Epididymal protein ASF is a D-galactose-specific lectin with apoptotic effect on human breast cancer cell line MCF7.

Isolated caprine epididymal plasma glycoprotein "anti sticking factor" (ASF) interacts with caudal sperm surface in a D-galactose dependent manner. ASF acts as a Ca(2+) dependent soluble lectin principally activated in acidic pH. As a D-galactose specific lectin, it has a specific affinity for fibronectin as well as fibronectin receptor, i.e. integrins α5ß3 and α5ß1. By virtue of this particular property, it hampers the in vitro adhesion of the adherent breast cancer cell MCF7 with fibronectin. The effective anti-adhesive concentration of ASF promotes p53 dependent apoptosis in MCF7, which was established by Hoechst 33342 staining, DNA fragmentation assay, FITC tagged Annexin-V flowcytometry and western blot analysis. We suggest that ASF inhibits fibronectin-integrin interactions by binding with them and induces adhesion dependent apoptosis on adherent MCF7.

Role of forward-motility-stimulating factor as an extracellular activator of soluble adenylyl cyclase.

Forward-motility-stimulating factor (FMSF) is a protein, originally purified from bubaline serum, that promotes progressive motility of mature spermatozoa. FMSF binds to sperm surface receptors and activates transmembrane adenylyl cyclase (tmAC), causing a rise in intracellular cyclic AMP level ([cAMP]i) and subsequent activation of a protein kinase A/tyrosine kinase-mediated pathway that enhances forward motility. This article further evaluates how FMSF works in the caprine system, particularly identifying the stimulatory effect of this glycoprotein on soluble adenylyl cyclase (sAC). Elevated [cAMP]i, initially resulting from FMSF-dependent activation of tmAC, was associated with the release of Ca(2+) from an intracellular calcium store in the sperm head, likely via an inositol triphosphate-sensitive calcium ion channel. This peak Ca(2+) concentration of ∼125-175 nM was capable of stimulating sAC in vitro in a calmodulin-independent manner, thereby triggering more cAMP production. Our model proposes that a positive-feedback loop mediated by cAMP and Ca(2+) is established in FMSF-stimulated sperm, with cAMP playing the role of a chemical messenger at multiple steps, resulting in the observed progressive motility. Thus, FSMF stimulates a novel signaling cascade that synergistically activate both tmAC and sAC to achieve forward sperm motility.

Role of epididymal anti sticking factor in sperm capacitation.

Sperm capacitation depends on several features like hormones, ions, intracellular signaling, sperm associated molecules, etc. Anti sticking factor (ASF) is a novel sperm surface associated glycoprotein isolated from epididymal plasma. Function of ASF in vivo has not been revealed yet. The current study is an attempt to highlight the surface localization of ASF and corresponding biochemical changes that occurs in sperm cells during in vitro capacitation. In the presence of 1 nM ASF, percentage of bicarbonate and BSA induced capacitated cells in modified Tyrode medium (7.2) decreased from 72.45% to 16.25% as per Merocyanine 540 (M540)/DAPI stained flowcytometric analysis. Indirect immunocytostaining and western blot analysis shows that the amount of sperm surface bound residual ASF decline during in vitro capacitation. ASF at its effective concentrations notably reduced the bicarbonate and BSA induced cholesterol efflux. These data help in concluding ASF as a majorly responsible molecule that maintains caprine sperm membrane integrity by inhibiting cholesterol efflux. As the capacitation process, progress at in vitro condition, ASF is found to be released from the sperm surface and cell moved from non-capacitated to the capacitated state.

Extracellular regulation of sperm transmembrane adenylyl cyclase by a forward motility stimulating protein.

Forward motility stimulating factor (FMSF), a glycoprotein isolated from buffalo serum, binds to the surface of the mature sperm cells to promote their progressive motility. This article reports the mode of signal transduction of this extracellular factor in goat sperm. The mechanism was investigated by assaying intracellular second messenger level and forward motility in presence of different pharmacological modulators. Mg++-dependent Forskolin responsive form of transmembrane adenylyl cyclase (tmAC) of goat spermatozoa was probed for its involvement in FMSF action. Dideoxyadenosine, a selective inhibitor of tmACs, was used to identify the role of this enzyme in the scheme of FMSF-signaling. Involvement of the α-subunit of G-protein in this regard has been inspected using GTPγS. Participation of protein kinase A (PKA) and tyrosine kinase was checked using IP20 and genistein, respectively. FMSF promotes tmAC activity in a dose-dependent manner through receptor/G-protein activation to enhance intracellular cAMP and forward motility. Motility boosting effects of this glycoprotein are almost lost in presence of dideoxyadenosine. But, FMSF displayed substantial motility promoting activity when movement of spermatozoa was inhibited with KH7, the specific inhibitor of soluble adenylyl cyclase indicating tmAC to be the primary target of FMSF action. Involvement of cAMP in mediating FMSF action was confirmed by the application of dibutyryl cAMP. Observed motility regulatory effects with IP20 and genistein indicate contribution of PKA and tyrosine kinase in FMSF activity; enhanced phosphorylation of a tyrosine containing ≈50 kDa protein was detected in this regard. FMSF initiates a novel signaling cascade to stimulate tmAC activity that augments intracellular cAMP, which through downstream crosstalk of phosphokinases leads to enhanced forward motility in mature spermatozoa. Thus, this article for the first time describes conventional tmAC-dependent profound activation of progressive motility by a physiologic extracellular factor in a mammalian species.

