Rhodol fluorophores and fluorescent probes for the detection and imaging of reactive oxygen species

Peng, Tao, 彭濤

January 2009

published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy

Fluorescent probes.

Active oxygen.

Rhodol fluorophores and fluorescent probes for the detection and imaging of reactive oxygen species

Peng, Tao,

January 2009

Thesis (Ph. D.)--University of Hong Kong, 2009. / Includes bibliographical references. Also available in print.

Fluorescent probes. Active oxygen.

Molecular mechanisms of stress-induced reactive oxygen species formation in skeletal muscle /

Zuo, Li.

January 2002

No description available.

Biology

Stress

Active oxygen

Deoxyguanosine triphosphate, a possible target for reactive oxygen species-induced mutagenesis

Tassotto, Mary Lynn Benka

04 September 2002

Intracellular dNTP pool sizes are highly asymmetric, with dGTP usually comprising 5 to 10% of the sum of the dNTP pools. The work presented in this dissertation addresses the question of whether the underrepresentation of dGTP is related to its potential to be oxidized by reactive oxygen species. 8-oxo-guanine is important in oxidative mutagenesis, and current evidence indicates that this lesion arises in DNA partly through oxidation of dGTP, followed by incorporation of 8-oxo-dGTP into DNA. The bacterial MutT protein and its mammalian homolog catalyze the hydrolysis of 8-oxo-dGTP to 8-oxo-dGMP in vitro. It is a widely accepted premise that the primary function of these enzymes is to remove 8-oxo-dGTP from the nucleotide pool of cells so that it cannot be used as a substrate for DNA synthesis. However, this model has been called into question by observations that some mutT strains of E. coli display a mutator phenotype when grown anaerobically, and by kinetic studies that showed 8-oxo-dGTP to be a poor DNA polymerase substrate. In this study, the dNTP pools of mammalian cells cultured in varying oxygen conditions were measured, with the expectation that the dGTP pool would expand under low oxygen conditions if it were a target for damage by reactive oxygen species. HeLa cells cultured in 2% 0��� showed no change in the dGTP pool when compared to cells cultured in 20% 0���; however, in V79 cells, the dGTP pool did expand in 2% 0���. This result was not specific to the dGTP pool, as pools of dATP and dTTP also increased when V79 cells were cultured at 2% 0���. These results suggest that there may be increased turnover of the dGTP pool when cells are cultured in high oxygen, but these experiments did not address the reason for this oxygen-dependent change. In order to determine whether 8-oxo-dGTP accumulates to levels that are sufficient to cause mutagenesis in cells, an analytical method for the measurement of 8-oxo-dGTP from cell extracts was developed. By use of this method, which involves reversed-phase high performance liquid chromatography coupled with electrochemical detection, no 8-oxo-dGTP was detected in mutT E. coli cells, even when they were cultured in the presence of H���0���. The estimated upper limit of 8-oxo-dGTP in these cells is about 240 molecules per cell, which corresponds to an intracellular concentration of approximately 0.34 ��M. When 8-oxo-dGTP was added at this concentration to an in vitro DNA replication system in which replication errors could be scored as mutations, along with the four normal dNTPs at their estimated intracellular concentrations, there was no detectable effect on the frequency of mutation. Therefore, the presence of 8-oxo-dGTP at physiologically relevant concentrations does not appear to be significantly mutagenic. The results presented in this dissertation suggest that the mechanism by which the MutT enzyme counteracts mutagenesis should be reevaluated. / Graduation date: 2003

Guanosine triphosphate

Active oxygen

Mutagenesis

Modulation of ros-induced apoptosis of HL-60 cells by thioredoxin and phosphatase inhibitors

Yang, Mi Young

28 August 2008

Not available / text

Apoptosis

Thioredoxin

Phosphatases

Active oxygen

Endothelin-1 and oxygen saturation during exercise in normoxia and hypoxia

Giles, Luisa.

January 2007

Thesis (M.S.)--University of British Columbia, 2007. / Includes bibliographical references.

