Isolation and biochemical characteristics of a molecular form of epididymal acid phosphatase of boar seminal plasma

The fluid of boar epididymis is characterized by a high activity of acid phosphatase (AcP), which occurs in three molecular forms. An efficient procedure was developed for the purification of a molecular form of epididymal acid phosphatase from boar seminal plasma. We focused on the epididymal molecular form, which displayed the highest electrophoretic mobility. The purification procedure (dialysis, ion exchange chromatography, affinity chromatography and hydroxyapatite chromatography) used in this study gave more than 7000-fold purification of the enzyme with a yield of 50%. The purified enzyme was homogeneous by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). The purified molecular form of the enzyme is a thermostable 50 kDa glycoprotein, with a pI value of 7.1 and was highly resistant to inhibitors of acid phosphatase when p-nitrophenyl phosphate was used as the substrate. Hydrolysis of p-nitrophenyl phosphate by the purified enzyme was maximally active at pH of 4.3; however, high catalytic activity of the enzyme was within the pH range of 3.5–7.0. Kinetic analysis revealed that the purified enzyme exhibited affinity for phosphotyrosine (K_m = 2.1 × 10⁻³ M) and was inhibited, to some extent, by sodium orthovanadate, a phosphotyrosine phosphatase inhibitor. The N-terminal amino acid sequence of boar epididymal acid phosphatase is ELRFVTLVFR, which showed 90% homology with the sequence of human, mouse or rat prostatic acid phosphatase.The purification procedure described allows the identification of the specific biochemical properties of a molecular form of epididymal acid phosphatase, which plays an important role in the boar epididymis.     

Purification and properties of alkaline phosphatase from boar seminal plasma

An alkaline phosphatase was purified from boar seminal plasma using adsorption to calcium phosphate gel, gel filtration, and ion-exchange chromatography. The preparation gave a single band on SDS polyacrylamide electrophoresis. The enzyme was a non-specific alkaline phosphatase that hydrolysed pyrophosphate slowly and had no phosphodiesterase activity. The pH optimum was 10 and the Km was approximately 0.2 mM with p-nitrophenyl phosphate as substrate. The enzyme was a zinc metalloenzyme as indicated by the loss of activity when treated with o-phenanthroline and the restoration of activity by zinc and magnesium ions. It also lost activity when treated with thiols. Molecular weight estimates from SDS polyacrylamide gel electrophoresis and gel filtration suggest that the enzyme is a tetramer of identical subunits, each of which has a molecular weight of 68,000.     

Biochemical characterization of sialoprotein "anti-agglutinin" purified from boar epididymal and seminal plasma

Sialoprotein "anti-agglutinin," previously shown to inhibit sperm head-to-head agglutination, is found in both boar epididymal and seminal plasma. The present report characterizes anti-agglutinin by mass spectrometry, by N-terminal amino acid sequence analysis, and by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis (PAGE) and Western blotting techniques to assess phosphate content of the molecule. Anti-agglutinin had the SDS-PAGE mobility of approximately 25 kDa. By electrospray ionization-mass spectrometry, however, mass spectra of anti-agglutinin were characterized by two major peaks (19,379-19,382 Da and 19,395-19,397 Da) and several minor peaks. Mass spectrometry of tryptic peptide fragments of deglycosylated anti-agglutinin and amino acid sequence analysis revealed that the protein has a unique peptide-mass fingerprinting of fragments (12,668 Da, 5,209 Da, 1,226 Da, and 1,168 Da) and a novel N-terminal amino acid sequence (KTDDY AISGA KEEEF YDYME ELYAV), respectively. Additionally Western blot techniques, using commercially available monoclonal antibodies, were used to detect presence of phosphothreonine and phosphoserine substituents, but two different monoclonal antibodies did not detect phosphotyrosine. Moreover, treatment with two different alkaline phosphotases converted the molecule, as assessed by SDS-PAGE and detection by silver stain, from the parent form of about 25 kDa to forms of approximately 19 kDa (similar to that assigned by mass spectrometry) and/or 15 kDa. Original antiserum generated toward, and reacting with native anti-agglutinin, reacted only with 19 kDa form. These results are consistent with the conclusion that the native anti-agglutinin may be a novel protein that is phosphorylated at serine and/or threonine residues.     

