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Die Bestimmung von Lipoprotein(a) im Plasma mittels kinetischer Nephelometrie (Beckman Instruments) wurde mit einem immunoradiometrischen Assay (Mercodia) verglichen. Untersucht wurden 182 Proben in frischem Zustand und 18 Proben, die für kurze Zeit bei -25 °C gelagert waren. Die Meßergebnisse zeigen eine gute Übereinstimmung der Median werte (147 mg/1 bzw. 160 mg/1) und eine gute Korrelation bei den frischen und den eingefrorenen Proben (r = 0,971/rs= 0,985 bzw. r = 0,971). Die Variationskoeffizienten der Nephelometrie entsprechen mit 4.2% in der Serie (Intraassay) und 5,5-6,5% von Tag zu Tag (Interassay) den bisherigen Literaturwerten. Entgegen der Empfehlung, nur frisches Probenmaterial für die Nephelometrie einzusetzen, wurde bei einer Probe mit einer hohen Lipoprotein(a) Konzentration (960 mg/1) über 5 Wochen keine bedeutende Abnahme der Meßwerte registriert. Um den Einfluß der Triglyzeridkonzentration auf die Lp(a) Bestimmung zu untersuchen, wurden sechs Plasmaproben mit Triglyzeridwerten > 5,75 mmol/1 ausgewählt und in verschiedenen Verdünnungen mit Triglyzeridkonzentrationen zwischen 3,45-8,05 mmol/1 analysiert. Während 4 Proben keinen Einfluß der Triglyzeridkonzentration zeigten, wurde bei 2 Proben ein geringer Abfall der Lipoprotein(a) Meßwerte mit steigender Triglyzeridkonzentration beobachtet.
The effect of a single site mutation of Arg-54 to methionine in Paracoccus denitrificans cytochrome c oxidase was studied using a combination of optical spectroscopy, electrochemical and rapid kinetics techniques, and time-resolved measurements of electrical membrane potential. The mutation resulted in a blue-shift of the heme a alpha-band by 15 nm and partial occupation of the low-spin heme site by heme O. Additionally, there was a marked decrease in the midpoint potential of the low-spin heme, resulting in slow reduction of this heme species. A stopped-flow investigation of the reaction with ferrocytochrome c yielded a kinetic difference spectrum resembling that of heme a(3). This observation, and the absence of transient absorbance changes at the corresponding wavelength of the low-spin heme, suggests that, in the mutant enzyme, electron transfer from Cu(A) to the binuclear center may not occur via heme a but that instead direct electron transfer to the high-spin heme is the dominating process. This was supported by charge translocation measurements where Deltapsi generation was completely inhibited in the presence of KCN. Our results thus provide an example for how the interplay between protein and cofactors can modulate the functional properties of the enzyme complex.
In cultured human endothelial cells, physiological levels of NO prevent apoptosis and interfere with the activation of the caspase cascade. In vitro data have demonstrated that NO inhibits the activity of caspase-3 by S-nitrosation of the enzyme. Here we present evidence for the in vivo occurrence and functional relevance of this novel antiapoptotic mechanism. To demonstrate that the cysteine residue Cys-163 of caspase-3 is S-nitrosated, cells were transfected with the Myc-tagged p17 subunit of caspase-3. After incubation of the transfected cells with different NO donors, Myc-tagged p17 was immunoprecipitated with anti-Myc antibody. S-Nitrosothiol was detected in the immunoprecipitate by electron spin resonance spectroscopy after liberation and spin trapping of NO by N-methyl-D-glucamine-dithiocarbamate-iron complex. Transfection of cells with a p17 mutant, where the essential Cys-163 was mutated into alanine, completely prevented S-nitrosation of the enzyme. As a functional correlate, in human umbilical vein endothelial cells the NO donors sodium nitroprusside or PAPA NONOate (50 microM) significantly reduced the increase in caspase-3-like activity induced by overexpressing caspase-3 by 75 and 70%, respectively. When human umbilical vein endothelial cells were cotransfected with beta-galactosidase, morphological analysis of stained cells revealed that cell death induction by overexpression of caspase-3 was completely suppressed in the presence of sodium nitroprusside, PAPA NONOate, or S-nitroso-L-cysteine (50 microM). Thus, NO supplied by exogenous NO donors serves in vivo as an antiapoptotic regulator of caspase activity via S-nitrosation of the Cys-163 residue of caspase-3.
Cytochrome c oxidase catalyzes the reduction of oxygen to water. This process is accompanied by the vectorial transport of protons across the mitochondrial or bacterial membrane (“proton pumping”). The mechanism of proton pumping is still a matter of debate. Many proposed mechanisms require structural changes during the reaction cycle of cytochrome c oxidase. Therefore, the structure of the cytochrome c oxidase was determined in the completely oxidized and in the completely reduced states at a temperature of 100 K. No ligand exchanges or other major structural changes upon reduction of the cytochrome coxidase from Paracoccus denitrificans were observed. The three histidine CuB ligands are well defined in the oxidized and in the reduced states. These results are hardly compatible with the “histidine cycle” mechanisms formulated previously.
