5′‐Nucleotidase from bovine liver plasma membranes has been extracted by the zwitterionic detergent sulfobetaine 14, and purified to apparent homogeneity. Two affinity chromatographies on concanavalin‐A‐Ultrogel and 5′AMP‐Sepharose 4B followed by AcA‐54‐Ultrogel filtration resulted in a purification of 16000 times relative to the homogenate. Sodium dodecyl sulphate gel electrophoresis indicates that the apparent molecular weight of the subunit is 70000. Cross‐linking of the native enzyme with dimethylpimelimidate followed by gel electrophoresis shows a band with an apparent molecular weight of 140000 indicating that the enzyme is a dimer. 5′‐Nucleotidase is a glycoprotein and its activity is inhibited to different degrees by various lectins, indicating a direct interaction with the enzyme. The purified enzyme shows a sevenfold greater affinity for AMP than the membrane‐bound enzyme. The optimum activity of the purified enzyme occurs at pH 7.5 while the membrane‐bound enzyme showed a wide range of pH optimum (7.5–8.3). An Arrhenius plot of the membrane‐bound enzyme shows a break at 28°C, which disappears in the purified enzyme. The enzyme was inhibited by EDTA, and this inhibition was reversed by divalent cations. This, as well as other evidence, indicates that the enzyme contains a highly bound metal cation, perhaps Mn2+ or Mg2+.
We studied 5'-nucleotidase in preparations of synaptic plasma membranes from bovine caudate nucleus. The best substrates for this membrane-bound enzyme were purine nucleotides, particularly 5'AMP. Effects of metal cations and chelating agents suggest that 5'-nucleotidase is a metalloprotein. Optimal conditions for solubilization of the 5'-nucleotidase were found by using a low concentration of the zwitterionic detergent sulfobetaine 14. In contrast, another membrane-bound enzyme, acetylcholinesterase, was not solubilized under these conditions, but only in the presence of Triton X-100. The effects of lectins (concanavalin A, Lens culinaris agglutinin, wheat germ agglutinin, and Limulus polyphemus agglutinin) showed that both enzymes are glycoproteins. Sequential hydrolysis with specific glycosidases produced modifications of the effect of lectins on these enzymes. The results suggest the presence of a complex-type glycosylation, with a fucose residue on the internal N-acetyl-D-glucosamine of the pentasaccharide core.
To point out the metalloprotein structure of bovine liver plasma membrane 5 ' -nucleotidase, we studied the inhibition mechanism of the purified enzyme by EDTA: this apparently non-competitive inhibition seems to be dependent on EDTA concentration, pH, temperature and incubation time. When the restoration of activity was assayed by addition of divalent cations or by gel filtration, the inhibition became progressively irreversible with time. Incubation of the enzyme with [14C]EDTA allowed us to observe, after gel filtration as well as after sucrose gradient ultracentrifugation, that the chelating agent is bound to 5 ' -nucleotidase.
'-NucleotidaseMetalloprotein
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