Monoclonal antibodies against 5'-nucleotidase from a human pancreatic tumor cell line: their characterization and inhibitory capacity on tumor cell adhesion to fibronectin substratum.

Four mouse monoclonal antibodies (PTN63, PTN108, PTN124, PTN514) against the ecto-5'-nucleotidase purified from a human pancreatic adenocarcinoma cell line (PaTu II) have been raised and characterized. All four monoclonal antibodies recognize the protein moiety of the glycosylated ecto-5'-nucleotidase. In competition assays it was demonstrated that three of the antibodies (PTN63, PTN108, PTN514) recognize different epitopes within the protein moiety. Furthermore, PTN108, PTN124, and PTN514 reduced the 5'-nucleotidase AMPase activity in contrast to PTN63 having no inhibitory effect. The antibodies show no cross-reactivity with ecto-5'-nucleotidases from rat liver, bull seminal plasma, chicken gizzard and human peripheral blood cells. When assayed by indirect immunofluorescence the antibodies react with the plasma membrane of human pancreatic tumor cells with varying staining intensity. Immunocytochemistry on paraffin sections of normal human pancreas revealed a prominent staining of the pancreatic duct cells. No staining of the acinar and islet cells could be detected. Thus, 5'-nucleotidase is a marker enzyme for pancreatic duct cells and can be used to determine the origin of pancreatic tumor cells. PTN63 reduced the attachment to fibronectin substratum of a human pancreatic adenocarcinoma tumor cell line possessing a high amount of plasma membrane bound ecto-5'-nucleotidase, but had no effect on a cell line lacking the membrane bound AMPase. In contrast, PTN108 and PTN514, which inhibit the AMPase activity, exhibited no influence on the adhesion of human pancreatic tumor cells to fibronectin substratum.     

Affinity labelling of 5''-nucleotidases with 5''-p-fluorosulphonylbenzoyladenosine.

5'-Nucleotidases play an important role in the metabolism of nucleosides; for example, the hydrolysis of AMP generates adenosine, which can modulate a variety of cellular functions. We have used the membrane-bound AMPase from chicken gizzard and a secreted form of these enzymes to analyse their modification by the substrate analogue 5'-p-fluorosulphonylbenzoyladenosine (5'-FSBA). 5'-FSBA irreversibly inactivates 5'-nucleotidases by means of covalent modification of the proteins. ATP, a competitive inhibitor of chicken gizzard and snake-venom 5'-nucleotidase, abolished the inactivation by 5'-FSBA, demonstrating that the inactivation was due to the modification of amino acid residues essential for AMPase activity. We have synthesized radioactive 5'-FSBA, which was employed for the radiolabelling of chicken gizzard 5'-nucleotidase. Incorporation of radioactivity was completely abolished in the presence of ATP, which showed that 5'-FSBA acted by the selective modification of amino acid residues at the active site whereas other potential reactive residues of the protein were not attacked. Limited proteolysis of affinity-labelled chicken gizzard 5'-nucleotidase permitted the identification of digestion products containing the catalytic centre. Pseudo-first-order kinetics indicate that modification of a minimum of one amino acid side chain at the active centre is sufficient to result in inactivation of both chicken gizzard and snake-venom 5'-nucleotidases. Incorporation of the radioactive p-sulphonylbenzoyladenosine moiety parallels the inactivation of 5'-nucleotidase by 5'-FSBA and further substantiated the idea that modification of one amino acid residue at the active centre results in loss of the AMPase activity.     

Reconstitution of purified chicken gizzard 5'-nucleotidase in phospholipid vesicles. Evidence for its transmembraneous character and the existence of functional domains on both sides of the phospholipid bilayer

