Enzymatic activity and in vivo distribution of 5'-nucleotidase, an extracellular matrix binding glycoprotein, during the development of chicken striated muscle.

The ecto-enzyme 5'-nucleotidase isolated from chicken gizzard has previously been shown to be a potent ligand of two glycoproteins of the extracellular matrix, namely fibronectin and laminin. Using immunofluorescent labeling techniques we observed that 5'-nucleotidase codistributed with laminin during the development of chicken striated muscle. In contrast, ecto-5'-nucleotidase was only faintly detectable on cells surrounded by a matrix expressing high levels of fibronectin. This distribution pattern distinguished 5'-nucleotidase from the pluripotent extracellular matrix receptors, chicken beta 1-integrins, which are expressed equally well in muscle and connective tissue. In addition, the specific activity of striated muscle ecto-5'-nucleotidase was stable during development and increased markedly posthatching. At each age considered, this specific activity corresponded to an 80-kDa enzyme which was inhibited by alpha,beta-methyleneadenosine diphosphate or by a monoclonal antibody directed against the smooth muscle isoform of the enzyme. Previous in vitro studies have revealed that 5'-nucleotidase is involved in the spreading of various mesenchyme-derived cells, such as chicken embryonic fibroblasts and myoblasts, on a laminin substrate. A prerequisite to examining a potential in vivo role for 5'-nucleotidase as an extracellular matrix ligand was to study its distribution. In adult muscle, 5'-nucleotidase displayed a more restricted distribution than in embryo. Results show that, in vivo, 5'-nucleotidase is revealed by immunofluorescent labeling using poly- and monoclonal antibodies to chicken gizzard 5'-nucleotidase in two structures, the costameres and myotendinous junctions, which are closely related to the focal adhesion sites observed in cell culture.     

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.     

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.     

Polyclonal and monoclonal antibodies against chicken gizzard 5′-nucleotidase inhibit the spreading process of chicken embryonic fibroblasts on laminin substratum

Polyclonal and monoclonal antibodies raised against chicken gizzard 5'-nucleotidase were tested in adhesion assays of embryonic chicken fibroblasts (CEF) for their ability to interfere with the adhesion process of these cells on either laminin or fibronectin substrata. The initial attachment process of CEF on fibronectin and laminin substrata was not influenced by preincubating these cells with antibodies against chicken gizzard 5'-nucleotidase. However, the subsequent spreading process of these cells was found to be inhibited for at least 2 h on a laminin substratum. This effect was obtained with a polyclonal antibody as well as with one from 12 monoclonal antibodies raised against the native enzyme purified from chicken gizzard. In vitro assays demonstrated a competition of laminin and this monoclonal antibody for the binding site on purified 5'-nucleotidase. Spreading-arrested and rounded CEF do not develop prominent intracellular stress-fibers like control cells, instead they seem to concentrate their available actin in areas of presumptive initial contact with the laminin substratum.     

Chicken gizzard 5'-nucleotidase is a receptor for the extracellular matrix component fibronectin

The smooth muscle cells of chicken gizzard harbor the ectoenzyme 5'-nucleotidase. The purified enzyme was reconstituted into 3H-labeled proteoliposomes which were used as a model to study the association of a membrane protein with fibronectin. We demonstrated that the binding process between proteoliposomes and fibronectin has the qualities of a receptor-ligand interaction, i.e., is saturable and specific. In contrast to the association of fibronectin with integrins, the interaction with 5'-nucleotidase does not require divalent metal ions. Synthetic peptides containing the RGD-sequence or a monoclonal antibody interfering with binding of other receptors to the cell-binding domain of fibronectin did not abolish the interaction with 5'-nucleotidase. This indicates that the RGDS-sequence does not represent the major contact site for the AMPase and that the 5'-nucleotidase belongs to a separate class of fibronectin receptors with distinct properties as compared to the integrins.     