Creation of a site-directed mutant of hen egg white lysozyme working toward site-specific oxidation as it relates to protein structure /

Mensah, Eric.

January 2009

Thesis (M.S.)--Youngstown State University, 2009. / Includes bibliographical references (leaves 60-63). Also available via the World Wide Web in PDF format.

Modulation of ros-induced apoptosis of HL-60 cells by thioredoxin and phosphatase inhibitors

Yang, Mi Young, Monks, Terrence J., Bratton, Shawn Brian,

January 2005

Thesis (Ph. D.)--University of Texas at Austin, 2005. / Supervisors: Terrence J. Monks and Shawn B. Bratton. Vita. Includes bibliographical references.

The effect of superoxygenated water compared with regular bottled water on heart rate and arterial oxygen saturation

Witt, Lindsey E.

January 2002

Thesis (M.S.)--University of Wisconsin--La Crosse, 2002. / Includes bibliographical references.

Active oxygen in the body. Water Oxygen

Molecular detection and characterisation of biologically relevant free radicals during surgical ischaemia-reperfusion

Gutowski, Mariusz

January 2011

Oxygen is one of the most important molecules in human beings. Our research is focused on how the human body can respond and adapt to the physiological challenge posed by a lack of oxygen. Ascorbic acid (Vitamin C) is one of the most important and considered the most effective water-soluble, chain-breaking antioxidant in human plasma, with the capacity to prevents damage by free radicals. This thesis presents four studies investigating the phenomenon of Reactive Oxygen Species (ROS) generation in the many different surgical conditions in the animal and in the human. Study one investigated the geometry and thermodynamic properties of vitamin C. Calculations were carried out at the restricted and unrestricted B3LYP/6-31+G(d,p), B3LYP/6-311++G(d,p) and B3LYP/EPR-II levels for two conformers (1 and 2) of L-ascorbic acid and their respective oxidation products to monodehydroascorbates of ab-initio methods by Gaussian O3W package. Conformer 1, free radical properties are compared with previously published calculations in the gaseous and aqueous solution states and with experimental EPR values. Calculated molecular structures, EPR (electron paramagnetic resonance spectroscopy), the vibration spectral and energetic properties and all are reported including some proposed changes to previous EPR assignments. Conformer 2 of L-ascorbic acid is predicted to have lower energy than Conformer 1, under the method and basis sets used, by between 11 and 26 kJ mol-1 and is stabilised by internal hydrogen bonding. Relaxed potential energy surface (PES) scans were carried out for two proton transfer processes and relative energies of stable minima and barriers between them determined. Hydrogen transfer is predicted in two systems with favourable spatial arrangements of O–H and O groups for which relaxed potential energy surface scans are reported. Calculated vibrational wavenumber values are provided for selected C=C, C=O, C–H and O–H modes assigned to particular groups and significant calculated EPR hyperfine coupling constants (HCC) values for splitting by H(1) and C(13) for radical species are also reported. These calculations contribute to a better understanding of the complex role of L-ascorbic acid and its various oxidised, neutral, ionic and radical forms in biochemistry and medicine. Study two examined if vitamin C could ameliorate the damaging effects of I-R on myocardium and we postulated that the mechanism of vitamin C protection against iii I-R-induced cell death involved quenching of ROS. In the vitamin C group after 5 min of reperfusion a significant, sudden increase of diastolic pressure in the heart was noted and reached a maximum of 77 mmHg after 12 min of reperfusion and then gradually decreased to 51 mmHg after 60 min of reperfusion period but was quicker than in Control group reaching 37 mmHg by the end of the reperfusion period. The level of A·− (ascorbate free radicals) sudden and massive increased at the time of reperfusion in the Vitamin C group. This increase was associated with poor mechanical function in hearts as indicated by the significantly depressed recovery process. After 30 min of global, now-flow ischaemia and 60min of reperfusion infarct size averaged 33% ± 1 in Control group and 30 % ± 1 in Vitamin C group, respectively, (P<0.05). There is strong evidence that oxygen centered radicals contribute to postischaemic dysfunction after global ischaemia. Our