5'-Nucleotidase, purified to homogeneity from chicken gizzard using published procedures [Dieckhoff, J., Knebel, H., Heidemann, M. and Mannherz, H. G. (1985) Eur. J. Biochem. 151, 377-383] was incorporated into artificial phospholipid vesicles after prolonged dialysis against detergent-free buffer or by a gel filtration procedure. After dialysis the obtained liposomes exhibit a mean diameter of 80 nm and contain 5'-nucleotidase at random orientation, demonstrated by finding up to 50% of the total liposome-incorporated AMPase activity to be cryptic, i.e. could only be measured after their permeabilization by addition of detergent. By affinity chromatography a phospholipid vesicle fraction could be obtained containing almost exclusively cryptic AMPase activity, thus representing the inside-out orientation of 5'-nucleotidase. Comparative analysis of physiochemical and enzymatic properties of 5'-nucleotidase reveals differences between the detergent-solubilized and the liposome-incorporated 5'-nucleotidase including a changed accessibility of the enzyme to polyclonal and monoclonal antibodies. Binding and AMPase inhibition studies with different polyclonal antibodies strongly indicate to the existence of a cytoplasmic domain of chicken gizzard 5'-nucleotidase. F-actin appears preferentially to interact with the cytoplasmic domain of liposome-incorporated 5'-nucleotidase.     

Dual mechanism of laminin modulation of ecto-5′-nucleotidase activity

The myoblast cell surface activity of ecto-5′-nucleotidase was stimulated by a laminin substrate, whereas fibronectin and gelatin did not increase the AMPase activity of ecto-5′-nucleotidase. This increase was related to a higher expression of ecto-5′-nucleotidase on the surface of cells seeded on a laminin substrate, but without the mobilization of an intracellular pool of enzyme. Furthermore, laminin and its fragments E′₁ and E₈ modified the AMPase activity of the ecto-5′-nucleotidase purified from chicken striated muscle and reconstituted in liposomes. Over the range of concentrations used, intact laminin and its fragment E₈, consisting of the distal half of the long arm, stimulated the AMPase activity of ecto-5′-nucleotidase. By contrast, the large fragment derived from the short arms, designated E′₁, inhibited the AMPase activity. Furthermore, the monoclonal anti-ecto-5′-nucleotidase antibody, CG37, abolished the stimulatory effect of fragment E₈ on the AMPase activity of ecto-5′-nucleotidase but did not reverse the inhibitory effect of fragment E′₁. In conclusion, laminin stimulates the AMPase activity of ecto-5′-nucleotidase by two mechanisms: inducing the expression of ecto-5′-nucleotidase to the cell surface and direct modulation of the enzymatic activity.     

Nucleotide ectoenzyme activities of human and Chinese hamster fibroblasts in tissue culture

We have previously assigned human ecto-5'-nucleotidase (NT) to chromosome 6 on the basis of conversion of exogenously supplied [14C]AMP to adenosine by whole cells of human and Chinese hamster hybrids carrying chromosome 6. In this paper we demonstrate that the activity on human MRC-5 fibroblasts is typical of previously described and purified ecto-5'-nucleotidases. In contrast to MRC-5 cells, Chinese hamster V79A2 cells weakly express an AMPase activity that is not NT. The cytosolic form of NT in human and hybrid fibroblasts is similar to the ectoenzyme in substrate specificity. Hybrids that lack chromosome 6 express neither the ecto- nor the cytosolic enzyme, suggesting that both forms may be coded by the same gene on chromosome 6. Ecto-ATPase, ecto-ADPase, and ecto-ADP kinase activities are each expressed at similar levels in MRC-5 and V79A2. The ATPase, ADPase and NT activities of MRC-5 cells act sequentially to generate adenosine. A similar cascade acts on V79A2 cells but the lack of NT causes the accumulation of AMP.     

The extracellular matrix proteins laminin and fibronectin modify the AMPase activity of 5'-nucleotidase from chicken gizzard smooth muscle

Laminin and fibronectin, but not collagen, affect the AMPase activity of the purified transmembrane protein 5'-nucleotidase. Laminin stimulates whereas fibronectin inhibits the AMPase activity of this ectoenzyme. The AMPase-modulating effects by these components of the extracellular matrix require a preincubation period of several hours when detergent-solubilized 5'-nucleotidase is employed, they can, however, instantaneously be elicited with liposome-incorporated 5'-nucleotidase.     

Surface localization of 5'-nucleotidase on the mouse lymphocyte.