Isolation and characterization of 5'-nucleotidase of a human pancreatic tumor cell line

5'-Nucleotidase of a human pancreatic tumor cell line (PaTu II) has been purified to homogeneity after extraction with detergent followed by two affinity chromatographic steps. Sodium dodecyl sulphate polyacrylamide gel electrophoresis of purified 5'-nucleotidase revealed a single polypeptide band of 67 kDa. The Western blotted enzyme can be overlaid with concanavalin A proving its glycoprotein nature. After treatment with endoglycosidase F the deglycosylated 5'-nucleotidase exhibits an apparent molecular mass of 58 kDa. The kinetic properties of the solubilized enzyme have been determined (Km (AMP) of 4.0 microM; Vmax (AMP) = 8.6 muMOL/min.mg). Adenosine 5'-[alpha,beta-methylene]diphosphate is a competitive inhibitor of 5'-nucleotidase, whereas concanavalin A inhibits the enzymatic activity in a non-competitive manner. Polyclonal antibodies against purified 5'-nucleotidase of PaTu II have been produced which inhibit its enzymatic activity. Polyclonal antibodies raised against the enzyme purified from rat liver or bull seminal plasma also recognize 5'-nucleotidase of PaTu II cells, whereas polyclonal and monoclonal antibodies against the enzyme derived from chicken gizzard show no cross-reactivity. 5'-Nucleotidase appears to be concentrated in the plasma membrane of PaTu II cells as judged by cell fractionation and indirect immunofluorescence studies.     

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.     

Evidence for the direct interaction of chicken gizzard 5'-nucleotidase with laminin and fibronectin

The ectoenzyme 5'-nucleotidase purified from chicken gizzard is shown to specifically interact with laminin and fibronectin, components of the extracellular matrix, by a number of different techniques: (i) cosedimentation with laminin by sucrose gradient centrifugation; (ii) affinity adsorption to both laminin- and fibronectin-Sepharose 4-B; (iii) specific binding to both laminin and fibronectin dotted onto cellulose filters; and (iv) monoclonal antibodies against 5'-nucleotidase are shown to interfere with the interaction of 5'-nucleotidase with laminin and fibronectin. For all the techniques employed, the interactions were found to be specific, since 5'-nucleotidase did not bind to unrelated proteins such as bovine serum albumin or to monomeric actin. The interaction of purified chicken gizzard 5'-nucleotidase could be demonstrated for the hydrophobic enzyme solubilized in detergent and after its reconstitution into artificial phospholipid vesicles. The affinity adsorption experiments indicate that reconstituted enzyme binds more strongly to both laminin and fibronectin. The 5'-nucleotidase employed in this study is anchored to the plasma membrane by a glycan-phosphatidylinositol linker. After treatment with phosphatidylinositol-specific phospholipase C, the enzyme is transformed into a hydrophilic form, for which interactions with laminin and fibronectin could also be demonstrated by the dot-blot technique. Thus controlled cleavage of the phosphatidylinositol linker of 5'-nucleotidase could enable cells to rapidly alter their adhesiveness to certain components of the extracellular matrix.     

Immunocytochemical localization of cytosol 5'-nucleotidase in chicken liver

We investigated the localization of cytosol 5'-nucleotidase in chicken liver by use of a pre-embedding immunoenzyme technique. Cytosol 5'-nucleotidase was purified from chicken liver and a monospecific antibody to this enzyme was raised in a rabbit. Fab fragments of the antibody were conjugated with horseradish peroxidase. Tissue sections of the fixed chicken liver were incubated with the peroxidase-Fab fragments, followed by DAB reaction for peroxidase. By light microscopy, dark-brown staining was present in the cytoplasm of parenchymal cells, Kupffer cells, and endothelial cells. The latter two types of cells were stained more strongly than the former. By electron microscopy, reaction deposits were present in the cytoplasmic matrix but not in cell organelles, such as mitochondria, endoplasmic reticulum, and peroxisomes, or in nuclei. In control sections incubated with peroxidase-conjugated Fab fragments from non-immunized rabbit, no specific reaction was noted. The results indicate that cytosol 5'-nucleotidase is contained more in the sinus-lining cells and less in the parenchymal cells, and that the enzyme is present in the cytoplasmic matrix of these cells.     