Purification and characterization of a protein tyrosine acid phosphatase from boar seminal vesicle glands

A protein tyrosine phosphatase (PTPase) with acid phosphatase activity was purified (500-fold) from the fluid of boar seminal vesicles. Preparative purification was performed with a 3-step procedure, employing FPLC S-Sepharose Fast Flow, Mono Q and Superdex 75 column. Protein tyrosine acid phosphatase (PTAPase) was homogeneous by polyacrylamide gel electrophoresis (PAGE, SDS-PAGE). PTAPase is a glycoprotein which has a molecular weight of about 41-42 kDa. This enzyme was maximally active at pH 5.5, and its thermostability was less than 80 degrees C. The K(m) value for p-nitrophenylphosphate, a specific synthetic substrate, was 0.87 x 10(-3)M, however, higher substrate specificity was shown when phosphotyrosine (K(m)=0.37 x 10(-3)M) and protein fragments, such as gastrin (K(m)=0.0032 x 10(-3)M) and hirudin (K(m)=0.0075 x 10(-3)M), were used as substrates. Activity of PTAPase was inhibited by dephostatin, molybdate and orthovanadate by 100, 95 and 70%, respectively, when phosphotyrosine was used as the substrate. Immunofluorescence study has shown that the seminal vesicles are the only source of PTAPase in boar seminal plasma.     

Prostatic acid phosphatase degrades lysophosphatidic acid in seminal plasma

Lysophosphatidic acid (LPA) is a lipid mediator with multiple biological activities and is detected in various biological fluids, including human seminal plasma. Due to its cell proliferation stimulatory and anti-apoptotic activities, LPA has been implicated in the progression of some cancers such as ovarian cancer and prostate cancer. Here, we show that prostatic acid phosphatase, which is a non-specific phosphatase and which has been implicated in the progression of prostate cancer, inactivates LPA in human seminal plasma. Human seminal plasma contains both an LPA-synthetic enzyme, lysoPLD, which converts lysophospholipids to LPA and is responsible for LPA production in serum, and its major substrate, lysophosphatidylcholine. In serum, LPA accumulated during incubation at 37 degrees C. However, in seminal plasma, LPA did not accumulate. This discrepancy is explained by the presence of a strong LPA-degrading activity. Incubation of LPA with seminal plasma resulted in the disappearance of LPA and an accompanying accumulation of monoglyceride showing that LPA is degraded by phosphatase activity present in the seminal plasma. When seminal plasma was incubated in the presence of a phosphatase inhibitor, sodium orthovanadate, LPA accumulated, indicating that LPA is produced and degraded in the fluid. Biochemical characterization of the LPA-phosphatase activity identified two phosphatase activities in human seminal plasma. By Western blotting analysis in combination with several column chromatographies, the major activity was revealed to be identical to prostatic acid phosphatase. The present study demonstrates active LPA metabolism in seminal plasma and indicates the possible role of LPA signaling in male sexual organs including prostate cancer.     

Isolation and biochemical characterization of heparin-binding proteins from boar seminal plasma: A dual role for spermadhesins in fertilization

Sperm surface-coated heparin-binding proteins originating from secretions of the male sexual accessory glands, are known to play a pivotal role as extrinsic regulatory factors during sperm capacitation in many mammalian species. They interact with glycosaminoglycans present in the female genital tract and enhance the subsequent zona pellucida-induced acrosome reaction. We have isolated heparin-binding proteins from boar seminal plasma by affinity chromatography on heparin–Sepharose and reverse-phase HPLC. N-Terminal sequence analysis of these proteins identified a boar counterpart of the bovine capacitation factors BSP-A1/2 (also called PDC-109) and BSP-A3. Several carbohydrate- and zona pellucida-binding proteins, which belong to the newly described spermadhesin family, were also identified as heparin-binding proteins. Our results imply that, besides other capacitation factors, members of the spermadhesin family may play a dual role in sperm capacitation and fertilization in the pig. © 1993 Wiley-Liss, Inc.     

