Functional significance of mouse seminal vesicle sulfhydryl oxidase on sperm capacitation in vitro.

During ejaculation, cauda epididymal spermatozoa are suspended in a protein-rich solution of seminal plasma, which is composed of proteins mostly secreted from the seminal vesicle. These seminal proteins interact with the sperm cells and bring about changes in their physiology, so that they can become capacitated in order for the fertilization to take place. Sulfhydryl oxidase (SOX) is a member of the QSOX family and its expression is found to be high in the seminal vesicle secretion (SVS) of mouse. Previously, it has been reported to cross-link thiol-containing amino acids among major SVS proteins. However, its role in male reproduction is unclear. In this study, we determined the role of SOX on epididymal sperm maturation and also disclosed the binding effect of SOX on the sperm fertilizing ability in vitro. In order to achieve the above two objectives, we constructed a Sox clone (1.7 kb) using a pET-30a vector. His-tagged recombinant Sox was overexpressed in Shuffle Escherichia coli cells and purified using His-Trap column affinity chromatography along with hydrophobic interaction chromatography. The purified SOX was confirmed by western blot analysis and by its activity with DTT as a substrate. Results obtained from immunocytochemical staining clearly indicated that SOX possesses a binding site on the sperm acrosome. The influence of SOX on oxidation of sperm sulfhydryl to disulfides during epididymal sperm maturation was evaluated by a thiol-labeling agent, mBBr. The SOX protein binds onto the sperm cells and increases their progressive motility. The effect of SOX binding on reducing the [Ca2+]i concentration in the sperm head was determined using a calcium probe, Fluo-3 AM. The inhibitory influence of SOX on the sperm acrosome reaction was shown by using calcium ionophore A32187 to induce the acrosome reaction. The acrosome-reacted sperm were examined by staining with FITC-conjugated Arachis hypogaea (peanut) lectin. Furthermore, immunocytochemical analysis revealed that SOX remains bound to the sperm cells in the uterus but disappears in the oviduct during their transit in the female reproductive tract. The results from the above experiment revealed that SOX binding onto the sperm acrosome prevents sperm capacitation by affecting the [Ca2+]i concentration in the sperm head and the ionophore-induced acrosome reaction. Thus, the binding of SOX onto the sperm acrosome may possibly serve as a decapacitation factor in the uterus to prevent premature capacitation and acrosome reaction, thus preserving their fertilizing ability.

Sperm antioxidant system in ocellate river stingray Potamotrygon motoro at transition from seminal vesicle to cloaca.

The importance of reactive oxygen species and the antioxidant system in sperm biology has been recognized for different bony fishes but nothing is known in this regard for chondrichthyans. For the first time for cartilaginous fishes, the enzymatic antioxidant system was shown herein to be present in both fractions of sperm (spermatozoa and seminal fluid) collected from two different places (seminal vesicle and cloaca). In internally fertilizing freshwater ocellate river stingray, Potamotrygon motoro, the activity of superoxide dismutase and glutathione peroxidase was not changed upon sperm transition from the seminal vesicle to the cloaca. The activity of catalase was significantly increased for both sperm fractions at transition from the seminal vesicle to the cloaca (1.6 times for spermatozoa and 1.9 times for seminal fluid). The role of the sperm antioxidant system for different aspects of internal fertilization is discussed. The presented results are the initiatory step in uncovering the biochemical events of internal reproduction in Chondrichthyes.

A novel PSMA/GCPII-deficient mouse model shows enlarged seminal vesicles upon aging.