Nitric oxide donors induce stress signaling via ceramide formation in rat renal mesangial cells
(1999)
Exogenous NO is able to trigger apoptosis of renal mesangial cells, and thus may contribute to acute lytic phases as well as to resolution of glomerulonephritis. However, the mechanism involved in these events is still unclear. We report here that chronic exposure of renal mesangial cells for 24 h to compounds releasing NO, including spermine-NO, (Z)-1-{N-methyl-N-[6-(N-methylammoniohexyl)amino]}diazen-1-ium-1,2-diolate (MAHMA-NO), S-nitrosoglutathione (GS-NO), and S-nitroso-N-acetyl-d,l-penicillamine (SNAP) results in a potent and dose-dependent increase in the lipid signaling molecule ceramide. Time courses reveal that significant effects occur after 2–4 h of stimulation with NO donors and reach maximal levels after 24 h of stimulation. No acute (within minutes) ceramide production can be detected. When cells were stimulated with NO donors in the presence of phorbol ester, a direct activator of protein kinase C, both ceramide production and DNA fragmentation are completely abolished. Furthermore, addition of exogenous ceramide partially reversed the inhibitory effect of phorbol ester on apoptosis, thus suggesting a negative regulation of protein kinase C on ceramide formation and apoptosis. In contrast to exogenous NO, tumor necrosis factor (TNF)-α stimulates a very rapid and transient increase in ceramide levels within minutes but fails to induce the late-phase ceramide formation. Moreover, TNF fails to induce apoptosis in mesangial cells. Interestingly, NO and TNFα cause a chronic activation of acidic and neutral sphingomyelinases, the ceramide-generating enzymes, whereas acidic and neutral ceramidases, the ceramide-metabolizing enzymes, are inhibited by NO, but potently stimulated by TNFα. Furthermore, in the presence of an acidic ceramidase inhibitor,N-oleoylethanolamine, TNFα leads to a sustained accumulation of ceramide and in parallel induces DNA fragmentation. In summary, our data demonstrate that exogenous NO causes a chronic up-regulation of ceramide levels in mesangial cells by activating sphingomyelinases and concomitantly inhibiting ceramidases, and that particularly the late-phase of ceramide generation may be responsible for the further processing of a proapoptotic signal.
Time-resolved Fourier transform infrared difference spectra of the phosphoenzyme conversion and Ca(2+) release reaction (Ca(2)E(1)-P --> E(2)-P) of the sarcoplasmic reticulum Ca(2+)-ATPase were recorded at pH 7 and 1 degrees C in H(2)O and (2)H(2)O. In the amide I spectral region, the spectra indicate backbone conformational changes preserving conformational changes of the preceding phosphorylation step. beta-sheet or turn structures (band at 1685 cm(-1)) and alpha-helical structures (band at 1653 cm(-1)) seem to be involved. Spectra of the model compound EDTA for Ca(2+) chelation indicate the assignment of bands at 1570, 1554, 1411 and 1399 cm(-1) to Ca(2+) chelating Asp and Glu carboxylate groups partially shielded from the aqueous environment. In addition, an E(2)-P band at 1638 cm(-1) has been tentatively assigned to a carboxylate group in a special environment. A Tyr residue seems to be involved in the reaction (band at 1517 cm(-1) in H(2)O and 1515 cm(-1) in (2)H(2)O). A band at 1192 cm(-1) was shown by isotopic replacement in the gamma-phosphate of ATP to originate from the E(2)-P phosphate group. This is a clear indication that the immediate environment of the phosphoenzyme phosphate group changes in the conversion reaction, altering phosphate geometry and/or electron distribution.
We have developed two independent methods to measure equilibrium binding of inhibitors to membrane-bound and partially purified NADH:ubiquinone oxidoreductase (complex I) to characterize the binding sites for the great variety of hydrophobic compounds acting on this large and complicated enzyme. Taking advantage of a partial quench of fluorescence upon binding of the fenazaquin-type inhibitor 2-decyl-4-quinazolinyl amine to complex I in bovine submitochondrial particles, we determined a Kd of 17 +/- 3 nM and one binding site per complex I. Equilibrium binding studies with [3H]dihydrorotenone and the aminopyrimidine [3H]AE F119209 (4(cis-4-[3H]isopropyl cyclohexylamino)-5-chloro-6-ethyl pyrimidine) using partially purified complex I from Musca domestica exhibited little unspecific binding and allowed reliable determination of dissociation constants. Competition experiments consistently demonstrated that all tested hydrophobic inhibitors of complex I share a common binding domain with partially overlapping sites. Although the rotenone site overlaps with both the piericidin A and the capsaicin site, the latter two sites do not overlap. This is in contrast to the interpretation of enzyme kinetics that have previously been used to define three classes of complex I inhibitors. The existence of only one large inhibitor binding pocket in the hydrophobic part of complex I is discussed in the light of possible mechanisms of proton translocation.
Naturschutz-Info 1/99
(1999)