Receptor expression is essential for forward motility in the course of sperm cell maturation.

Forward motility stimulating factor (FMSF) is a glycoprotein previously purified from buffalo blood serum that promotes progressive motility of caprine caudal spermatozoa. We have prepared a functionally active covalent conjugate of this factor with horseradish-peroxidase (HRP) to obtain an idea of its binding efficacy on maturing spermatozoa. Receptor-assay was performed using FMSF-HRP conjugate in saturating conditions to bind with spermatozoa isolated from different epididymal segments. Activity and binding profile of the motility stimulating factor coincided, suggesting both these parameters come into play only partially when spermatozoa reach the maturation state in the distal-corpus region and largely in caudal part (around 24% and 80% binding and 10% and 79% forward motility, respectively). Spermatozoa from caput up to mid-corpus regions neither displayed any substantial binding with FMSF nor exhibited significant induction in forward motility. Study of cell surface-bound FMSF on maturing spermatozoa in physiological milieu demonstrated their presence on anterior spermhead and suggests a nearly similar pattern of occurrence. Flow-cytometric analysis also implies analogous presence of this receptor. The factor was also immunodetected in uterine fluids of cattle species. This study displays a maturation-dependent expression of FMSF-receptor and consequential stimulation of forward motility that may be crucial for its journey to meet the ovum.

A novel membrane protein-specific serine/threonine kinase: tissue distribution and role in sperm maturation.

Our recent studies have described for the first time the purification of an ectoprotein kinase to apparent homogeneity using caprine sperm as the model. Purified ectokinase (CIK) is a novel membrane protein-specific kinase that phosphorylates serine and threonine residues of ectophosphoproteins. This study, using ELISA based on ecto-CIK antibody demonstrates that ecto-CIK level is remarkably higher in the sperm membrane than in the cytosol. The epididymal sperm maturational event as well as sperm vertical velocity is associated with a significant increase in the ecto-CIK level. Ecto-CIK, the membrane protein-specific kinase, is also present in all the tissues tested and is predominantly localized in the cell membrane. Ubiquitous localization of the novel kinase on the mammalian cell membrane suggests that the kinase may play pivotal role in gamete as well as somatic cell regulation by modulating membrane biology through serine/threonine phosphorylation of specific membrane proteins located in the ectodomains.

Purification and characterization of a motility initiating protein from caprine epididymal plasma.

Numerous reports have appeared on the occurrence of undefined protein factors in male reproductive fluids that promote motility of mature sperm and initiate forward motility in the immature (immotile) caput-epididymal sperm. This study reports for the first time purification to apparent homogeneity of a motility initiating protein (MIP) from epididymal plasma and its characterization using the caprine sperm model. It is a 125 kDa (approximately) dimeric protein made up of two subunits: 70 and 54 kDa. MIP is an acidic protein with an isoelectric point of 4.75. The motility protein at 30 microg/ml (240 nM) level showed nearly maximal motility-promoting activity. MIP is heat stable and it is maximally active at pH 8. It is a glycoprotein that binds with high affinity to concanavalin A and it contains mannose, galactose, and N-acetyl glucosamine approximately in the ratios of 6:1:6. It is sensitive to the actions of alpha-mannosidase and beta-N-acetylglucoseaminidase thereby demonstrating that the sugar side chain of the glycoprotein is essential for its biological activity. Epididymal plasma is its richest source. It is also capable of enhancing forward motility of mature cauda-sperm. Its antibody markedly inhibits sperm motility. MIP antibody is highly immunospecific and it recognizes both the subunits. MIP causes significant increase of the intrasperm level of cyclic AMP. MIP: the physiological motility-activating protein has potential for use as a contraceptive vaccine and for solving some of the problems of human infertility and animal breeding.

Eicosapentaenoic and docosahexaenoic acids enriched polyunsaturated fatty acids from the coastal marine fish of Bay of Bengal and their therapeutic value.