BACKGROUND: Prostate-specific membrane antigen (PSMA), also known as glutamate carboxypeptidase II (GCPII), is an important diagnostic and therapeutic target in prostate cancer. PSMA/GCPII is also expressed in many healthy tissues, but its function has only been established in the brain and small intestine. Several research groups have attempted to produce PSMA/GCPII-deficient mice to study the physiological role of PSMA/GCPII in detail. The outcomes of these studies differ dramatically, ranging from embryonic lethality to production of viable PSMA/GCPII-deficient mice without any obvious phenotype. METHODS: We produced PSMA/GCPII-deficient mice (hereafter also referred as Folh1-/- mice) by TALEN-mediated mutagenesis on a C57BL/6NCrl background. Using Western blot and an enzyme activity assay, we confirmed the absence of PSMA/GCPII in our Folh1-/- mice. We performed anatomical and histopathological examination of selected tissues with a focus on urogenital system. We also examined the PSMA/GCPII expression profile within the mouse urogenital system using an enzyme activity assay and confirmed the presence of PSMA/GCPII in selected tissues by immunohistochemistry. RESULTS: Our Folh1-/- mice are viable, breed normally, and do not show any obvious phenotype. Nevertheless, aged Folh1-/- mice of 69-72 weeks exhibit seminal vesicle dilation, which is caused by accumulation of luminal fluid. This phenotype was also observed in Folh1+/- mice; the overall difference between our three cohorts (Folh1-/- , Folh1+/- , and Folh1+/+ ) was highly significant (P < 0.002). Of all studied tissues of the mouse urogenital system, only the epididymis appeared to have a physiologically relevant level of PSMA/GCPII expression. Additional experiments demonstrated that PSMA/GCPII is also present in the human epididymis. CONCLUSIONS: In this study, we provide the first evidence characterizing the reproductive tissue phenotype of PSMA/GCPII-deficient mice. These findings will help lay the groundwork for future studies to reveal PSMA/GCPII function in human reproduction.

Evidence for mouse sulfhydryl oxidase-assisted cross-linking of major seminal vesicle proteins.

Copulatory plug formation in animals is a general phenomenon by which competition is reduced among rival males. In mouse, the copulatory plug formation results from the coagulation of highly viscous seminal vesicle secretion (SVS) that is rich in proteins, such as dimers of SVS I, SVS I + II + III, and SVS II. These high-molecular-weight complexes (HMWCs) are also reported to be the bulk of proteins in the copulatory plug of the female mouse following copulation. In addition, mouse SVS contributes to the existence of sulfhydryl oxidase (Sox), which mediates the disulfide bond formation between cysteine residues. In this study, flavin adenine dinucleotide (FAD)-dependent Sox was purified from mouse SVS using ion exchange and high-performance liquid chromatography. The purified enzyme was identified to be Sox, based on western blot analysis with Sox antiserum and its capability of oxidizing dithiothreitol as substrate. The pH optima and thermal stability of the enzyme were determined. Among the metal ions tested, zinc showed an inhibitory effect on Sox activity. A prosthetic group of the enzyme was identified as FAD. The Km and Vmax of the enzyme was also determined. In addition to purification and biochemical characterization of seminal vesicle Sox, the major breakthrough of this study was proving its cross-linking activity among SVS I-III monomers to form HMWCs in SVS.

Study on PREP localization in mouse seminal vesicles and its possible involvement during regulated exocytosis.

SummaryProlyl endopeptidase (PREP) is a post-proline cleaving enzyme. It is involved in the regulation of multiple inositol polyphosphate phosphatase activity implicated in the pathway of inositol 1,4,5-trisphosphate, resulting in the modulation of cytosolic Ca2+ levels. Besides its peptidase activity, PREP was identified as a binding partner of tubulin, suggesting that it may participate in microtubule-associate processes. In this paper, we evaluated the expression of PREP mRNA and protein by polymerase chain reaction and western blot analyses and its co-localization with tubulin by immunofluorescence in adult mouse seminal vesicles. We showed that both proteins are cytoplasmic: tubulin is localized at the apical half part of the cell, while PREP has a more diffuse localization, showing a prominent distribution at the apical cytoplasm. These findings support our hypothesis of a specific role for PREP in cytoskeletal rearrangement that occurs during the exocytosis of secretory vesicles, and in particular its association with tubulin filaments. Moreover, it may regulate Ca2+ levels, and promote the final step of vesicular exocytosis, namely the fusion of the vesicles with the plasma membrane. These results strongly suggest that there is a pivotal role for PREP in vesicle exocytosis, as well as in the physiology of mouse seminal vesicles.

Active paraoxonase 1 is synthesised throughout the internal boar genital organs.

