Characteristics of NADPH-dependent thymidylate synthetase purified from Streptomyces aureofaciens.

NADPH-dependent thymidylate synthetase from Streptomyces aureofaciens has been purified to homogenity by a two-step chromatographic procedure including anion-exchange chromatography and affinity chromatography on methotrexate-Sepharose 4B. The enzyme was purified 1025-fold with a 34% yield. Basic characteristics of the enzyme were determined: molecular weight of the enzyme subunit (28,000), pH and temperature optimum, effect of cations, dependency on reducing agents, Km values for dUMP, mTHF, and NADPH (3.78, 21.1, and 38.9 microM, respectively), and inhibition effect of 5-FdUMP. Binding studies revealed the enzyme mechanism to be ordered sequential: dUMP bound before mTHF. S. aureofaciens thymidylate synthetase exhibits an absolute requirement for NADPH for the enzyme activity--a unique feature not displayed by any of the thymidylate synthetases isolated so far. NADPH is not consumed during enzyme reaction, indicating its regulatory role. The properties of S. aureofaciens thymidylate synthetase show that it is a monofunctional bacterial enzyme.     

Ion transport systems as targets of free radicals during ischemia reperfusion injury

Oxidative stress is a recognized pathogenic factor in ischemia/reperfusion injury (IRI). Iron induced generation of reactive oxygen species (ROS) in vitro reduces both the Na+K+-ATPase activity and Na+-Ca2+ exchanger of synaptosomal membranes, concomitantly with alteration of physical state of membranes. Oxidative insult also leads to the loss of ability of endoplasmic reticular membranes (ER) to sequester Ca2+ as well as to the increase of Ca2+ permeability. Furthermore, ROS induces both lipid peroxidation and lipid-independent modifications of membrane proteins. Acute in vivo ischemia alters kinetic parameters of Na+K+-ATPase affecting mainly the dephosphorylation step of ATPase cycle with parallel changes of Na+-Ca2+ exchanger and alterations of physical membrane environment. Subsequent reperfusion after ischemia is associated with decrease of immuno signal for PMCA 1 isoform in hippocampus. In addition, incubation of non-ischemic membranes with cytosol from ischemic hippocampus decreases level of PMCA 1 in non-ischemic tissues. Loss of PMCA 1 protein is partially protected both by calpain- and by non-specific protease inhibitors which suggest possible activation of proteases in the reperfusion period. On the other hand, ischemia does not affect the level of Ca2+ pump (SERCA 2b) and calreticulin of intracellular Ca2+ stores. However, IRI resulted in a decrease of IP3 receptor I and altered active Ca2+ accumulation into the ER. A non-specific alteration of physical properties of total membranes such as the oxidative modifications of proteins as well as the content of lipoperoxidation products can also be detected after IRI. ROS can alter physical and functional properties of neuronal membranes. We discuss our results suggesting that ischemia-induced disturbation of ion transport systems may participate in or follow delayed death of neurons after ischemia.     

Effect of hyperhomocysteinemia on rat cardiac sarcoplasmic reticulum

Molecular and Cellular Biochemistry - Increased concentration of plasma homocysteine (Hcy) is an independent risk factor of cardiovascular disease, yet the mechanism by which hyperhomocysteinemia...     

Oxidative alternations in rat heart homogenate and mitochondria during ageing

Our understanding of the role played by reactive oxygen and nitrogen species in disease pathology and ageing is still insufficient. Reactive oxygen species and reactive nitrogen species can initiate protein and lipid oxidative damage that may be the most important contribution to ageing and age-related heart diseases. In the present study, we investigated the effect of ageing on oxidative damage of protein amino acid residues and lipids in heart homogenate and mitochondria of 4- and 26-month-old Wistar rats. Levels of dityrosine and levels of lysine conjugates increased in heart homogenate during ageing, although levels of conjugated dienes did not change. We observed significantly oxidative modification of tryptophan in heart mitochondria and increased levels of dityrosine with advancing age. However, levels of lysine conjugates, conjugated dienes as well as relative level of cytochrome c oxidase were unchanged in heart mitochondria during ageing. The results of this study suggest a different mechanism of oxidative modification in heart compartments during ageing and moreover, mitochondria and other cellular compartments are targets for oxidative modifications.     

Distribution of plasma membrane Ca2+ pump (PMCA) isoforms in the gerbil brain: effect of ischemia-reperfusion injury.