The optimal conditions for the cytochemical localization of 5'-nucleotidase (AMPase) in the mouse lymphocyte have been established. Quantitative monitoring of the effects of fixation and the components of the cytochemical medium showed that the cytochemistry can be performed under conditions that do not lead to loss of AMPase activity, and also under conditions where penetration of the substrate into the cell has occurred. The cytochemical reaction product was seen only on the surface of a proportion of splenic lymphocytes, regardless of the fixative used. Biochemical data confirmed that AMPase is an ectoenzyme and is the only protein in splenic lymphocytes capable of catalysing the hydrolysis of AMP. The activity of 5'-nucleotidase was studied also by harvesting cells either from thymus or spleen of A/ST or Cd-1 mouse strains. The enzymatic activity in splenic lymphocytes was more than six time higher than the activity of intact thymus cells. Cytochemically it was evident that within splenic lymphocytes there was a distinct population of lymphocytes with readily demonstrable AMPase activity, and another with no cytochemically demonstrable AMPase activity. It was concluded that murine lymphocytes vary in their activity of AMPase, and that the enzyme is exclusively confined to the cell surface.     

Bone sialoprotein binding to matrix metalloproteinase-2 alters enzyme inhibition kinetics

Bone sialoprotein (BSP) is a secreted glycophosphoprotein normally restricted in expression to skeletal tissue that is also induced by multiple neoplasms in vivo. Previous work has shown that BSP can bind to matrix metalloproteinase-2 (MMP-2). Because of MMP-2 activity in promoting tumor progression, potential therapeutic inhibitors were developed, but clinical trials have been disappointing. The effect of BSP on MMP-2 modulation by inhibitors was determined with purified components and in cell culture. Enzyme inhibition kinetics were studied using a low-molecular weight freely diffusable substrate and purified MMP-2, BSP, and natural (tissue inhibitor of matrix metalloproteinase-2) and synthetic (ilomastat and oleoyl- N-hydroxylamide) inhibitors. We determined parameters of enzyme kinetics by varying substrate concentrations at different fixed inhibitor concentrations added to MMP-2 alone, MMP-2 and BSP, or preformed MMP-2-BSP complexes and solving a general linear mixed inhibition rate equation with a global curve fitting program. Two in vitro angiogenesis model systems employing human umbilical vein endothelial cells (HUVECs) were used to follow BSP modulation of MMP-2 inhibition and tubule formation. The presence of BSP increased the competitive K I values between 15- and 47-fold for natural and synthetic inhibitors. The extent of tubule formation by HUVECs cocultured with dermal fibroblasts was reduced in the presence of inhibitors, while the addition of BSP restored vessel formation. A second HUVEC culture system demonstrated that tubule formation by cells expressing BSP could be inhibited by an activity blocking antibody against MMP-2. BSP modulation of MMP-2 activity and inhibition may define its biological role in promoting tumor progression.     

Inhibition of IMP-specific cytosolic 5''-nucleotidase and adenosine formation in rat polymorphonuclear leucocytes by 5''-deoxy-5''-isobutylthio derivatives of adenosine and inosine.

1. The partially purified IMP-specific cytosolic 5'-nucleotidases from rat liver, polymorphonuclear leucocytes and heart were inhibited by 50% by 2-6 mM-5'-deoxy-5'-isobutylthioadenosine (IBTA) or 7-10 mM-5'-deoxy-5'-isobutylthioinosine (IBTI). IBTA and IBTI inhibited the rat liver and polymorphonuclear-leucocyte enzymes non-competitively. IBTA, but not IBTI, also inhibited the ecto-5'-nucleotidase of polymorphonuclear leucocytes. IBTI was, by contrast, a more potent inhibitor than IBTA of the AMP-specific soluble 5'-nucleotidase from pigeon heart. 2. During 2-deoxyglucose-induced ATP-catabolism in rat polymorphonuclear leucocytes, adenosine formation was inhibited by approx. 80% by 3 mM-IBTA and by approx. 70% by 7 mM-IBTI. 3. The results show that 5'-modified nucleosides are inhibitors of cytosolic 5'-nucleotidases and that they penetrate to inhibit their target enzymes in intact cells. Such inhibitors may be useful to clarify the mechanisms of adenosine formation and to prevent mononucleotide hydrolysis during ATP breakdown.     