Purification and characterization of human seminal plasma acid phosphatase

A 81-fold purification of human seminal plasma acid phosphatase was obtained by a three-step procedure, involving ammonium sulfate precipitation, DEAE-cellulose chromatography and Sephadex G-200 gel filtration. Homogeneity of the preparation during purification steps was tested by polyacrylamide gel electrophoresis and only one major band was obtained after the final step. The pH optimum for the activity of the purified enzyme was 5.6 and thermal stability was obtained even up to 40 degrees C. PNPP was the most specific synthetic substrate. The Km of purified seminal acid phosphatase towards PNPP was 1.5 X 10(-3) M. Among the metal ions tested, Hg+2 showed an I50 value of 4.2 X 10(-7) M. Studies with PCMB, PMSF and EDTA did not show any inhibition, whereas NaF and L(+)tartrate, at 1 mM concentration, inhibited the enzyme by 95% and 85%, respectively.     

Purification of prostatic acid phosphatase from human seminal plasma

Prostatic acid phosphatase has been isolated from human seminal plasma. The purification method utilizes gel filtration on Sephadex G100, ammonium sulfate precipitation and a series of chromatographical steps including concanavalin A Sepharose 4B, anion exchange and gel filtration chromatography. The final product appears homogenous when analyzed by gel filtration on Sephadex G100. It gives one major band on SDS polyacrylamide gels. The specific activity is similar to that obtained by other purification schemes. The yield of the method described above has allowed to set up a sensitive radioimmunoassay of prostatic acid phosphatase.     

Origin of a sperm motility inhibitor from boar seminal plasma

We have investigated the origin of the sperm motility inhibitor (SPMI) from boar seminal plasma. SPMI was measured by its capacity to inhibit the motility of demembranated spermatozoa and by an enzyme-linked immunosorbant assay (ELISA). Among the various reproductive and now reproductive tissues and fluids tested, only the seminal vesicle fluid and seminal plasma contained significant amounts of SPMI biological activity and SPMI antigen. Like other seminal vesicle fluid proteins, SPMI is diluted 6- to 8-fold upon ejaculation. By immunohistochemical detection at the light microscope with antibodies obtained from rabbits immunized with SPMI purified from boar seminal plasma, SPMI was found in the cytosol and/or on the plasma membrane bordering the lumen of the seminal vesicles. At the electron microscope level, SPMI appeared to be present only on the surface of the secretory cells. The data indicate that SPMI originates from a single tissue, the seminal vesicle, and suggest that only the mature form present on the luminal surface of the gland can react with the antibody generated from rabbits immunized with the secreted form of SPMI. © 1993 Wiley-Liss, Inc.     

Biochemical and binding characteristics of boar epididymal fluid proteins

During the passage through the epididymis, testicular spermatozoa are directly exposed to epididymal fluid and undergo maturation. Proteins and glycoproteins of epididymal fluid may be adsorbed on the sperm surface and participate in the sperm maturation process, potentially in sperm capacitation, gamete recognition, binding and fusion. In present study, we separated proteins from boar epididymal fluid and tested their binding abilities. Boar epididymal fluid proteins were separated by size exclusion chromatography and by high-performance liquid chromatography with reverse phase (RP HPLC). The protein fractions were characterized by SDS-electrophoresis and the electrophoretic separated proteins after transfer to nitrocellulose membranes were tested for the interaction with biotin-labeled ligands: glycoproteins of zona pellucida (ZP), hyaluronic acid and heparin. Simultaneously, changes in the interaction of epididymal spermatozoa with biotin-labeled ligands after pre-incubation with epididymal fluid fractions were studied on microtiter plates by the ELBA (enzyme-linked binding assay) test. The affinity of some low-molecular-mass epididymal proteins (12-17 kDa and 23 kDa) to heparin and hyaluronic acid suggests their binding ability to oviductal proteoglycans of the porcine oviduct and a possible role during sperm capacitation. Epididymal proteins of 12-18 kDa interacted with ZP glycoproteins. One of them was identified as Crisp3-like protein. The method using microtiter plates showed the ability of epididymal fluid fractions to change the interaction of the epididymal sperm surface with biotin-labeled ligands (ZP glycoproteins, hyaluronic acid and heparin). These findings indicate that some epididymal fluid proteins are bound to the sperm surface during epididymal maturation and might play a role in the sperm capacitation or the sperm-zona pellucida binding.     