Non-species isoform-specific antibodies against three isoforms of the plasma membrane Ca2+ pump (PMCA) were used for immuno-localization of PMCA by Western blot analysis in membrane preparations isolated from different regions of gerbil brain. All three gene products were detected in the membranes from hippocampus, cerebral cortex and cerebellum. However, they showed a distinct distribution pattern. Two proteins were revealed in the case of PMCA1 with molecular masses 129 and 135 kDa. The antibody against PMCA2 recognized three proteins of about 130-137 kDa. Only one protein was detected with the anti-PMCA3 antibody. Levels of immuno-signal for the PMCA isoforms varied significantly among the different brain regions. The PMCA1 is the most abundant in the cerebro-cortical and hippocampal membrane preparations. The PMCA2 was detected in a lesser amount comparing to PMCA1 and was highest in the membrane preparations from cerebellum and in a slightly lesser amount from cerebral cortex. Anti-PMCA3 antibody stained weakly and was localized in the cerebellar and hippocampal membrane preparations. Transient forebrain ischemia (10 min) and reperfusion (for a prolonged period up to 10 d) leads to a significant decrease of PMCA immuno-signal. This decrease could be ascribed to the loss of PMCA1 signal, especially in hippocampal membrane preparations.     

Iron-induced lipid peroxidation and protein modification in endoplasmic reticulum membranes. Protection by stobadine

Treatment with FeSO(4)/EDTA (0.2 micromol Fe(II) per mg of protein) was used to study the effect of oxidative stress on lipid peroxidation and structural properties of endoplasmic reticulum (ER) membranes isolated from rabbit brain. Oxidative stress resulted in conjugated diene formation and a decrease of 1-anilino-8-naphthalenesulfonate (ANS) fluorescence in a time-dependent manner. In contrast, fluorescence anisotropy of 1, 6-diphenyl-1,3,5-hexatriene was increased early after the initiation of lipid peroxidation and no further increase was observed after 1, 2 and 3 h of peroxidation. FeSO(4)/EDTA treatment was accompanied by formation of conjugates of lipid peroxidation products with membrane proteins, as detected by the increase in fluorescence excitation (350-360 nm) and emission (440-450 nm) maximum. Oxidative stress also induced a marked decrease of the intrinsic fluorescence of aromatic amino acids, suggesting modification or changes in the environment of these amino acid residue(s). The lipid antioxidant, stobadine, completely prevented the changes of ANS fluorescence and production of peroxidized lipid-protein conjugates whereas tryptophan fluorescence was only partially protected. These results suggest that Fe(II) induces both lipid-mediated- and lipid peroxidation independent-modification of ER membrane proteins. The study also demonstrates that stobadine is a potent inhibitor of Fe(II)-induced protein modification.     

Ischemia-Induced Inhibition of Mitochondrial Complex I in Rat Brain: Effect of Permeabilization Method and Electron Acceptor

In this study we have examined the effect of global brain ischemia/reperfusion on biochemical properties of the mitochondrial respiratory complex I (CI) in rat hippocampus and cortex. Since the inner mitochondrial membrane forms the permeability barrier for NADH, the methodology of enzymatic activity determinations employs membrane permeabilization methods. This action affects the basic character of electrostatic and hydrophobic interactions inside the membrane and might influence functional properties of membrane embedded proteins. Therefore we have performed the comparative analysis of two permeabilization methods (sonication, detergent) and their impact on CI enzymatic activities under global brain ischemic-reperfusion conditions. We have observed that ischemia led to significant decrease of CI activities using both permeabilization methods in both brain areas. However, significant differencies in enzymatic activities were registered during reperfusion intervals according to used permeabilization method. We have also tested the effect of electron acceptors (decylubiquinone, potassium ferricyanide, nitrotetrazolium blue) on CI activities during I/R. Based on our results we assume that the critical site where ischemia affects CI activities is electron transfer to electron acceptor. Further, the observed mitochondrial dysfunction was analyzed by means of one and 2-dimensional BN PAGE/SDS PAGE with the focus on 3-nitrotyrosine immunodetection as a marker of oxidative damage to proteins. Add to this, initialization of p53 mitochondrial apoptosis through p53, Bax, Bcl-X_L proteins and a possible involvement of GRIM-19, the CI structural subunit, in apoptotic processes were also studied.     

A Long Mortichnial Trackway of Mesolimulus walchi from the Upper Jurassic Solnhofen Lithographic Limestone near Wintershof,Germany

A 9.7 m long trackway was discovered in a plattenkalk quarry near the village of Wintershof, Bavaria, Germany, in 2002. The huge ichnofossil derives from the Lower Tithonian, Upper Jurassic Solnhofen Lithographic Limestone. The trackway is complete from beginning to end and consists of footprints, telson drag impressions, prosoma imprints and is identified as the ichnotaxon Kouphichnium isp. Preserved at the very end of the trackway is a complete specimen of Mesolimulus walchi confirming the trackway as a mortichnia (death march). Trackways and trace makers preserved together in the fossil record are rare and such specimens allow unique insights into behavior and ecology. The events that led to M. walchi preserved in this sediment are unknown; however, a most likely scenario is that the limulid was washed into the lagoonal environment during a harsh storm.