Interactions of thorium and cerium with adenine nucleotides

The present study demonstrates an effect of the actinide, Thorium (Th), and the lanthanide, Cerium (Ce), on the non-enzymatic hydrolysis of adenine and guanine nucleotides. Thorium was found to be a more effective catalyst of the reaction than Cerium. Further, both the elements promoted the binding of Creatine kinase (CK) to Cibacron blue F3 GA, the substrate analogue of the enzyme, even in the absence of Mg2+, the physiological cofactor. These observations imply that toxic heavy metals can mimic the functional effects of the essential elements despite differences in their physicochemical properties.     

Measurement of adenine nucleotides in plasma

The goal of this study was to identify the most important variables affecting bioluminescent ATP, ADP and AMP measurements in plasma and to develop an assay that takes these variables into account. Blood samples were drawn from conscious dogs. A ‘stop solution’ containing EDTA was prepared, which greatly retarded plasma ATP degradation by chelating Mg⁺² and Ca⁺² that are co‐factors for many ATPases. Stop solution and blood were mixed using a two‐syringe withdrawal system. Samples were centrifuged twice in order to remove red blood cells, and ATP was measured in the supernatant using the firefly luciferase assay. Sample pH was adjusted to the optimal range (7.75–7.95) and Mg²⁺ (necessary for the luciferase reaction) was added back to the sample within the luminometer 2 s prior to luciferase addition. Four assay tubes were prepared for each plasma sample, containing standard additions of 0–15 pmol added ATP, in order to quantify native plasma ATP content. In separate plasma/stop solution samples ADP + ATP was measured after converting ADP to ATP via the pyruvate kinase reaction, and AMP + ADP + ATP was measured after addition of both myokinase and pyruvate kinase. Addition of forskolin and isobutylmethylxanthine (IBMX) to the stop solution to inhibit platelets resulted in lower ATP concentrations. Measurement of ATP and haemoglobin from lysed erythrocytes revealed that haemolysis exerts a strong influence on plasma ATP concentration that must be taken into account. Copyright © 2003 John Wiley & Sons, Ltd.     

Reactions of tubulin-associated guanine nucleotides

Only exchangeably bound nucleotide (E-site) is involved in the reaction of the transplhosphorylase activity in microtubular protein. Contrary to earlier reports, we find that the nonexchangeable nucleotide (N-site) is not a substrate. This conclusion is based upon comparison of: (a) rates of hydrolysis of endogenous tubulin-associated GTP and added [32p]GTP: (b) hydrolysis rates for added [32p]GTP and [3h]GTP; (c) the 32P/3H ratio in bound and free GTP after reaction with [3h, 32p]gTP. During the course of the above studies we have made the unusual observation of a time dependent augmentation in the expected amount of GTP relative to GDP at the E-site; there is either a net conversion of E-site GDP to E-site GTP, or a means for providing additional E-site GTP from another source.     

Annexin VI interacts with adenine nucleotides and their analogs.

Annexin VI (AnxVI), a member of the annexin family of Ca2+- and membrane-binding proteins, has been shown to interact in vitro with adenine nucleotides. Furthermore, it has been proposed that within the AnxVI molecule a nucleotidde-binding domain exists, which is located in the C-terminal half of the protein, in the vicinity of Trp343. By comparison of exposure of tryptophan and multiple tyrosine residues upon nucleotide binding, as revealed by quenching of intrinsic fluorescence of AnxVI by ATP, ADP or cAMP, it can be concluded that the binding of nucleotides evokes changes in the protein tertiary structure. Moreover, in the course of present study we have found that AnxVI binds to a non-hydrolysable analog of ATP, the triazine dye Cibacron blue 3GA (CB3GA), immobilized on agarose. Binding reveals negative cooperativity with respect to protein concentration and is Ca2+-dependent. Binding is prevented by ATP. CB3GA binds to AnxVI also in solution, evoking the formation of annexin multimers. On the basis of this observation it can be suggested that interaction of CB3GA with AnxVI is useful to examine, with some limitations, the self-association of annexin molecules implying to play a role in interacting of AnxVI with biological membranes.     

Synaptic vesicle protein 2 binds adenine nucleotides

Synaptic vesicle protein 2 (SV2) is required for normal calcium-regulated secretion of hormones and neurotransmitters. Neurons lacking the two most widely expressed isoforms, SV2A and SV2B, have a reduced readily releasable pool of synaptic vesicles, indicating that SV2 contributes to vesicle priming. The presence of putative ATP-binding sites in SV2 suggested that SV2 might be an ATP-binding protein. To explore this, we examined the binding of the photoaffinity reagent 8-azido-ATP[gamma] biotin to purified, recombinant SV2 in the presence and absence of other nucleotides. Our results indicate that SV2A and SV2B bind nucleotides, with the highest affinity for adenine-containing nucleotides. SV2A contains two binding sites located in the cytoplasmic domains preceding the first and seventh transmembrane domains. These results suggest that SV2-mediated vesicle priming could be regulated by adenine nucleotides, which might provide a link between cellular energy levels and regulated secretion.     

Elevated intramitochondrial adenine nucleotides and mitochondrial function

Several groups of investigators have shown that treatment of rats with glucagon produces an increase in the adenine nucleotide content of hepatic mitochondria. It has been suggested that this enlarged pool of exchangeable nucleotides may be responsible for several of glucagon's stimulatory effects on mitochondrial functions by accelerating the transport of adenine nucleotides across the inner mitochondrial membrane. This hypothesis was tested by loading rat liver mitochondria in vitro with adenine nucleotides to supranormal levels. This procedure did result in stimulation of several metabolic and bioenergetic functions including pyruvate carboxylation, uncoupler-dependent ATPase, and succinic dehydrogenase activity but not formation of citrulline. However, a sham loading that did not increase the nucleotide content of the mitochondria was essentially as effective as the loading procedure in stimulating those functions assayed. Mitochondria, loaded in vitro with supranormal levels of adenine nucleotides, were shown to have an enlarged pool of exchangeable nucleotides. This exchange was atractyloside sensitive, but the rate of exchange was only slightly increased as a consequence of enlargement of the pool. Similarly, mitochondria isolated from glucagon-treated rats showed no increase in the rate of exchange, although the exchangeable pool was increased. There was no correlation between the rate of nucleotide exchange and the rate of the uncoupler-dependent ATPase.