A smooth muscle-specific monoclonal antibody recognizes smooth muscle actin isozymes

Injection of chicken gizzard actin into BALB/c mice resulted in the isolation of a smooth muscle-specific monoclonal antibody designated CGA7. When assayed on methanol-Carnoy's fixed, paraffin-embedded tissue, it bound to smooth muscle cells and myoepithelial cells, but failed to decorate striated muscle, endothelium, connective tissue, epithelium, or nerve. CGA7 recognized microfilament bundles in early passage cultures of rat aortic smooth muscle cells and human leiomyosarcoma cells but did not react with human fibroblasts. In Western blot experiments, CGA7 detected actin from chicken gizzard and monkey ileum, but not skeletal muscle or fibroblast actin. Immunoblots performed on two-dimensional gels demonstrated that CGA7 recognizes gamma-actin from chicken gizzard and alpha- and gamma-actin from rat colon muscularis. This antibody was an excellent tissue-specific smooth muscle marker.     

Cross-reactivity of a monoclonal antibody to the catalytic subunit of chicken gizzard desmin-specific calpain

The desmin-specific calpain I from chicken gizzard smooth muscle is a dimer of 83 and 35 kDalton subunits. A monoclonal antibody to the large subunit did not cross-react with chicken gizzard and hamster skeletal muscle calpain II, but it did recognize hamster skeletal muscle desmin-specific calpain I and the denatured calpain II from chicken gizzard smooth muscle. These results indicate that different desmin-specific calpains have similar large subunits which differ significantly from the large subunit of calpain II in the same tissue.     

Characterization of chicken skeletal muscle myosin light chain kinase. Evidence for muscle-specific isozymes

Myosin light chain kinase purified from chicken white skeletal muscle (Mr = 150,000) was significantly larger than both rabbit skeletal (Mr = 87,000) and chicken gizzard smooth (Mr = 130,000) muscle myosin light chain kinases, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Km and Vmax values with rabbit or chicken skeletal, bovine cardiac, and chicken gizzard smooth muscle myosin P-light chains were very similar for the chicken and rabbit skeletal muscle myosin light chain kinases. In contrast, comparable Km and Vmax data for the chicken gizzard smooth muscle myosin light chain kinase showed that this enzyme was catalytically very different from the two skeletal muscle kinases. Affinity-purified antibodies to rabbit skeletal muscle myosin light chain kinase cross-reacted with chicken skeletal muscle myosin light chain kinase, but the titer of cross-reacting antibodies was approximately 20-fold less than the anti-rabbit skeletal muscle myosin light chain kinase titer. There was no detectable antibody cross-reactivity against chicken gizzard myosin light chain kinase. Proteolytic digestion followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis or high performance liquid chromatography showed that these enzymes are structurally very different with few, if any, overlapping peptides. These data suggest that, although chicken skeletal muscle myosin light chain kinase is catalytically very similar to rabbit skeletal muscle myosin light chain kinase, the two enzymes have different primary sequences. The two skeletal muscle myosin light chain kinases appear to be more similar to each other than either is to chicken gizzard smooth muscle myosin light chain kinase.     