The paraoxonase type 1 (PON1) is an enzyme with antioxidant properties recently identified in the seminal plasma (SP) of several species, including the porcine. The aims of the present study were to (1) describe the immunohistochemical localisation of PON1 in the genital organs of fertile boars and (2) evaluate the relationship among PON1 activity and high-density lipoprotein cholesterol (HDL-C) concentration in fluids of the boar genital organs. Immunohistochemical analysis demonstrated that PON1 was present in testis (specifically in Leydig cells, blood vessels, spermatogonia and elongated spermatids), epididymis (specifically in the cytoplasm of the principal epithelial cells, luminal secretion and in the surrounding smooth muscle) and the lining epithelia of the accessory sexual glands (cytoplasmic location in the prostate and membranous in the seminal vesicle and bulbourethral glands). The Western blotting analysis confirmed the presence of PON1 in all boar genital organs, showing in all of them a band of 51 kDa and an extra band of 45 kDa only in seminal vesicles. PON1 showed higher activity levels in epididymal fluid than those in SP of the entire ejaculate or of specific ejaculate portions. A highly positive relationship between PON1 activity and HDL-C concentration was found in all genital fluids. In sum, all boar genital organs contributing to sperm-accompanying fluid/s were able to express PON1, whose activity in these genital fluids is highly dependent on the variable HDL-C concentration present.

Identification, characterization and purification of porcine Quiescin Q6-Sulfydryl Oxidase 2 protein.

BACKGROUND: Post-spermiogenesis membrane surface modifications rely on molecules present in the reproductive tracts. Two isoforms (isoform 1 and 2) from Quiescin Q6-Sulfydryl Oxidase protein family have been identified in the male reproductive tract of rodent species. However, unlike isoform 1, scarce information is available for isoform 2, likely due to its lower expression level and lack of proper purification methods to obtain sufficient protein quantity for further assays. RESULTS: This study demonstrated the presence of short and long forms of Quiescin Q6-Sulfydryl Oxidase 2 in boar, likely representing the secretory (short form) and transmembrane (long form) forms of Quiescin Q6-Sulfydryl Oxidase 2. Immunohistochemistry studies revealed the presence of Quiescin Q6-Sulfydryl Oxidase 2 in a broad range of porcine tissues; the pronounced vesicle-contained Quiescin Q6-Sulfydryl Oxidase 2 at the apical region of epididymis and seminal vesicles epithelium suggested its involvement in sperm physiology and its participation in semen formation. The majority of porcine Quiescin Q6-Sulfydryl Oxidase 2 could be purified via either antibody affinity column or be salted out using 10%-40% ammonium sulfate. Higher amount of low molecular weight Quiescin Q6-Sulfydryl Oxidase 2 observed in the seminal vesicle likely represents the secretory form of Quiescin Q6-Sulfydryl Oxidase 2 and reflects an exuberant secretory activity in this organ. CONCLUSIONS: We demonstrated for the first time, the presence of Quiescin Q6-Sulfydryl Oxidase 2 in porcine species; moreover, two forms of Quiescin Q6-Sulfydryl Oxidase 2 were identified and exhibited distinct molecular weights and properties during protein purification processes. This study also provided feasible Quiescin Q6-Sulfydryl Oxidase 2 purification methods from slaughterhouse materials that could potentially allow obtaining sufficient amount of Quiescin Q6-Sulfydryl Oxidase 2 for future functional investigations.

Synthesis and biological evaluation of 3-tetrazolo steroidal analogs: Novel class of 5α-reductase inhibitors.

In the present study, a series of steroidal tetrazole derivatives of androstane and pregnane have been prepared in which the tetrazole moiety was appended at C-3 and 17a-aza locations. 3-Tetrazolo-3,5-androstadien-17-one (6), 3-tetrazolo-19-nor-3,5-androstadien-17-one (10), 3-tetrazolo-3,5-pregnadien-20-one (14), 17a-substituted 3-tetrazolo-17a-aza-D-homo-3,5-androstadien-17-one (26-31) and 3-(2-acetyltetrazolo)-17a-aza-d-homo-3,5-androstadien-17-one (32) were synthesized from dehydroepiandrosterone acetate (1) through multiple synthetic steps. Some of the synthesized compounds were evaluated for their in vitro 5α-reductase (5AR) inhibitory activity by measuring the conversion of [(3)H] androstenedione in human embryonic kidney (HEK) cells. In vivo 5α-reductase inhibitory activity also showed a significant reduction (p <0.05) in rat prostate weight. The most potent compound 14 showed 5AR-2 inhibition with IC50 being 15.6nM as compared to clinically used drug finasteride (40nM). There was also a significant inhibition of 5AR-1 with IC50 547nM compared to finasteride (453nM).