Adsorption of seminal plasma proteins by boar spermatozoa

Seminal plasma protein adsorption by boar spermatozoa was examined using ejaculated sperm from vesiculectomized boars and seminal plasma from vasectomized boars. Sperm adsorbed 14 pg protein/sperm in 10 min. When seminal plasma proteins were radiolabeled, most of the adsorbed radiolabel was present in low M(r) proteins, particularly a 12700 M(r) protein. A 349300 M(r) seminal plasma protein was also readily adsorbed. Three radiolabeled seminal plasma proteins (307600, 165400 and 7400 M(r)) were not detected on the sperm; either they are not adsorbed by the sperm or the sperm were previously exposed to these proteins in other accessory sex gland fluids and had already adsorbed them. A 29100 M(r) sperm protein was also radiolabeled (4.9% of the adsorbed radiolabel), although there was no corresponding seminal plasma protein. Large quantities of seminal plasma protein (particularly low M(r) proteins) are adsorbed by sperm not previously exposed to seminal vesicle secretion. The functions of these proteins are yet to be determined.     

Detection of prostatic tissue and seminal plasma peptides reacting with human seminal fluid acid phosphatase antibodies

IgG1 monoclonal antibody to purified seminal fluid phosphatase was raised by fusion of spleen cells from immunized mice with cell line Sp2/O-Ag 14 using simple method of screening for antiphosphatase antibody secreting clones. All molecular forms of catalytically active seminal fluid phosphatase and prostatic tissue phosphatase, resolved by chromatofocusing in pH gradient, react with this monoclonal antibody and with rabbit antiserum to purified seminal fluid phosphatase. Peptides of Mr 25,000 to 76,000 and of Mr 13,000 to 76,000 were adsorbed from the prostatic tissue extract and from seminal plasma on the monoclonal antibody-Sepharose column.     

Identification of anti-agglutinin for spermatozoa in epididymal boar plasma

The present report identifies epididymal boar anti-agglutinin and examines its effect on sperm motility. Boar spermatozoa from the cauda epididymidis were washed and incubated in modified Krebs–Ringer bicarbonate at 37°C (5% CO₂ in air). In the samples washed three or five times and then incubated for 3–5 h, higher rates (72–79%) of spermatozoa were associated with one another at the acrosomal region, mainly in groups of 2–5 cells (head-to-head agglutination), and many cells exhibited intensively flagellant and/or circular types of movement but rarely progressive motility. The addition of epididymal plasma or 25 kDa protein purified from it markedly inhibited the occurrence of head-to-head agglutination in washed spermatozoa, whereas heat treatment and subsequent removal of insoluble materials reduced the anti-agglutination activity of epididymal plasma. The percentages of progressively motile cells in the samples incubated with epididymal plasma or 25 kDa epididymal protein rose coincident with the reduction of sperm agglutination. These findings demonstrate that the 25 kDa epididymal protein is an anti-agglutinin for the cauda spermatozoa and that it effectively functions to maintain progressive motility of the cells in vitro. © 1994 Wiley-Liss, Inc.     

Isolation and characterization of the major form of beta-glucuronidase from human seminal plasma

Human seminal plasma contain two forms of beta-glucuronidase (beta-D-glucuronidase glucuronosohydrolase, EC 3.2.1.31) which are present in the ratio of 4:1. The major form of beta-glucuronidase with a slow moving band in electrophoresis was purified to homogeneity as revealed by polyacrylamide gel electrophoresis, double immunodiffusion and immunoelectrophoresis. The major form of beta-glucuronidase shows dual optimum pH at 4.3 and 4.7 with a dip in the activity at pH 4.5. The Km of this form of beta-glucuronidase is dependent on pH and was found to be 0.95, 3.08 and 0.67 mM at pH 4.4, 4.5 and 4.7, respectively. The major form of beta-glucuronidase from seminal plasma is stable at 55 degrees C for 30 min but it denatures at 65 degrees C. Heat denaturation is faster at acidic pH (4.7) than at alkaline pH (7.8). However, the activity of enzyme increased linearly with increase in temperature up to 70 degrees C during incubation with substrate. Cu, Ag, Hg and Ni salts inhibited enzyme activity significantly at 0.1 and 1.0 mM concentration, but the inhibition of HgCl2 was protected by cysteine. 1,4-D-Saccharic acid lactone and ascorbic acid inhibited seminal beta-glucuronidase competitively, yielding Ki values of 1.7 . 10(-3) mM and 10.3 mM, respectively. Though fructose and mannose also showed significant inhibition of beta-glucuronidase at 10-100 mM, glucose did not show any effect. The molecular weight of the major form of beta-glucuronidase was found to be 279 000, and it appears to be composed of four subunits each having a molecular weight of 74 000.     