Structural comparison of the 68 kDa laminin-binding protein and 5'-nucleotidase from chicken muscular sources: evidence against a gross structural similarity of both proteins

The 68 kDa laminin-binding protein purified from chicken skeletal muscle and the ectoenzyme 5'-nucleotidase from chicken gizzard are both able to interact with laminin. They were both shown to possess a nearly identical amino acid composition. The 79 kDa glycosylated form of 5'-nucleotidase can be transformed into an enzymatically active form by treatment with endoglycosidase F (Endo F). Deglycosylated (Endo F-treated) 5'-nucleotidase exhibits an apparent molecular mass of 68 kDa. Using immunological and finger-printing techniques, both proteins were analysed to determine their structural relatedness. The results obtained indicate that both proteins are not identical but may posses a few common peptides of yet unknown sequence and length.     

A comparative study on tissue distribution and metabolic adaptation of IMP-GMP 5'-nucleotidase.

1. Activity of a cytoplasmic 5'-nucleotidase which preferentially hydrolyzes IMP and GMP (IMP-GMP 5'-nucleotidase) was determined by a specific immunochemical method in two species of birds and two species of mammals. 2. The activity was markedly high in avian liver, and it increased two-fold in response to a high protein diet in chicken liver. 3. In mammals, the activity was high in testis and spleen. In the rat, the activities in liver, kidney and heart extracts increased by about 30% in response to the high protein diet, while they increased three-fold in regenerating liver. 4. Low activities were detected in skeletal muscles and in erythrocytes of all the species studied.     

5'-Nucleotidase is involved in chick embryo myoblast spreading on laminin

Previous studies have shown that 5'-nucleotidase, an ectoenzyme from chicken gizzard, interacts specifically with laminin and fibronectin, two glycoproteins of the extracellular matrix. Recently, we demonstrated that 5'-nucleotidase was involved in the spreading of chick embryo fibroblast on laminin. In the present communication, we report that a monoclonal antibody (CG37) raised-directed against 5'-nucleotidase inhibited the spreading of chick embryo myoblasts on laminin after their initial attachment to the substrate. Furthermore, monoclonal antibody CG37 specifically eluted 5'-nucleotidase from immobilized laminin and thus enabled its isolation from other myoblast laminin-binding proteins.     

IMP-GMP 5'-nucleotidase in reptiles: occurrence and tissue distribution in a crocodile and three species of lizards

IMP-hydrolyzing activity (which is reactive with goose anti-pig lung IMP-GMP 5'-nucleotidase (c-N-II: EC.3.1.3.5) serum) was detected in extracts from several tissues (liver, heart, kidney, spleen, stomach, lung and skeletal muscle) from constitutively uricotelic reptiles: a crocodile (Crocodylus siamensis), and three species of lizard (Furcifer oustaleti, Tupinambis rufescens and Varanus gouldi). The activities were markedly high in the livers: 3.0 units/g in the crocodile and 1.4-2.9 units/g in the lizards. These were similar to those previously reported for the livers from chicken and snakes (also constitutively uricotelic), and 4- to 10-fold higher than those in ammoniotelic or ureotelic vertebrates. These findings suggest that the high activity of IMP-GMP 5'-nucleotidase in the liver is a feature of constitutive uricotelism, and that the enzyme may participate in the production of uric acid as an end product of amino acid catabolism.     

Distribution of actin and tropomyosin in Cryptosporidium muris

Actin and tropomyosin of Cryptosporidium muris were localized by immunogold labeling. Two kinds of antibodies for actin labeling were used. The polyclonal antibody to skeletal muscle (chicken back muscle) actin was labeled on the pellicle and cytoplasmic vacuoles of parasites. The feeder organelle has showed a small amount of polyclonal actin antibody labeling as well. Whereas the monoclonal antibody to smooth muscle (chicken gizzard muscle) actin was chiefly labeled on the filamentous cytoplasm of parasites. The apical portion of host gastric epithelial cell cytoplasm was also labeled by smooth muscle actin together. The polyclonal antibody to tropomyosin was much more labeled at C. muris than host cells, so it could be easily identified even with low magnification (×2,000). The tropomyosin was observed along the pellicle, cytoplasmic vacuoles, and around the nucleus also. The skeletal muscle type actin seems to play a role in various cellular functions with tropomyosin in C. muris; on the other hand, the smooth muscle type actin was located mainly on the filamentous cytoplasm and supported the parasites'' firm attachment to host cells. Tropomyosin on the pellicle was thought to be able to stimulate the host as a major antigen through continuous shedding out by the escape of sporozoites or merozoites from their mother cells.     

