Adenosine diphosphoribose transfer reactions catalyzed by Bungarus fasciatus venom NAD glycohydrolase

Reactions catalyzed by purified Bungarus fasciatus venom NAD glycohydrolase were demonstrated to include ADP-ribose transfer from NAD to alcohols and to imidazole derivatives to produce a variety of ADP-ribosides. The formation of products was monitored by high performance liquid chromatography. In the enzyme-catalyzed alcoholysis of NAD, the ratio of n-alkyl-ADP-riboside formed to the hydrolytic product, ADP-ribose, increased linearly with alcohol concentration. The effectiveness of alcohols as acceptors of the ADP-ribose moiety in these reactions increased with increasing chainlength of the alcohol used. Linear positive chainlength effects extended from methanol to pentanol suggesting facilitation of these reactions by nonpolar interactions. In the methanolysis reaction, NADP, thionicotinamide adenine dinucleotide, nicotinamide-1, N6-ethenoadenine dinucleotide, and 3-acetylpyridine adenine dinucleotide were shown to be as effective as NAD as donor substrates. The NAD glycohydrolase-catalyzed ADP-ribose transfer to pyridine bases to form NAD analogs was studied at pyridine base concentrations above those determined to be saturating for the base exchange reaction. Under these conditions, the ratio of base exchange to hydrolysis of NAD was directly related to the pKa of the ring nitrogen of the pyridine base employed. In addition to alcoholysis and pyridine-base exchange reactions, the snake venom enzyme was demonstrated to catalyze an ADP-ribose transfer reaction to imidazole derivatives. Arginine methyl ester was ineffective as an ADP-ribose acceptor molecule in these reactions.     

Oxygen fixation into hydroxyproline in etiolated maize seedlings : verification by tandem mass spectrometry

Etiolated maize (Zea mays L.) seedlings were grown in the dark for 5 days in an atmosphere enriched with 10.0 atom% ¹⁸O₂. Hydroxyproline was isolated from root and shoot tissues, purified, and methylated. It was not possible to determine ¹⁸O incorporation into hydroxyproline by conventional mass spectrometry because the final product was not sufficiently pure. The final product was analyzed successfully by tandem mass spectrometry. The ¹⁸O content of the hydroxyl oxygen atom was 10 ± 0.7 atom%. This result demonstrates that the hydroxyl oxygen atom in hydroxyproline was derived exclusively from molecular oxygen.     

Metabolic activation of the pneumotoxin, 3-methylindole, by vaccinia-expressed cytochrome P450s

Twelve human cytochrome P450s and one mouse P450 were produced in HepG2 cells using vaccinia virus cDNA expression and analyzed for their ability to bioactivate the pneumotoxin, 3-methylindole (3MI), to an electrophilic metabolite(s) which alkylated cellular macromolecules. Cell lysates containing CYP2C8, CYP3A4, CYP2A6 and CYP2F1 metabolized 3MI to an intermediate(s) that became covalently bound to lysate material. A control lysate produced from cells which had been infected with a wild-type vaccinia virus was not able to bioactivate 3MI. The mouse 1A2 enzyme metabolized 3MI at a rate of 75.4 pmol/mg protein/minute, while the rate of metabolism in the lysate containing the human 1A2 P450 enzyme was not different from that in the control lysate. Therefore, the catalytic capabilities of orthologous P450 enzymes to activate 3MI cannot be extrapolated among different species. These results indicate that human P450s are capable of bioactivating 3MI to a metabolite which binds to cellular macromolecules suggesting that this compound may be toxic to humans.     

Superoxide and hydrogen peroxide in oxygen damage.

Escherichia coli were damaged and killed by exposure to hyperbaric oxygen. Lethality was measured as the decrease in the number of colonies formed upon plating the exposed cells onto rich agar. Damage was assessed by plating onto both rich and minimal agar. Cells which gave rise to visible colonies on rich but not on minimal agar were considered to be damaged. That this differential colony count was largely due to reparable damage rather than to stable mutagenesis was shown by replica plating from the rich onto the minimal agar. Most of the cells which had been unable to grow when directly plated onto minimal agar regained this ability after growth upon rich agar. Repair of the damage imposed by exposure to oxygen was thus more readily accomplished on a nutritionally rich medium. The enzymes superoxide dismutase, catalase, and peroxidase appeared to protect against oxygen damage. It is thus likely that both O₂^? and H₂O₂ are important agents of oxygen toxicity. In accord with this conclusion were the observations that augmented intracellular levels of these enzymes correlated with increased resistance towards oxygen damage, whereas increased respiratory capacity correlated with increased sensitivity towards hyperbaric oxygen.     

