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91.
Exogenous nitric oxide triggers classic ischemic preconditioning by preventing intracellular Ca2+ overload in cardiomyocytes 总被引:1,自引:0,他引:1
The involvement of nitric oxide (NO) in the late phase of ischemic preconditioning is well established. However, the role of NO as a trigger or mediator of "classic preconditioning" remains to be determined. The present study was designed to investigate the effects of NO on calcium homeostasis in cultured newborn rat cardiomyocytes in normoxia and hypoxia. We found that treatment with the NO donor, sodium nitroprusside (SNP) induced a sustained elevation of intracellular calcium level ([Ca(2+)](i)) followed by a decrease to control levels. Elevation of extracellular calcium, which generally occurs during ischemia, caused an immediate increase in [Ca(2+)](i) and arrhythmia in cultures of newborn cardiomyocytes. Treatment with SNP decreased [Ca(2+)](i) to control levels and re-established synchronized beating of cardiomyocytes. A decrease in extracellular [Na(+)], which inhibits the Na(+)/Ca(2+) exchanger, did not prevent [Ca(2+)](i) reduction by SNP. In contrast, application of thapsigargin, an inhibitor of sarcoplasmic reticulum Ca(2+)-ATPase (SERCA2a), increased [Ca(2+)](i), and in its presence, SNP did not reduce [Ca(2+)](i), indicating that Ca(2+) reduction is achieved via activation of SERCA2a. The results obtained suggest that activation of SERCA2a by SNP increases Ca(2+) uptake into the sarcoplasmic reticulum (SR) and prevents cytosolic Ca(2+) overload, which might explain the protective effect of SNP from hypoxic damage. 相似文献
92.
We demonstrate a calculated alpha-helix peptide folding energy landscape which accurately simulates the first experimentally measured alpha-helix melting energy landscape. We examine a 21-amino acid, mainly polyalanine peptide and calculate the free energy along the Psi Ramachandran angle secondary folding coordinate. The experimental free energy landscape was determined using UV resonance Raman spectroscopy. The relative free energy values are very close as are the equilibrium peptide conformations. We find 2.3 kcal/mol activation barriers between the alpha-helix-like and PPII-like basins. We also find that the alpha-helix-like conformations are quite defective and the alpha-helix-like structure dynamically samples 310-helix and pi-bulges. 相似文献
93.
Nieva J Shafton A Altobell LJ Tripuraneni S Rogel JK Wentworth AD Lerner RA Wentworth P 《Biochemistry》2008,47(29):7695-7705
Antibody light chain (LC) aggregation in vivo leads to the systemic deposition of Ig light chain domains in the form of either amyloid fibrils (AL-amyloidosis) or amorphous deposits, light-chain deposition disease (LCDD), in mainly cardiac or renal tissue and is a pathological condition that is often fatal. Molecular factors that may contribute to the propensity of LCs to aggregate in vivo, such as the protein primary structure or local environment, are intensive areas of study. Herein, we show that the aggregation of a human antibody kappa-(kappa-MJM) and lambda-(lambda-L155) light chain (1 mg/mL) can be accelerated in vitro when they are incubated under physiologically relevant conditions, PBS, pH 7.4 and 37 degrees C, in the presence of a panel of biologically relevant lipid-derived aldehydes, 4-hydroxynonenal (4-HNE), malondialdehyde (MDA), glyoxal (GLY), atheronal-A (KA), and atheronal-B (ALD). Thioflavin-T (ThT) and Congo Red (CR) binding assays coupled with turbidity studies reveal that this aldehyde-induced aggregation can be associated with alteration of protein secondary structure to an increased beta-sheet conformation. We observed that the nature of the conformational change is primarily dependent upon the lipidic aldehyde studied, not the protein sequence. Thus, the cholesterol 5,6-secosterols, KA and ALD, cause an amorphous-type aggregation which is ThT and CR negative for both the kappa-MJM and lambda-L155 light chains, whereas 4-HNE, MDA, and GLY induce aggregates that bind both ThT and CR. TEM analysis revealed that amyloid fibrils were formed during the 4-HNE-mediated aggregation of kappa-MJM and lambda-L155 light chains, whereas ALD-induced aggregates of these LCs where amorphous in nature. Kinetic profiles of LC aggregation reveal clear differences between the aldehydes, KA and ALD, causing a classic nucleated polymerization-type aggregation, with a lag phase (of approximately 150 h) followed by a growth phase that plateaus, whereas 4-HNE, MDA, and GLY trigger a seeded-type aggregation process that has no lag phase. In-depth studies of the 4-HNE-accelerated aggregation of kappa-MJM and lambda-L155 reveal a clear aldehyde concentration dependence and a process that can be inhibited by the naturally occurring osmolyte trimethylamine N-oxide (TMAO). Given these data, we feel our recently discovered paradigm of inflammatory aldehyde-induced protein misfolding may now extend to LC aggregation. 相似文献
94.