Separation, characterization and identification of boar seminal plasma proteins

Methods used for the isolation, separation and characterization of boar seminal plasma proteins are discussed, as well as techniques applied to study their binding properties. Attention is paid to interactions of these proteins with different types of saccharides and glycoconjugates, with membrane phospholipids, and to interactions between proteins. Boar seminal plasma contains different types of proteins: spermadhesins of the AQN and AWN families; DQH and PSP proteins belong to the most abundant. Some of these proteins are bound to the sperm surface during ejaculation and thus protein-coating layers of sperm are formed. Sperms coated with proteins participate in different types of interactions occurring in the course of the reproduction process, e.g. formation of the oviductal sperm reservoir, sperm capacitation, oocyte recognition and sperm binding to the oocyte.     

Effects of exposure of epididymal boar spermatozoa to seminal plasma on the binding of zona pellucida proteins during in vitro capacitation

The purpose of the investigation was to determine whether seminal plasma plays a role in the increase during in vitro capacitation of the number of boar spermatozoa with enhanced binding of zona pellucida proteins. Ejaculated spermatozoa and spermatozoa collected from the caudae epididymides of boars were incubated at 39 degrees C in a Tyrode's IVF medium. During incubation, the zona binding ability of individual spermatozoa was assessed with fluorescein-conjugated solubilized zona pellucida proteins (FITC-sZP), using a flow cytometer. Propidium iodide (PI) was included to simultaneously monitor cell viability. During incubation of ejaculated spermatozoa, a percentage of the spermatozoa expressed enhanced binding of FITC-sZP. The percentage of viable spermatozoa with enhanced binding reached a maximum of 37% (S.D.=8, averaged over five boars) after 2-3 h. In epididymal sperm, a similar maximum was observed after incubation in vitro, but a longer time of incubation was needed (6 h). Also, the rate of cell death of epididymal sperm was much lower than that of ejaculated sperm. When epididymal spermatozoa was exposed to seminal plasma in vitro, the time needed to reach a maximal percentage of viable spermatozoa with enhanced FITC-sZP binding was similar to that in ejaculated semen. However, the rate of cell death was still much lower than in ejaculated sperm. We concluded that the binding sites on the sperm surface that are involved in the increased binding of zona proteins during incubation under IVF conditions were not derived from the seminal plasma. The cellular processes leading to the increased binding capacity were accelerated by exposure of the sperm to seminal plasma.     

Proteinase inhibitors in aggregated forms of boar seminal plasma proteins

Boar seminal plasma proteins were separated by gel chromatography on Sephadex G-75 into five fractions (I–V). Serine proteinase inhibitors were found mainly in the protein fraction with relative molecular weight 5–25 kDa. Small amounts of these inhibitors were also found in the high molecular weight protein fraction (M_r>100 kDa). The protein fraction containing most of the proteinase inhibitory activity was further separated by RP HPLC. Isolated proteins were characterized by SDS electrophoresis and immunoblotting, N-terminal amino acid sequencing and by determination of the proteinase inhibitory activity. In the fraction containing proteinase inhibitors, also β-microseminoprotein (β-MSP), AQN 1 and lactoferrin were identified. The possible existence of complexes of protein components in the fraction with relative molecular weight 5–25 kDa was studied in detail using gel chromatographic separation on Sephadex G-50. A part of proteinase inhibitors with M_r 8 kDa was eluted together with AQN 1 spermadhesin. An interaction of isolated spermadhesin AQN 1 and proteinase inhibitor was shown.