Purification and properties of the soluble NAD glycohydrolase from Bungarus fasciatus venom

The NAD glycohydrolase (NADase) (EC 3.2.2.5) from Bungarus fasciatus (banded krait) venom was purified (1000-fold) to electrophoretic homogeneity through a 3-step purification procedure, the last step being affinity chromatography on Cibacron blue agarose. The purified NADase is a glycoprotein containing two subunits of Mr = 62,000 each. Nicotinamide and adenosine diphosphoribose were produced in a 1:1 stoichiometry and were the only products formed when the purified NADase was incubated with NAD. These results were confirmed by high performance liquid chromatography. The enzyme exhibited a brod pH profile with optimum pH for hydrolysis at 7.5 with very little change in Km from pH 6.0 to pH 8.5. The NADase is only slightly affected by changes in ionic strength. The enzyme studied titrimetrically at pH 7.5 and 38 degrees C exhibited a Km of 14 microM and a Vmax of 1380 mumol of NAD cleaved/min/mg of protein. The activation energy for the enzyme-catalyzed hydrolysis of NAD was 15.7 kcal/mol. In addition to NAD and NADP, a number of NAD analogs were shown to function as substrates for the enzyme. Product inhibition studies demonstrated nicotinamide to be a noncompetitive inhibitor with a KI of 1.5 mM and adenosine diphosphoribose a competitive inhibitor with a KI of 0.36 mM. Procion blue HB (Cibacron blue F3GA) was shown to be a competitive inhibitor with a KI of 33 nmol. The purified NADase catalyzed the pyridine base exchange reaction between 3-acetylpyridine and the nicotinamide moiety of NAD.     

TWIK-2, a new weak inward rectifying member of the tandem pore domain potassium channel family

Potassium channels are found in all mammalian cell types, and they perform many distinct functions in both excitable and non-excitable cells. These functions are subserved by several different families of potassium channels distinguishable by primary sequence features as well as by physiological characteristics. Of these families, the tandem pore domain potassium channels are a new and distinct class, primarily distinguished by the presence of two pore-forming domains within a single polypeptide chain. We have cloned a new member of this family, TWIK-2, from a human brain cDNA library. Primary sequence analysis of TWIK-2 shows that it is most closely related to TWIK-1, especially in the pore-forming domains. Northern blot analysis reveals the expression of TWIK-2 in all human tissues assayed except skeletal muscle. Human TWIK-2 expressed heterologously in Xenopus oocytes is a non-inactivating weak inward rectifier with channel properties similar to TWIK-1. Pharmacologically, TWIK-2 channels are distinct from TWIK-1 channels in their response to quinidine, quinine, and barium. TWIK-2 is inhibited by intracellular, but not extracellular, acidification. This new clone reveals the existence of a subfamily in the tandem pore domain potassium channel family with weak inward rectification properties.     

Weight Regain Following Sustained Weight Reduction is Predicted by Relative Insulin Sensitivity

YOST, TRUDY J, DALAN R JENSEN AND ROBERT H ECKEL. Weight regain following sustained weight reduction is predicted by relative insulin sensitivity. Obes Res. Ten moderately obese women (body mass index 34.9 ± 1.1 kg/m² mean ± SEM), had previously been through a 3-month weight loss program followed by 3 months of weight maintenance at the reduced weight. A euglycemic clamp for determination of insulin sensitivity was performed on each subject prior to weight loss, and another at the end of the weight maintenance phase. The mean weight loss for the group was 11.4 ± 2.2 kg. The women were then seen for follow-up weights 12 months and 18 months after the conclusion of the weight maintenance period. All of the women except one had regained their weight by the time of the 12-month visit. It was found that the amount of weight regained both at 12 months and 18 months was correlated with the change in insulin sensitivity which occurred from the baseline study to after weight loss/maintenance. The data indicate that increased insulin sensitivity following sustained weight loss in obese women predicts weight regain.     

Patch size effects are more important than genetic diversity for plant–herbivore interactions in Brassica crops

1. Considerable evidence suggests that the diversity within plant communities may strongly affect the strength of species interactions, but the majority of studies only considered interspecific diversity. 2. This paper examines the effect of intraspecific genetic diversity within Brassica fields on two Brassica specialists, cabbage root fly, and diamondback moth, and on a parasitoid attacking diamondback moths. Genetic diversity was manipulated both in a replacement and an additive design. 3. Both herbivore densities and parasitism rates were higher in smaller plots, with limited responses to increased within‐plot diversity. All species showed variable densities across genotypes, and preference hierarchies were species specific. 4. Responses to plot size in root flies scaled with the diameter‐to‐area ratio, suggesting that patch detectability affected local density, whereas responses by diamondback moths and parasitoids deviated from this ratio. These species differences could be traced to differences in the residence time within patches, where diamondback moths typically spend longer and more variable time periods in patches than root flies. 5. The lack of response to genetic diversity by both herbivores suggests that egg‐laying rates are affected by decisions on the plant and not by attraction from a distance, neither to the plant itself nor the patch. Patterns of differential attack may then be due to different acceptability for studied genotypes. 6. Future theories on insect responses to spatial heterogeneity should focus on species traits and how traits interact with information landscapes in the field.