Silber Avner Ben-Jaacov Jaacov Ackerman Alexander Bar-Tal Asher Levkovitch Irit Matsevitz-Yosef Tania Swartzberg Dvora Riov Josef Granot David 《Plant and Soil》2002,245(2):249-260
Phosphorus, an essential plant nutrient, may become toxic when accumulated by plants to high concentrations. Certain plant species such as Verticordia plumosa L. suffer from P toxicity at solution concentrations far lower than most other plant species. In this study, exposure of V. plumosa plants to a solution containing as low as 3 mg l–1 P resulted in significant growth inhibition and typical symptoms of P toxicity. In a wide range of P levels studied, micronutrient concentrations in V. plumosa leaves were within the range considered adequate for optimal growth. Notably, tomato plants with high hexokinase activity due to overexpression of Arabidopsis hexokinase (AtHXK1) exhibited senescence symptoms similar to those of P toxic V. plumosa. The resemblance in senescence symptoms between P-toxic tomato plants and those with high hexokinase activity suggested that increased sugar metabolism could play a role in P toxicity in plants. To test this hypothesis, we determined the amount of hexose phosphate, the product of hexokinase, in V. plumosa leaves grown at various P levels in the nutrient solution. Positive correlations were found between concentration in the medium, P concentration in the plant, hexose phosphate concentration in leaves and P toxicity symptoms. Foliar Zn application suppressed P toxicity symptoms and reduced the level of hexose phosphate in leaves. Furthermore, Zn also inhibited hexokinase activity in vitro. Based on these results we suggest that P toxicity involves sugar metabolism via increased activity of hexokinase that accelerates senescence 相似文献
95.
NONACTIN AND ITS ALKALI COMPLEXES--A Raman spectroscopic study 总被引:1,自引:0,他引:1
I M Asher G D Phillies H E Stanley 《Biochemical and biophysical research communications》1974,61(4):1356-1362
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We examine the utility of SO4(2-), ClO4-, cacodylic acid, and SeO4(2-) as internal intensity standards for Raman spectral measurements of protein structure. We find that 0.1 M SO4(2-) and ClO4- perturb the protein tertiary structure of aquomethemoglobin (met-Hb) and its fluoride (met-HbF) and azide (met-HbN3) complexes. Changes occur for the tryptophan near-UV absorption bands, the iron spin state is altered, and the fluoride ligand affinity decreases. Concentrations of ClO4- and SO4(2-) as low as 0.1 M suppress the met-HbF quaternary R----T transition induced by the allosteric effector inositol hexaphosphate (IHP). In contrast, similar concentrations of cacodylic acid and SeO4(2-) show little effect on the hemoglobin tertiary or quaternary protein structures or upon the R----T transition induced by IHP. We measure the Raman cross sections of cacodylic acid and SeO4(2-) between 218 and 514.5 nm and find that for UV excitation they are ca. 5-fold larger than ClO4- or SO4(2-). Thus, cacodylic acid and selenate can be used at lower concentrations. Cacodylic acid and SeO4(2-) are superior Raman internal intensity standards for protein structural studies. 相似文献