Role of metal ions in goat carboxypeptidase A-catalysed hydrolysis of acyl peptides

The carboxypeptidase A purified from goat pancreas has been found to have a molecular weight of 34,600 +/- 300. The enzyme is a zinc-protein and the molar ratio of zinc to enzyme protein is 1:1. Removal of zinc yields an inactive apocarboxypeptidase A. The loss of activity of the native enzyme and restoration of the activity of the apoenzyme run parallel with the zinc content of the protein, thus showing the essentiality of zinc for the enzymatic activity. The exact role of zinc in the enzyme catalysed hydrolysis of the acylpeptides has been investigated after preparing metallo proteins by substituting the zinc of carboxypeptidase A with Co2+, Mn2+, Ni2+, Fe2+, Cd2+, Hg2+, and Cu2+ and determining the kinetic parameters of such metalloproteins. These studies indicate that the metal ion is involved in both binding the substrate and polarising the peptide bond.     

Electron microscopic cytochemical characterization of bile canaliculi and bile ducts in vitro.

Electron microscopic cytochemical localization of Mg++-activated adenosine triphosphatase (Mg++-ATPase) and 5-nucleotidase (AMPase) was investigated in bile canaliculus-rich and bile duct-containing fractions isolated from rat liver. Comparative cyochemical studies between prefixed and non-prefixed fractions revealed that the activity of both enzymes could be detected in the fractions under appropriate experimental conditions. However, the cytochemical activity of AMPase was much more sensitive to glutaraldehyde than that of Mg++-ATPase. Mg++-ATPase and AMPase reaction products were localized primarily on bile canalicular microvilli, that is, along the outer (luminal) surface of canalicular plasma membranes, but they were never observed on bile ductal microvilli. AMPase was also detectable on lateral hepatic plasma membranes. Mg++-ATPase demonstrated by the cytochemical technique described is a reliable enzyme marker for isolated bile canalicular membranes. At high magnification, Mg++-ATPase reaction product was also observed on the microfilaments surrounding isolated bile canaliculi. The possibility that the reaction product on the pericanalicular microfilaments may result from the hydrolysis of ATP byan actomyosin ATPase-like enzyme associated with these filaments is briefly discussed.     

5-Nucleotidase activity in lymphocytes

Summary Some characteristics of lymphocyte 5-nucleotidase are reviewed. The optimal conditions for the cytochemical localization of 5-nucleotidase (AMPase) in the mouse lymphocyte have been established. Quantitative monitoring of the effects of fixation and the components of the cytochemical medium showed that cytochemistry can be performed under conditions that do not lead to loss of AMPase activity. The cytochemical reaction product was seen only on the surface of a proportion of splenic lymphocytes, regardless of the fixative used. The splenic cell population included a distinct population of lymphocytes with readily demonstrable AMPase activity and another population with no cytochemically demonstrable AMPase activity. The number of positive cells varied, but was usually between 20 and 30% when cells were fixed in glutaraldehyde. Lymphocytes purified from thymus were always negative for cytochemically demonstrable AMPase activity. Biochemically, it was shown that the AMPase activity of spleen lymphocytes is more than six times higher than that of thymus lymphocytes. 5-Nucleotidase activity in normal and abnormal lymphocytes is discussed in the light of the latest findings. The possible function of 5-nucleotidase in lymphocytes is discussed.     

A histochemical study of variations in the localization of 5′-nucleotidase activity in the acinar cell of the rat exocrine pancreas over the twenty-four hour period

The circadian variation of 5'-nucleotidase (AMPase) activity was studied in rat pancreatic exocrine cells. The localization of this enzyme, often associated with the plasmalemma, was studied by ultracytochemical methods at six time points over the 24-h period. The localization of AMPase activity exhibited a clear-cut circadian variation. During the light span strong activity was observed on the luminal plasmalemma, negative or weak activity on the baso-lateral plasmalemma and clearly visible activity on intracellular structures such as cytoplasmic vacuoles (fragmentation-like vesicles), dilated rims of the Golgi cisternae (or cisternal ends of the Golgi stacks), condensing vacuoles and lysosomal bodies. During the dark span the activity was detectable only on the baso-lateral plasmalemma. The fact that AMPase activity could not be found on the luminal plasmalemma during the dark span suggests that the luminal membranes may be replaced by the membranes of secretory granules, which do not display AMPase activity. The intracellular localization of AMPase activity during the light span, especially at 08.00 h, includes all cytoplasmic compartments which have hitherto been associated with the intracellular pathway for membrane retrieval from the plasmalemma. Moreover, the appearance of the activity in the dilated rims of the Golgi stack and condensing vacuoles indicates that these compartments may constitute a functional unit.     

