Hydroxyl free radical production in iron-cysteine solutions and protection by zinc

Hydroxyl radicals (OH^?) can be formed on incubation of an oxygenated solution of ferrous sulphate and cysteine. This has been demonstrated by esr using the spin trap DMPO (5,5-dimethyl-1-pyrroline-1-oxide), catalase, and the radical scavengers ethanol and propan-2-ol. Hydroxyl radicals are not formed when excess zinc sulphate is present. These results provide support for the pro-oxidant action of iron and cysteine and a possible protective role for zinc.     

Enzymatic deacylations of esterified saccharides--III. Comparison of de-esterifications by serum esterases from different sources

1. 14C-labelled methyl 2,6-di-O-pivaloyl-alpha-D-glucopyranoside (1) was used as a substrate for esterases from rabbit, guinea pig, mouse, donkey, pig, horse, sheep and human sera. 2. Stepwise de-esterification of the diester substrate 1 occurred with rabbit, guinea pig and mouse serum. Data on time-course experiments and kinetic data are reported. 3. The use of donkey, pig, horse, sheep and human serum led to the migration of the 2-O-pivaloyl group in substrate 1 to the position 4- in the sugar molecule, followed by stepwise de-esterifications of both 1 and the newly formed methyl 4,6-di-O-pivaloyl-alpha-D-glucopyranoside (4). A report is given on the time-course experiments.     

On the estimation of hip joint loads through musculoskeletal modeling

Biomechanics and Modeling in Mechanobiology - Noninvasive estimation of joint loads is still an open challenge in biomechanics. Although musculoskeletal modeling represents a solid resource,...     

Metabolism of nitroxide spin labels in subcellular fraction of rat liver: I. Reduction by microsomes

As part of an ongoing study of the role of subcellular fractions on the metabolism of nitroxides, we studied the metabolism of a set of seven nitroxides in microsomes obtained from rat liver. The nitroxides were chosen to provide information on the effects of the type of charge, lipophilicity and the ring on which the nitroxide group is locted Important variables that were studied included adding NADH, adding, induction of enzymed by intake of phenobarbital and the effects of oxygen. Reduction of nonparamagnetic derivatives and oxidation to paramagnetic derivatives were measured by electron-spin resonance spectroscopy. In general, the relative rates of reduction of nitroxides were similar to those observed with intact cells, but the effects of the various variables that were studied often differed from those observed in intact cells. The rates of reduction were very slow in the absence of added NADh or NADPH. The relative effect of these two nucleotides changed when animals were fed phenobarbital and paralleled the levels of NADPH cytochrome c reductase, cytochrome P-450, cytochrome b₅ and NADH cytochrome c reductase; results with purified NADPH-cytochrome c reductase were consistent with these results. In microsomes from uninduced animals the rate of reduction was about 10-fold higher in the absence of oxygen. The products of reduction of nitroxides by microsomes were the corresponding hydroxylmines. We conclude that there are significant NADH- and NADPH-dependent paths for reduction of nitroxides by hepatic microsomes, probably involving cytochrome c reductases and not directly involving cytochrome P-450. From this, and from parallel studies now in progress in our laboratory, it seems likely that metabolism by microsomes is an important site of reduction of nitroxides. However, mitochondrial metabolism seems to play an even more important role in intact cells.