Induction of a heparin-stimulated serine proteinase in sex accessory gland tumors of the Lobund-Wistar rat.

Induction of new proteinase activities that may process growth factors, modify cell surface receptors, cleave extracellular matrix proteins, etc. is considered fundamental in carcinogenesis. The purpose of this study was to characterize a novel proteinase activity induced in sex accessory gland cancers (about 70% in seminal vesicles) of adult male Lobund-Wistar rats by a single injection of N-nitroso-N-methylurea (NMU; 25mg/kg) followed by implanted testosterone propionate (45mg in silastic tubing every 2months) treatment for 10-14months. A 28kDa proteinase activity was detected in tumor extracts using SDS-gelatin gel zymography with incubations done without CaCl2. Its activity was stimulated 15 fold by heparin (optimal activity 1.5-3.0µg/lane) added to the tissue extract-SDS sample buffer prior to electrophoresis. No 28kDa heparin-stimulated proteinase (H-SP) was found in the dorsal, lateral and anterior (coagulating gland) prostate lobes or seminal vesicles of untreated adult rats, but there was a 26-30kDa Ca(2+)-independent proteinase activity in the ventral prostate that showed limited heparin stimulation. The 28kDa H-SP was completely inhibited by 1.0mM 4-(2-aminoethyl)benzenesulfonylfluoride (AESBF) indicating that it was a serine-type proteinase. Other types of proteinase inhibitors were without effect, including serine proteinase inhibitors benzamidine, tranexamic acid and ε-aminocaproic acid. Proteinase activities of about 28kDa were found with casein, fibrinogen or carboxymethylated transferrin as substrate, however, these activities were not stimulated by heparin. Similar levels of activities of the 28kDa H-SP were found in primary tumors and their metastases, but little/no activity was detected in serum, even from rats with large tumor volume and metastases. These data demonstrate overexpression of a heparin-stimulated 28kDa serine proteinase in the primary tumors of sex accessory gland cancers and their metastases. This proteinase either does not leak into or is inactivated in the blood. The role of this proteinase remains to be determined, but its possible interaction with extracellular glycosaminoglycans could focus its proteolytic activity in the tumor microenvironment and affect tumor growth.

Mutual adaptation between mouse transglutaminase 4 and its native substrates in the formation of copulatory plug.

Formation of copulatory plugs by male animals is a common means of reducing competition with rival males. In mice, copulatory plugs are formed by the coagulation of seminal vesicle secretion (SVS), which is a very viscous and self-clotting fluid containing high concentration of proteins. In its native state, mouse SVS contains a variety of disulfide-linked high-molecular-weight complexes (HMWCs) composed of mouse SVS I-III, which are the major components of mouse SVS. Further, mouse SVS I-III are the substrates for transglutaminase 4 (TGM4), a cross-linking enzyme secreted from the anterior prostate. According to activity assays, mouse TGM4 prefers a mild reducing and alkaline environment. However, under these conditions, the activity of mouse TGM4 toward SVS I-III was much lower than that of a common tissue-type TGM, TGM2. On the other hand, mouse TGM4 exhibited much higher cross-linking activity than TGM2 when native HMWCs containing SVS I-III were used as substrates under non-reducing condition. By the action of TGM4, the clot of SVS became more resistant to proteolysis. This indicates that the activity of TGM4 can further rigidify the copulatory plug and extend its presence in the female reproductive tract. Together with the properties of TGM4 and the nature of its disulfide-linked SVS protein substrates, male mice can easily transform the semen into a rigid and durable copulatory plug, which is an important advantage in sperm competition.

Expression and distribution of phosphodiesterase isoenzymes in the human seminal vesicles.