Lysosomal membrane adenosine triphosphatase; solubilization and partial characterization

Membranes prepared from Triton WR-1339-filled lysosomes (tritosomes) contained ATPase activity with a pH optimum of 5–8. These membranes also showed adenosine diphosphatase, adenosine monophosphatase, acid β-glycerol phosphatase, and acid pyrophosphatase activities. The soluble (nonmembrane) fraction of the tritosomes also contained these activities, but the properties of the soluble adenine nucleotide phosphatase activities were different from the membrane-associated enzymes. The pH optimum of tritosomal membrane ATPase changed to 5 after solubilization with Triton X-100, but ADPase and AMPase optima remained at 6–7. The pH optimum of intact membrane ATPase was also 5 when the substrate was α,β-methylene-ATP. Thus, tritosomal membrane ATPase apparently exhibits a pH 8 optimum only when acting in concert with ADPase and AMPase in intact membranes. Rates of ATP hydrolysis to adenosine were also significantly greater in intact membranes than in Triton X-100-solubilized fraction. Centrifugation of Triton X-100-solubilized tritosomal membranes in sucrose density gradients showed that ATPase and ADPase activities sedimented to one peak, and that AMPase, acid phosphatase, and pyrophosphatase were grouped in another peak. Thus, tritosomal membrane ATPase activity was not due to the latter enzymes. The resulting purification was about fourfold for ATPase. The Mr for ATPase and ADPase was estimated to be about 65,000 and for AMPase, acid phosphatase, and pyrophosphatase about 200,000.     

Vanadate inhibits degradation of short-lived, but not of long-lived, proteins in L-132 human cells.

We have analysed the membrane anchorage of plasma-membrane 5'-nucleotidase, an ectoenzyme which can mediate binding to components of the extracellular matrix. We demonstrated that the purified enzyme obtained from chicken gizzard and a human pancreatic adenocarcinoma cell line were both completely transformed into a hydrophilic form by treatment with phospholipases C and D, cleaving glycosylphosphatidylinositol (GPI). These data indicate the presence of a glycolipid linker employed for membrane anchoring of the 5'-nucleotidase obtained from both sources. Incubation of plasma membranes under identical conditions revealed that about half of the AMPase activity was resistant to GPI-hydrolysing phospholipases. Investigation of the enzymic properties of purified chicken gizzard 5'-nucleotidase revealed only minor changes after removal of the phosphatidylinositol linker. However, cleavage of the membrane anchor resulted in an increased sensitivity towards inhibition by concanavalin A. After tissue fractionation, chicken gizzard 5'-nucleotidase could be obtained as either a membrane-bound or a soluble protein; the latter is suspected to be released from the plasma membrane by endogenous phospholipases. Higher-molecular-mass proteins immuno-cross-reactive with the purified chicken gizzard 5'-nucleotidase were detected as both soluble and membrane-bound forms.     

New Insights into the Phylogeny and Gene Context Analysis of Binder of Sperm Proteins (BSPs)

Seminal plasma (SP) proteins support the survival of spermatozoa acting not only at the plasma membrane but also by inhibition of capacitation, resulting in higher fertilizing ability. Among SP proteins, BSP (binder of sperm) proteins are the most studied, since they may be useful for the improvement of semen diluents, storage and subsequent fertilization results. However, an updated and detailed phylogenetic analysis of the BSP protein superfamily has not been carried out with all the sequences described in the main databases. The update view shows for the first time an equally distributed number of sequences between the three families: BSP, and their homologs 1 (BSPH1) and 2 (BSPH2). The BSP family is divided in four subfamilies, BSP1 subfamily being the predominant, followed by subfamilies BSP3, BSP5 and BSP2. BSPH proteins were found among placental mammals (Eutheria) belonging to the orders Proboscidea, Primates, Lagomorpha, Rodentia, Chiroptera, Perissodactyla and Cetartiodactyla. However, BSPH2 proteins were also found in the Scandentia order and Metatheria clade. This phylogenetic analysis, when combined with a gene context analysis, showed a completely new evolutionary scenario for the BSP superfamily of proteins with three defined different gene patterns, one for BSPs, one for BSPH1/BSPH2/ELSPBP1 and another one for BSPH1/BSPH2 without ELSPBP1. In addition, the study has permitted to define concise conserved blocks for each family (BSP, BSPH1 and BSPH2), which could be used for a more reliable assignment for the incoming sequences, for data curation of current databases, and for cloning new BSPs, as the one described in this paper, ram seminal vesicle 20 kDa protein (RSVP20, Ovis aries BSP5b).     