Eicosapentaenoic acid (EPA)/docosahexaenoic acid (DHA) enriched polyunsaturated fatty acids (PUFA) significantly present in marine fish oil emerge as preventive agents for combating many health problems specially in chronic or metabolic disorders. The fish in the coastal area of Bay of Bengal has remained unexplored with respect to EPA/DHA enriched PUFA content in its oils, although it may be a potential source in harnessing the health benefit. In this study, seven varieties of the coastal fish were analysed for the content of EPA/DHA. The one locally known as lotte, (Harpadon nehereus) though has low content of total lipids, was found to have high EPA/DHA in its oil. The phospholipids rich fraction was extracted from the total fish oil. The EPA/DHA enriched PUFA was isolated to investigate the potential use for health benefits. EPA/DHA is found to act as protective agent against mercury poisoning studied in cell culture as well as in animal mode. It is found to be highly preventive in diabetes. The lotte is available in the coastal area of Bay of Bengal adjoining West Bengal, India in large scale and it is the first report showing EPA/DHA enriched PUFA in these fish oil that can be availed to harness in important health benefits.

Sperm ecto-protein kinase and its protein substrate: novel regulators of membrane fusion during acrosome reaction.

Previously we have purified and characterized a unique plasma membrane-specific cyclic AMP-independent ecto-protein kinase (ecto-CIK) as well as its ecto-phosphoprotein substrate (MPS) using caprine sperm model. This study reports for the first time the role of the sperm external surface protein phosphorylation system on sperm acrosome reaction, which is essential for fertilization. Calcium ionophore A23187 has been used to trigger the sperm acrosome reaction in vitro. Treatment of sperm cells with CIK antibody (dil: 1:500) causes a significant decrease (approx. 50%) in percentage of acrosome reacted sperm. Onset of the acrosome reaction causes a remarkable increase in the rate of acrosin release from the cells in the medium. However, CIK antibody inhibits significantly (approx. 50%) the acrosin release. The level of membrane-bound MPS as estimated by ELISA and the degree of its phosphorylation catalyzed by the endogenous ecto-CIK, increase significantly with the progress of the acrosome reaction. Both the parameters increase by approximately 100% during the 20 min of the reaction. MPS antibody (1:100 dilution) markedly decreases (approx. 75%) percentage of acrosome-reacted sperm. MPS antibody as well shows high efficacy to inhibit acrosin release from spermatozoa. The results demonstrate that the cell-surface protein kinase and its protein substrate are essential for membrane fusion component of acrosome reaction. The data are consistent with the view that MPS regulates acrosomal membrane fusion with the overlying plasma membrane by the mechanism of its phosphorylation and dephosphorylation.

Characterization of a low-molecular-mass stimulator protein of Mg2+-independent Ca2+-ATPase: effect on phosphorylation/dephosphorylation, calcium transport and sperm-cell motility.

A 14 kDa cytosolic protein purified from bovine brain homogenate has been recently reported as a stimulator of goat spermatozoa Mg2+-independent Ca2+-ATPase. In the present study, we demonstrate the formation of the [gamma-32P]ATP-labelled phosphoenzyme as the 110 kDa phosphoprotein and its rapid decomposition in presence of the stimulator protein. Together with the cross-reactivity of this 110 kDa protein with an anti-SERCA (sarcoplasmic/endoplasmic reticulum Ca2+-ATPase) 2a antibody, the ATPase can now be conclusively said to belong to the SERCA family, which is activated by the stimulator. The ability of the stimulator to enhance the Ca2+ transport has been elucidated from 45Ca2+ uptake studies and was found to be sensitive to Ca2+ channel blockers. CD revealed an alpha-helical structure of the stimulator. The amino acid analysis suggests that it is composed primarily of hydrophobic and some acidic amino acid residues. The pI of 5.1 has been re-confirmed from two-dimensional electrophoresis. Immuno-cross-reactivity studies indicate that the stimulator or similar proteins are present in cytosolic fractions of liver, kidney or testes in different species, but brain is the richest source. Proteomic analyses of its trypsinized fragments suggest its similarity with bovine THRP (thyroid hormone-responsive protein). The physiological significance of the stimulator has been suggested from its ability to activate sperm-cell motility.

Structural and functional characterization and physiological significance of a stimulator protein of Mg2+-independent Ca2-ATPase isolated from goat spermatozoa.