INTRODUCTION: Phosphodiesterase (PDE) isoenzymes have been shown to play a role in the control of human male genital tissues. There are hints from basic research and clinical studies that PDE5 inhibitors may have the ability to retard the male ejaculatory response. While the expression of PDE isoenzymes in the human seminal vesicles (SVs) has been described, the distribution of cyclic adenosine monophosphate (AMP)- and cyclic guanosine monophosphate (GMP)-PDEs has not yet been investigated. AIM: The aim of this study was to elucidate the expression and distribution of PDE isoenzymes PDE3A, PDE4 (isoforms A and B), PDE5A, and PDE11A in human SV tissue. METHODS: Using immunohistochemistry (double-labeling techniques, laser fluorescence microscopy), the occurrence of PDE3A, PDE4A, PDE4B, PDE5A, and PDE11A, the vasoactive intestinal polypeptide (VIP), calcitonin gene-related peptide (CGRP), and protein gene product 9.5 (PGP 9.5) was examined in sections of SV. Cytosolic supernatants prepared from isolated human SV tissue were subjected to Western blot analysis using specific anti-PDE antibodies. MAIN OUTCOME MEASURE: The expression and distribution by of PDE3A, PDE4A, PDE4B, PDE5A, and PDE11A in the human SV were investigated by means of immunohistochemistry and Western blot analysis. RESULTS: Immunosignals specific for PDE3A were seen in both the smooth muscle and the glandular epithelium, whereas staining for PDE4A, PDE5A, and PDE11A was mainly limited to epithelial cells. Varicose nerve fibers transversing the sections also presented staining for PDE3A. In nerve fibers and nerve endings, PDE4A and PDE4B were found co-localized with VIP; PDE5A-positive nerves also presented immunosignals specific for CGRP. The expression of said PDE isoenzymes was confirmed by Western blotting. CONCLUSIONS: The results indicate that cyclic AMP- and cyclic GMP-PDE isoenzymes are involved in the control of secretory activity and efferent neurotransmission in the SV. These findings might be of importance with regard to the identification of new therapeutic avenues to treat premature ejaculation.

Identification of the major TG4 cross-linking sites in the androgen-dependent SVS I exclusively expressed in mouse seminal vesicle.

SVS I was exclusively expressed in seminal vesicle in which the protein was immunolocalized primarily to the luminal epithelium of mucosal folds. The developmental profile of its mRNA expression was shown to be androgen-dependent, manifesting a positive correlation with the animal's maturation. There are 43 glutamine and 43 lysine residues in one molecule of SVS I, which is one of the seven major monomer proteins tentatively assigned on reducing SDS-PAGE during the resolution of mouse seminal vesicle secretion. Based on the fact that SVS I-deduced protein sequence consists of 796 amino acid residues, we produced 7 recombinant polypeptide fragments including residues 1-78/F1, residues 79-259/F2, residues 260-405/F3, residues 406-500/F4, residues 501-650/F5, residues 651-715/F6, and residues 716-796/F7, and measured the covalent incorporation of 5-(biotinamido)pentylamine (BPNH(2)) or biotin-TVQQEL (A25 peptide) to each of F1-to-F7 by type 4 transglutaminase (TG(4)) from the coagulating gland secretion. F2 was active to a greater extent than the other fragments during the BPNH(2)-glutamine incorporation, and a relatively low extent of A25-lysine cross link was observed with all of the seven fragments. The MS analysis of BPNH(2)-F2 conjugate identified Q(232) and Q(254) as the two major TG(4) cross-linking sites. This was substantiated by the result that much less BPNH(2) was cross-linked to any one of the three F2 mutants, including Q232G and Q254G obtained from single-site mutation, and Q232G/Q254G from double-site mutation.

Cyclic adenosine monophosphate: andromimetic action on seminal vesicular enzymes.

Administration of adenosine 3',5'-monophosphate with theophylline produced testosterone-like induction of hexokinase, phosphofructokinase, pyruvate kinase, and glucose-6-phosphate dehydrogenase in the seminal vesicles of both orchidectomized and immature rats. The N(6)-O(2)'-dibutyryl analog of this cyclic nucleotide produced greater increases in vesicular enzyme activities than those induced by the parent compound. The observed enhancement of the key glycolytic enzymes and of hexose monophosphate shunt dehydrogenase was significantly inhibited by actinomycin D and cycloheximide. The evidence indicates that cyclic adenosine monophosphate may be involved as an intermediary in the action of androgenic hormones on male accessory sex organs.

