mass became increasingly mixed with a beta-NAG-positive material. The epithelial cells of the ampulla and seminal vesicle displayed a moderate apical (secretory) reaction.     

alpha-L-Fucosidase in the reproductive organs and seminal plasma of the bull

alpha-L-Fucosidase (EC 3.2.1.51) activity was studied in different reproductive organs, seminal plasma and spermatozoa of the bull. The highest specific activity of alpha-L-fucosidase was found in the epididymis. Gel filtration at pH 7.0 revealed two alpha-L-fucosidases (alpha-L-fucosidase I and alpha-L-fucosidase II) in most reproductive tissues, but seminal plasma, spermatozoa and epididymal cauda contained only form I. Fractionation at basic pH (pH 8.5) resulted in the elution of alpha-L-fucosidase as form II. Some differences were encountered in pH profiles and thermal stabilities of the two enzyme forms and they showed additional polymorphism after chromatofocusing. The comparison of enzyme profiles after fractionations suggests that cauda epididymidis is the main source of the seminal plasma activity in the bull.     

The effect of bull seminal ribonuclease on reproductive organs and sexual behaviour in male rats

Wistar male rats received an intratesticular injection (at 114 and 265 days of age) of 3 mg of partially purified bull seminal ribonuclease (AS RNase) or saline. It was found that sexual behaviour (initiation of copulation as well as copulatory behavioural pattern) of experimental males was not changed, but the ability of these males to fertilize females was evidently suppressed. In addition to significantly lower weights of testes and epididymis, inhibition of seminiferous epithelium development (aspermatogenesis) associated with the absence of spermatozoa was determined in cauda epididymidis in experimental animals. However, Leydig cells remained without changes. Plasma testosterone levels of AS RNase treated males were not altered in comparison with the controls. Thus AS RNase specifically impaired spermatogenesis but did not influence androgen action and sexual behaviour.     

Amino acid sequence of seminalplasmin, an antimicrobial protein from bull semen

Analytical ultracentrifugation of highly purified seminalplasmin revealed a molecular mass of 6300. Amino acid analysis of the protein preparation indicated the absence of sulfur-containing amino acids cysteine and methionine. The amino acid sequence of seminalplasmin was determined by manual Edman degradation of peptides obtained by proteolytic enzymes trypsin, chymotrypsin and thermolysin: NH₂-Ser Asp Glu Lys Ala Ser Pro Asp Lys His His Arg Phe Ser Leu Ser Arg Tyr Ala Lys Leu Ala Asn Arg Leu Ser Lys Trp Ile Gly Asn Arg Gly Asn Arg Leu Ala Asn Pro Lys Leu Leu Glu Thr Phe Lys Ser Val-COOH. The number of amino acids according to the sequence were 48, the molecular mass 6385. As predicted from the sequence, seminalplasmin very likely contains two α-helical domains in which residues 8-17 and 40-48 are involved. No evidence for the existence of β-sheet structures was obtained. Treatment of seminalplasmin with the above proteases as well as with amino peptidase M and carboxypeptidase Y completely eliminated biological activity.     

Effect of rapid warming of bull and rabbit semen

Rapid warming of semen from 5 to 37 degrees C caused visible damage to the acrosomes of bull and rabbit spermatozoa. The degree and type of damage varied with the species, the bull being the more resistant. While vesiculation was observed in rabbit spermatozoa, neither warm nor cold shock resulted in this defect in the bull. Warm shock of bull spermatozoa caused acrosomal knobbing in an anterior region of the head. Spermatozoa with thread and/or droplet-like structures were frequently observed in bull semen after cold shock.     

Excretion of lumpy skin disease virus in bull semen

This work was done to establish the incidence and duration of excretion of lumpy skin disease virus (LSDV) in semen of experimentally infected susceptible bulls. Six serologically negative bulls 11-20 months of age were experimentally infected with a virulent field isolate (strain V248/93) of LSDV. Animals were observed for the development of clinical signs, blood was collected until day 90 after infection, and semen was collected every second day until day 18, then twice a week till day 63 and twice a month until three consecutive samples were negative when tested for LSDV by polymerase chain reaction (PCR). An aliquot of each sample which tested positive using PCR was inoculated onto cell monolayers for the recovery of virus. Two bulls developed severe lumpy skin disease (LSD), two bulls showed mild signs and two bulls showed a transient fever only. Multiple samples were positive on PCR from both of the severely affected bulls and one of the mildly affected bulls; between days 10 and 159, days 8 and 132, and days 10 and 21 respectively. Only one sample from each of the other three bulls was positive on PCR. Virus was only isolated from two samples from one of the severely affected bulls and from five semen samples from the other. This study confirmed the excretion of LSDV in bovine semen for prolonged periods, even when obvious clinical signs of the disease were no longer apparent.     

Activity, substrate detection and immunolocalization of glutathione peroxidase (GPx) in bovine reproductive organs and semen

The purpose of the current study was to further investigate the role of the antioxidant selenium-dependent enzyme glutathione peroxidase (GPx) in reproductive organs and semen from bulls. To this end a fast and convenient combined method for immune detection and substrate localization was adapted, which allows the assessment of both molecular weight and peroxidase activity of proteins on one and the same SDS-PAGE gel plate. After routine semen analysis of ejaculates, a spectrophotometrical assay of GPx activity in bovine semen was performed. For the immunological analyses performed, a rabbit polyclonal monospecific antibody against GPx was raised. Substrate detection and immunolocalization of GPx in lysates from bovine testis, epididymis, spermatozoa, and seminal plasma was performed. In order to determine the localization of GPx in spermatozoa, immunofluorescence analysis was performed. A positive correlation was established between GPx activity in semen and the number of motile spermatozoa. A negative correlation was observed between GPx activity and the number of immotile spermatozoa. The combined method for immunodetection and substrate localization was tested and proved reliable. Both tetramer and monomer forms of GPx were detected in lysates from testis, epididymis, and spermatozoa. We found no GPx activity in seminal plasma. Immunofluorescence shows the presence of GPx chiefly in the mitochondrial and in the acrosome regions of spermatozoa. GPx activity remained stable under the extreme experimental conditions.