Cytotoxicity-Associated Effects of Reactive Oxygen Species on Endothelin-1 Secretion by Pulmonary Endothelial Cells

In this study bovine pulmonary artery endothelial cells (BPAEC) were used as a model system to investigate the effects of the hypoxanthine–xanthine oxidase (HXXO) oxygen radical donor system on ET-1 secretion into pulmonary vasculature. Incubation of BPAEC with HXXO for 4 h caused a significant reduction in ET-1 secretion, which was significantly offset by allopurinol or catalase, but not by Cu/Zn superoxide dismutase (SOD). ET-1 secretion was also reduced by H₂O₂, and this effect was again significantly offset by catalase. XO alone also reduced ET-1 secretion, but to a significantly lesser degree than did HXXO, and this effect was not offset by allopurinol, catalase, or SOD. None of the oxidant treatments were associated with a loss of immunoreactive ET-1 from endothelial cell medium containing synthetic peptide. The HXXO- and H₂O₂-mediated reductions in ET-1 secretion were accompanied by evidence of reduced cell viability. This loss of viability was absent when cells were treated with HXXO + catalase, allopurinol, or mercaptopropionyl glycine, but not when SOD was present. We conclude that under conditions of oxidative stress, the pulmonary vascular endothelium responds by secreting less ET-1. This may be relevant to its vasodilator functions in the pulmonary vasculature, which would therefore be compromised when the endothelium is exposed to oxidant stress.     

铜锌超氧物歧化酶与过氧化氢反应中羟自由基的形成

应用脱氧核糖降解法研究了离体条件下Cu,Zn-SOD与H2O2反应产生·OH,并对其机理进行了探讨。H2O2可使Cu,Zn-SOD失活,在失活过程中有·OH产生,甲酸钠和苯甲酸钠均能不同程度地保护Cu,Zn-SOD和降低H2O2与Cu,Zn-SOD反应中·OH的产额;热失活SOD也可和H2O2反应生成·OH,且效能高于活性Cu,Zn-SOD;用螫合剂脱去Cu,Zn-SOD的金属辅基后,脱辅基的SOD蛋白不能和H2O2反应产生·OH;Cu2＋和H2O2反应产生·OH的效率很高,而Zn2＋产生·OH的效率很低。实验结果提示Cu,Zn－SOD与H2O2反应产生的·OH可能是SOD活性中心的Cu2＋与H2O2发生Fenton反应的结果．     

吸入高浓度氢气对大鼠慢性阻塞性肺病的保护作用

目的:COPD是严重威胁人类健康的慢性呼吸系统疾病,而目前的治疗手段均不理想。氧化应激在COPD发病机制中发挥重要作用,而氢气具有选择性抗氧化特性。因此探讨氢气对COPD是否具有保护作用具有重要的现实意义。方法:采用被动吸烟法建立大鼠COPD模型,建模成功后对模型动物进行氢气吸入治疗。通过动物肺功能检测、肺组织形态学观察评价氢气对COPD是否具有治疗作用。并进一步通过检测血清及肺组织中MDA水平,以及肺组织中炎性因子水平初步探讨其可能的作用机制。结果:持续8周的烟熏造模,使大鼠体重Lee's指数显著降低,而氢气治疗2周后,Lee's指数较模型组有明显改善。动物肺功能检测显示,持续烟熏使大鼠肺气道阻力明显增加,潮气量和肺顺应性明显降低;氢气吸入治疗2周后,与COPD模型组相比,大鼠肺气道阻力、潮气量和肺顺应性均有明显改善。氢气可以明显改善烟熏引起的肺组织病理改变。氢气对烟熏引起血清及肺组织内MDA、TNF-α、IL-1β水平升高具有明显的抑制作用。结论:吸入氢气对烟熏引起的大鼠COPD具有明显的治疗作用。     

Mass spectrometry for the biophysical characterization of therapeutic monoclonal antibodies

Monoclonal antibodies (mAbs) are powerful therapeutics, and their characterization has drawn considerable attention and urgency. Unlike small-molecule drugs (150–600 Da) that have rigid structures, mAbs (∼150 kDa) are engineered proteins that undergo complicated folding and can exist in a number of low-energy structures, posing a challenge for traditional methods in structural biology. Mass spectrometry (MS)-based biophysical characterization approaches can provide structural information, bringing high sensitivity, fast turnaround, and small sample consumption. This review outlines various MS-based strategies for protein biophysical characterization and then reviews how these strategies provide structural information of mAbs at the protein level (intact or top-down approaches), peptide, and residue level (bottom-up approaches), affording information on higher order structure, aggregation, and the nature of antibody complexes.     