Thromboxanes: selective biosynthesis and distinct biological properties.

The prostaglandin endoperoxide ring structure alone does not establish suitability as a substrate for thromboxane synthetase, but the degree of unsaturation and carbon chain length are also essential features. Thus, human platelet microsomes can synthesize thromboxane A2, thromboxane A3, but not thromboxane A1 from their respective endoperoxides. The potent vasoconstrictor property of thromboxanes can be dissociated from its capacity to produce platelet aggregation. Furthermore, thromboxane formation is not an essential process in platelet aggregation. The observations indicate the remarkable structural specificity of both the synthetic enzymes, cyclooxygenase and thromboxane synthetase, as well as the vascular and platelet receptor sites.

Localization and characterization of glutathione peroxidase (GPx) in boar accessory sex glands, seminal plasma, and spermatozoa and activity of GPx in boar semen.

Boar ejaculate owes its characteristic large volume mainly to accessory sex gland (ASG) secretions. These are main contributors to the protective functions of seminal plasma, especially against oxidative damage. Numerous antioxidants have been detected in ASG secretions, and, respectively, in seminal plasma. However, as regards one key antioxidant protector -- the Se-dependent enzyme glutathione peroxidase (GPx) -- there is no agreement yet among researchers as to its presence in boar seminal plasma. Nevertheless, the beneficial effect of dietary Se supplementation on male fertility has been widely recognized. The aim of the present study was to investigate the localization and characterization of GPx in boar ASGs, seminal plasma, and spermatozoa, as well as to evaluate GPx activity in boar semen. Immunohistochemical assays demonstrated GPx presence in the epithelial cells, vacuole membranes, and vascular endothelium of boar seminal vesicle, prostate and bulbourethral glands. Western blot analysis demonstrated the presence of a monomer form of GPx with MW 20 kDa in lysates from seminal vesicle, prostate, bulbourethral glands, and spermatozoa, but not in seminal plasma. Surprisingly, peroxidase activity detected in seminal plasma from normal ejaculates was nearly three times as high as in spermatozoa. Our findings confirmed the presence of immunoreactive GPx in the boar reproductive tract, while further investigation is still warranted to uncover the exact protein forms involved and their function.

Inhibition of platelet prostaglandin synthetase by oral aspirin.

Aspirin inhibits platelet function by permanently acetylating the cyclooxygenase that forms prostaglandins. We determined the sensitivity of platelets to aspirin in normal subjects by measuring [3H-acetyl]aspirin-susceptible cyclooxygenase in washed platelets obtained at various times after aspirin ingestion. A single 325-mg aspirin dose inactivated 89% of platelet cyclooxygenase. The inhibition persisted for 2 days suggesting that oral aspirin also inactivated megakaryocyte cyclooxygenase. Thereafter, active enzyme returned with a time-course reflecting platelet turnover (life-span 8.2+/-2 days). Single doses of 20-650 mg aspirin resulted in 34- greater than 95% inhibition after 24 h. Daily doses of 20-325 mg aspirin for brief periods produced 61- greater than 95% inactivation when measured 24 h after cessation of the drug. Platelet cyclooxygenase is more sensitive to inactivation by aspirin than enzyme in sheep seminal vesicles.

The activity and immunoexpression of cathepsin D in rat male reproductive organs.

Cathepsin D is a cysteine endopeptidase that belongs to the lysosomal enzyme family. The aim of the study was to evaluate the enzyme immunoexpression and activity in selected male genital organs in mature Wistar rats. The activity of cathepsin D was measured spectrophotometrically in homogenates of the testis, epididymis, seminal vesicle and prostate. Immunohistochemical staining was also performed in the ductus deferens. Enzyme activity was found in the following sequence: testis>epididymis>dorsal prostatic lobe>seminal vesicle>lateral prostatic lobe>ventral prostatic lobe. Although there were differences in enzyme activity between various organs of the male reproductive system, cathepsin D immunoreactivity was seen exclusively in the Sertoli and Leydig cells in the testis.