Methodological studies on the uptake of zinc by 3T3 cells.

In the present work, experiments were conducted on the uptake of zinc by 3T3 cells. (1) The percent Zn uptake gradually decreased with addition of increasing amount of zinc (0.05-8.4 mug). (2) With the increase of the incubation period from 2 to 16 hr, Zn uptake by nearly confluent cells increases gradually; however, confluent cells which are newly replated show a distinct cyclic increase in the Zn uptake after 2, 6, and 10 hr. (3) The amino acids of DMM and serum decrease Zn uptake. (4) Histidine at a molar excess of 1:50, 1:500, and 1:5000 reduces Zn uptake in comparison to a treatment with 65Zn-Zn-L-hist2 at a molar ratio of 1:5. (5) When zinc is added in the form of different Zn compounds, at a molar ratio of 1:2 or 1:1 (Zn:ligand), EDTA decreases the Zn uptake markedly. A small influence was shown also by albumin and histidine; however, other amino and organic acids at a molar ratio of 1:2 did not alter Zn uptake significantly.     

An improved procedure for purifying 5'-nucleotidase from various sources. Evidence for tissue and species differences in their molecular mass and affinity for F-actin

5'-Nucleotidase from chicken gizzard smooth muscle has been extracted, using a sulfobetaine derivate of cholic acid, and purified to homogeneity by employing three chromatographic steps. It is shown that the purification scheme can be applied to 5'-nucleotidase from other sources, such as rat liver. On sodium dodecyl sulfate polyacrylamide gels, stained with silver nitrate, the purified enzyme from chicken gizzard shows a single polypeptide band with an apparent molecular mass of 79 kDa. The enzyme purified from rat liver exhibits a molecular mass of 73 kDa in agreement with published data [Bailyes, E.M., Soos, M., Jackson, P., Newby, A. C., Siddle, K. & Luzio, J.P. (1984) Biochem. J. 221, 369-377). Gel filtration, using non-denaturating detergent solutions, indicates that the native enzyme may exist as a homodimer (152 kDa) or homotetramer (310 kDa). Antibodies raised against the enzyme purified from chicken gizzard bind only 5'-nucleotidase, solubilized from chicken muscular sources, when immobilized, but not from chicken or rat liver. The existence of tissue specific variants of 5'-nucleotidase is therefore postulated and it appears that these particular isoforms can also be classified in membranous and secretory forms of 5'-nucleotidase. They also differ in their mode of interaction with actin. The AMPase activity of the membranous (= muscular) isoform is inhibited to a considerably higher percentage by F-actin than the enzyme isolated from rat liver.     

Chicken erythrocyte pyrimidine 5'-nucleotidase: purification and characterization of the subclass I enzyme

Nucleotidase activities resembling subclass I and subclass II of human pyrimidine 5'-nucleotidases (P5N) were detected in chicken red blood cells (RBCs). In chicken RBCs from untreated controls, the activity of the subclass II enzyme was about one third of that of subclass I enzyme, whereas that ratio was approximately 5:1 in rat or human RBCs. The subclass I activity in chicken RBCs was increased 5- to 6-fold upon erythropoietic induction by phenylhydrazine administration, but the subclass II activity did not increase under these conditions. The subclass I enzyme was purified to near homogeneity. Its molecular mass was about 35 kDa as estimated by gel filtration and SDS-polyacrylamide gel electrophoresis. Its N-terminal 12 amino acids, PEFQKKTVHIKD, were also determined. The catalytic properties of the subclass I enzyme were very similar to those of the human enzyme with regard to substrate (preferential hydrolysis of CMP, dCMP, UMP), Km values, optimum pH, and metal ion requirements. Antibodies against chicken P5N subclass I were raised in rats. The chicken P5N-I as well as the rat P5N-I proteins could be detected by antibodies in Western blot analyses, but not the P5N-II proteins. These findings indicate that P5N subclass I may have an important function in chicken erythropoiesis.