Recently a low-molecular-mass protein purified from goat testes cytosol has been reported from our laboratory which is found to stimulate Mg2+ -independent Ca2+-ATPase without any significant effect on Mg2+-dependent Ca2+-ATPase. In the present study, detailed structural and functional characterization, as well as the physiological significance of the protein has been described. The stimulatory effect is found to be inhibited by known inhibitors of P-type ATPases, vanadate and lanthanum chloride. Monitoring of the phosphoenzyme intermediate by autoradiography has shown that the stimulation of the ATPase is due to the enhancement in the rate of dephosphorylation of the overall reaction step. Along with the stimulation of the enzyme activity, the protein is found to enhance the calcium uptake. Amino acid analysis data show that the stimulator contains about 26% non-polar amino acid facilitating easy penetration to the hydrophobic core of the membrane bound ATPase. Circular dichroism analysis of the protein suggested the presence of all secondary structural elements. The Western-blotting experiment shows its expression level is the highest in goat testes. Peptide fragments obtained in MALDI-MS analysis when subjected to MSDB database search by MASCOT search engine reveals that the proteins of close similarity with the protein under study are actin related protein 2/3 complex subunit, peptidyl-prolyl cis-trans isomerase and gastrin releasing peptide precursor. Besides, the protein under study is also shown to decrease the forward motility of goat sperm without having any significant effect on the total motility indicating its possible role in fertility regulation.

Cell surface phosphorylation by a novel ecto-protein kinase: a key regulator of cellular functions in spermatozoa.

Since 1976 many studies have been reported on the occurrence and functional significance of ecto-protein kinases in a variety of cell types although their precise biochemical identity is largely unknown. This study reports for the first time purification to apparent homogeneity of an ecto-protein kinase (ecto-CIK) and some of its characteristics using caprine sperm as the cell model. The ecto-CIK is a unique membrane-specific serine/threonine protein kinase. It is a strongly basic 115 kDa protein made up of two subunits: 63 and 55 kDa. The ecto-kinase undergoes a remarkable lateral movement on the outer cell surface culminating in capping on the sperm acrosomal tip. MPS, its major protein substrate is also located on the acrosomal tip. Both ecto CIK and MPS serve as potential regulators of flagellar motility. This novel enzyme appears to be major kinase responsible for the reported regulation of mammalian cellular functions by modulating phosphorylation of the membrane-bound proteins.

Sperm motility inhibiting activity of a phytosterol from Alstonia macrophylla Wall ex A. DC. leaf extract: a tribal medicine.

The role of methanolic extract and n-butanol fraction of A. macrophylla leaves was investigated on the forward motility of goat spermatozoa. The methanol extract (600 micro/g/ml) and one n-butanol fraction (Fraction A; 100 microg/ml) showed marked inhibition of sperm forward motility, tested by microscopic and spectrophotometric methods. Approximately, 50-60% of the spermatozoa lost their motility when treated with 600 microg/ml of methanol extract or 100 microg/ml of Fraction A. The Fraction A at 400 microg/ml concentration showed complete inhibition of sperm forward motility at 0 min. The inhibitory activity increased with the increasing concentrations of the fraction. The motility inhibitory activity of the Fraction A was stable to heat treatment at 100 degrees C for 2 min. The compound showed high inhibitory effect in the pH range 6.7-7.6. Fraction A also showed high efficacy for inhibiting human sperm motility, assessed by the microscopic method. The phytochemical analysis of methanolic extract of A. macrophylla leaves revealed the presence of sterols, triterpene, flavonoid, alkaloid, tannin and reducing sugar, while the Fraction A contains beta-sitosterol, a common phytosterol. The results demonstrate that Fraction A (beta-sitosterol) is a potent inhibitor of sperm motility and thus it has the potential to serve as a vaginal contraceptive.

A potent sperm motility-inhibiting activity of bioflavonoids from an ethnomedicine of Onge, Alstonia macrophylla Wall ex A. DC, leaf extract.

The methanol extract (ME) and the n-butanol fractions of methanolic extract of Alstonia macrophylla Wall ex A. DC leaves were investigated on the forward motility (FM) of mammalian (goat and human) spermatozoa. The ME at 600 microg mL-1 as well as fraction B at 100 microg mL-1 concentrations showed marked inhibition of sperm FM in both goat and human species when tested by microscopic and spectrophotometric methods. Approximately 60-80% of the goat spermatozoa lost their FM when treated with 600 microg mL-1 of ME and 100 microg mL-1 of fraction B. At 100 microg mL-1 concentration, fraction B showed 90% loss of FM in human spermatozoa, while fraction B at 400 microg mL-1 concentration showed complete inhibition of sperm FM at 0 min. The inhibitory activity of fraction B increases with increasing concentration in a dose-dependent manner. Phytochemical study of the extract revealed that the leaf contains tannins, flavonoids, sterols, triterpenes, alkaloids and reducing sugars. Further fractionation and purification of the bioactive n-butanol part of ME showed the presence of ursolic acid (fraction B), beta-sitosterol (fraction A), beta-sitosterol glucoside and a mixture of minor compounds (fraction C, detected on thin-layer chromatography). The results reveal that fraction B (ursolic acid), a pentacyclic triterpene, has the potential of sperm motility inhibition and can serve as a topical vaginal contraceptive.