Activation of some aromatic amines to mutagenic products by prostaglandin endoperoxide synthetase.

Cooxidation of xenobiotics may occur during prostaglandin biosynthesis. The ability of prostaglandin endoperoxide synthetase to cooxidize several aromatic amines and other chemicals to mutagenic products was tested with the standard Salmonella tester strains. The microsomal fraction of ram seminal vesicles, a rich source of prostaglandin endoperoxide synthetase, in the presence of the prostaglandin endoperoxide synthetase substrate arachidonic acid metabolized benzidine, 2-aminofluorene, 2-naphthylamine, and 2,5-diaminoanisole to mutagenic products. 1-Napthylamine, 2-aminoanthracene, 2-acetylaminofluorene, and 2,4-diaminoanisole were negative or weakly mutagenic. N-Nitrosodimethylamine, N-nitrosomorpholine, the pesticide Aminocarb, and di(2-ethylhexyl)phthalate were not activated to mutagenic products by the ram seminal vesicle microsomal fraction.

Molecular determinants in the plasma clearance and tissue distribution of ribonucleases of the ribonuclease A superfamily.

The similarities and differences among members of the RNase A superfamily provide an ideal opportunity to examine the molecular basis for differences in their pharmacokinetics and biodistribution. Plasma clearances in BALB/c mice are similar among the five RNases studied: human pancreatic RNase, angiogenin, eosinophil-derived neurotoxin, onconase, and bovine seminal RNase. The average clearance is 0.13 ml/min or 60% of the glomerular filtration rate (measured by [14C]inulin clearance during continuous infusion from an i.p. implanted osmotic pump). Angiogenin has a higher volume of distribution and plasma-to-muscle transport rate than the other RNases, suggestive of binding to endothelial cells. Organ distribution differs dramatically among these RNases. The RNase most toxic to tumor cells, onconase, exhibits the longest retention in the kidneys: at 180 min, 50% of the injected dose is found in the kidneys, whereas only 1% or less of the other RNases is retained in the kidneys. Slower elimination of onconase from the kidneys may be due to a higher degree of binding in the kidney or a resistance to proteolytic degradation. To elucidate the molecular determinants involved in tissue uptake, we examined the biodistribution of recombinant onconase and two onconasepancreatic RNase chimeric proteins. The tissue retention property of onconase appears to be located in at least two regions, one of which is in the NH2-terminal 9-amino acid alpha-helix. The NH2-terminal pyroglutamate of onconase, a residue essential for ribonucleolytic activity and cytotoxicity, does not play a role in kidney retention.

Selective activation of some dihydrodiols of several polycyclic aromatic hydrocarbons to mutagenic products by prostaglandin synthetase.

The ability of prostaglandin synthetase (PGS) to cooxidize benzo(a)pyrene, benzo(a)anthracene, chrysene, and several of their dihydrodiol derivatives to mutagenic products was tested with Salmonella typhimurium strains TA98 and TA100. The microsomal fraction of ram seminal vesicles, a known source of PGS, in the presence of the PGS substrate arachidonic acid, metabolized benzo(a)pyrene-7,8-dihydrodiol, benzo(a)anthracene-3,4-dihydrodiol, and chrysene-1,2-dihydrodiol to mutagenic products. This activity was inhibited by the PGS inhibitor indomethacin. Unlike the PGS system, however, a cytochrome P-450-reduced nicotinamide adenine dinucleotide phosphate-dependent system, present in an Aroclor 1254-induced rat liver 9000 x g supernatant fraction, also activated the parent compounds [benzo(a)pyrene, benzo(a)anthracene, chrysene] and several other benzo(a)anthracene dihydrodiols (the 1,2-dihydrodiol, the 8,9-dihydrodiol, and the 10,11-dihydrodiol). The chrysene trans-3,4, trans-5,6, and cis-5,6 diols were not activated to mutagens by either system. Thus, the PGS system appears to be more selective than does the cytochrome P-450 system in the activation of polycyclic aromatic hydrocarbons to mutagenic products, activating only those dihydrodiols with adjacent double bonds in the bay region from which the bay-region diol-epoxides are formed.