Subcellular sorting of isoactins: selective association of gamma actin with skeletal muscle mitochondria

We describe two subpopulations of actin antibodies isolated by affinity chromatography from a polyclonal antibody to chicken gizzard actin. One subpopulation recognizes gamma actins from smooth muscle and nonmuscle cells, but does not recognize alpha actin from skeletal muscle. The other subpopulation recognizes determinants that are common to alpha actin from skeletal muscle and the two gamma actin isotypes. Neither antibody recognizes cytoplasmic beta actin. Both antibodies recognize only actins or molecules with determinants that are also present in actins. By immunofluorescence we found that the anti-gamma actin colocalizes with mitochondria in fibers of mouse diaphragm, and that it does not bind detectably to the 1 bands of sarcomeres. The antibody that recognizes both alpha and gamma actins stains 1 bands intensely, as expected. We interpret these observations as preliminary evidence for selective association of gamma actin with skeletal muscle mitochondria and, more broadly, as evidence for subcellular sorting of isoactins.     

Heterogeneity of desmin, the muscle-type intermediate filament protein, in blood vessels and astrocytes

Monoclonal antibodies were isolated from mice immunized with chicken gizzard desmin. Antibodies reacting with desmin on immunoblots and selectively decorating chicken and rat intestinal smooth muscle as well as the Z-line in striated muscle, were selected for this study. Based on their staining pattern on cryostat sections of chicken and rat cerebellum, spleen, kidney, aorta and femoral artery, monoclonal supernatants could be divided in three groups: (i) antibodies decorating astrocytes and vascular smooth muscle; (ii) antibodies decorating only vascular smooth muscle; (iii) antibodies decorating only astrocytes. Antibodies in group (i) and (iii) also stained GFA-negative Bergmann glia in chicken cerebellum. It is proposed that desmin may vary depending on the histological localization.     

Chicken gizzard filamin, retina filamin and cgABP260 are respectively, smooth muscle-, non-muscle- and pan-muscle-type isoforms: distribution and localization in muscles

We determined the full cDNA sequences of chicken gizzard filamin and cgABP260 (chicken gizzard actin-binding protein 260). The primary and secondary structures predicted by these sequences were similar to those of chicken retina filamin and human filamins. Like mammals, chickens have 3 filamin isoforms. Comparison of their amino acid sequences indicated that gizzard filamin, retina filamin, and cgABP260 were the counterparts of human FLNa (filamin a), b, and c, respectively. Antibodies against the actin-binding domain (ABD) of these 3 filamin isoforms were raised in rabbits. Using immunoabsorption and affinity chromatography, we prepared the monospecific antibody against the ABD of each filamin. In immunoblotting, the antibody against the gizzard filamin ABD detected a single band in gizzard, but not in striated muscles or brain. In brain, only the antibody against the retina filamin ABD produced a strong single band. The antibody against the cgABP260 ABD detected a single peptide band in smooth, skeletal, and cardiac muscle. In immunofluorescence microscopy of muscular tissues using these antibodies, the antibody against the gizzard filamin ABD only stained smooth muscle cells, and the antibody against the retina filamin ABD strongly stained endothelial cells of blood vessels and weakly stained cells in connective tissue. The antibody against the cgABP260 ABD stained the Z-lines and myotendinous junctions of breast muscle, the Z-lines and intercalated disks of cardiac muscle, and dense plaques of smooth muscle. These findings indicate that chicken gizzard filamin, retina filamin, and cgABP260 are, respectively, smooth muscle-type, non-muscle-type, and pan-muscle-type filamin isoforms.