Hydrogen-bonding changes of internal water molecules upon the actions of microbial rhodopsins studied by FTIR spectroscopy

Microbial rhodopsins are classified into type-I rhodopsins, which utilize light energy to perform wide varieties of function, such as proton pumping, ion pumping, light sensing, cation channels, and so on. The crystal structures of several type-I rhodopsins were solved and the molecular mechanisms have been investigated based on the atomic structures. However, the crystal structures of proteins of interest are not always available and the basic architectures are sometimes quite similar, which obscures how the proteins achieve different functions. Stimulus-induced difference FTIR spectroscopy is a powerful tool to detect minute structural changes providing a clue for elucidating the molecular mechanisms. In this review, the studies on type-I rhodopsins from fungi and marine bacteria, whose crystal structures have not been solved yet, were summarized. Neurospora rhodopsin and Leptosphaeria rhodopsin found from Fungi have sequence similarity. The former has no proton pumping function, while the latter has. Proteorhodopsin is another example, whose proton pumping machinery is altered at alkaline and acidic conditions. We described how the structural changes of protein were different and how water molecules were involved in them. We reviewed the results on dynamics of the internal water molecules in pharaonis halorhodopsin as well. This article is part of a Special Issue entitled: Retinal Proteins — You can teach an old dog new tricks.     

Colorimetric estimation of human glucose level using γ-Fe2O3 nanoparticles: An easily recoverable effective mimic peroxidase

This article reports simple, green and efficient synthesis of γ-Fe₂O₃ nanoparticles (NPs) (maghemite) through single-source precursor approach for colorimetric estimation of human glucose level. The γ-Fe₂O₃ NPs, having cubic morphology with an average particle size of 30 nm, exhibited effective peroxidase-like activity through the catalytic oxidation of peroxidase substrate 3,3′,5,5′-tetramethylbenzidine (TMB) in the presence of H₂O₂ producing a blue-colored solution. On the basis of this colored-reaction, we have developed a simple, cheap, highly sensitive and selective colorimetric method for estimation of glucose using γ-Fe₂O₃/TMB/glucose–glucose oxidase (GOx) system in the linear range from 1 to 80 μM with detection limit of 0.21 μM. The proposed glucose sensor displays faster response, good stability, reproducibility and anti-interference ability. Based on this simple reaction process, human blood and urine glucose level can be monitored conveniently.     

Hydrogen peroxide activation of ERK5 confers resistance to Jurkat cells against apoptosis induced by the extrinsic pathway

Reactive oxygen species (ROS) including hydrogen peroxide (H₂O₂) exhibit both pro-survival and pro-death signaling in leukemic cells. We examined the effect of exogenous H₂O₂ on Fas ligand (FasL) -induced apoptosis in Jurkat cells. H₂O₂ applied prior to (pre-conditioning) and during (post-conditioning) FasL stimulation attenuated early apoptosis through activation of EKR5. H₂O₂ increased the activated caspase-8 sequestered in the mitochondria thereby decreasing cell death through the extrinsic apoptotic pathway. In addition, inhibition of a protein tyrosine phosphatase likely explains the post-conditioning requirement for H₂O₂. Given that chemotherapeutic agents used for the treatment of acute lymphoblastic leukemia are thought to work partly through production of ROS, a simultaneous inhibition of the ERK5 pathway may abrogate the ROS-initiated pro-survival signaling for an enhanced cell kill.     

Proton transport in carbonic anhydrase: Insights from molecular simulation

This article reviews the insights gained from molecular simulations of human carbonic anhydrase II (HCA II) utilizing non-reactive and reactive force fields. The simulations with a reactive force field explore protein transfer and transport via Grotthuss shuttling, while the non-reactive simulations probe the larger conformational dynamics that underpin the various contributions to the rate-limiting proton transfer event. Specific attention is given to the orientational stability of the His64 group and the characteristics of the active site water cluster, in an effort to determine both of their impact on the maximal catalytic rate. The explicit proton transfer and transport events are described by the multistate empirical valence bond (MS-EVB) method, as are alternative pathways for the excess proton charge defect to enter/leave the active site. The simulation results are interpreted in light of experimental results on the wild-type enzyme and various site-specific mutations of HCA II in order to better elucidate the key factors that contribute to its exceptional efficiency.