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.
Adenosine was coupled to human serum albumin by two different procedures that preserved the purine and ribose rings. The conjugates were evaluated for antigenicity in rabbits and guinea pigs. A conjugate containing 2'(3')-O-succinoyladenosine failed to elicit antibodies, whereas one containing laevulinic acid (O2', 3'-adenosine-acetal) elicited antibodies in all animals injected. The affinity and specificity of binding of adenosine to three selected antisera were evaluated. Dissociation constants of 31-187 nM were observed. Displacement of adenosine binding to all antisera by adenine 5'-nucleotides, adenine, inosine and hypoxanthine required more than 1000-fold higher concentrations than of adenosine itself. Similar affinities for adenosine and 2'-deoxyadenosine were observed. By exploiting the high specificity of the antisera, a radioimmunoassay method was established that was capable of detecting down to 1 pmol of adenosine (20 nM) in unfractionated heart perfusates and cell extracts. The acetal-mediated coupling procedure is applicable to other biologically important cis-diols.
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