data unquestionably suggest that the large production of A·− was associated with a greater depression in myocardial contractile function, therefore could represent a marker of oxidative stress during I-R and could be related to the functional impairment during reperfusion. In summary, we have used the animal models of isolated heart perfusion to provide evidence that vitamin C did not reduce the infarct size, however “tendency” towards a decrease (↓) in infarct size with ascorbate and it protects from oxidative damage during global I-R as manifested by decreased concentrations of A·− and enhance recovery of mechanical function such as diastolic pressure and LVDP in postischaemic working rat hearts. Study three was designed to test the hypothesis that the physiological trauma associated with venous cannulation may artefactually stimulate systemic free radical formation in the acute phase that if not accounted for may under-estimate the oxidative stress response to exercise. The relationship between the time of venepuncture and the level of free radical generation during normoxic conditions was further investigated. The venous cannulation in Phase I, increased plasma A·− by 347 ± 173 AU/√G, P <0.05 after 2min of venepuncture with further increases observed after 5min and 10min of venous cannulation, respectively (403 ± 178 AU/√G; 462 ± 93 AU/√G, P < 0.05) vs baseline point time. After this time the level of A·− slightly blunted as to achieve a similar level to baseline point control after 30 minutes. In phase II the exerciseinduced increase in A·− was subsequently shown to be 48% greater (30min as opposed to the 2min post-cannulation resting baseline)(1754 ± 361 vs. 1979 ± 375 AU, P <0.05). Our findings demonstrate and confirm that venous cannulation per se stimulates iv the systemic formation of free radicals as an acute phase response which peaks at 10min and require approximately 15min to normalise. This has important interpretive implications for future studies that employ catheterisation. The final Study examined if the combination of exercise and inspiratory hypoxia would further compound regional tissue de-oxygenation that is frequently encountered during the ischaemic phase of surgery and thus, by consequence increase oxidative stress. The aim of the study was to further understand a potential relationship between oxidative stress and alterations in muscle oxygenation. Clear significant increases in the plasma concentration of A·− were detected in the peripheral blood of patients (normoxia(baseline) vs 6 data points of reperfusion after 5min of global ischaemic condition, P<0.05),(baseline vs immediate after ischaemia; 2337±525 vs 2633±508, AU, respectively). During global ischaemia the regional muscle oxygenation significantly decreased (↓∆O2Hb-oxyhaemoglobin), ↑∆HHb- deoxyhaemoglobin ), although increased regional blood volume (↑∆tHb- total haemoglobin). From the end of global ischaemia to 10 min after the regional muscle oxygenation progressively back to the start data point (↓∆HHb, ↑∆O2Hb). This study demonstrates for the first time that the I-R has got a big influence on the muscle oxygenation to increased ROS and the return of values towards baseline period in reperfusion stage appears to coincide with increased oxidative stress. Moreover, the present study has also demonstrated increased A·− level as early as the ischaemic phase of experiment independent of perioperative changes in the partial pressure of oxygen (pO2), elucidate a potentially important role for oxidative stress in provoking an appropriate vasodilation (NO-bioavailability) during the I-R period. This work demonstrates that; - Ascorbate is an antioxidant that can scavenge tissue and blood borne free radical, is essential in controlled amounts and is capable of initiating protective adaptation in the face of oxidative stress for the maintenance of physiological homeostasis. - Reperfusion is always associated with a sudden and massive release of ascorbate free radicals, with a maximal liberation within the first minutes of reperfusion. Vitamin C tended to reduce infarct size and protects from oxidative damage during global ischaemia and reperfusion. - The venous cannulation alone is enough per se stimulates the systemic formation of free radicals as a acute phase response. If this baseline artefact is not taken into account, the true magnitude of the exercise-induced oxidative stress response will be under-estimated. / The I-R has got a major influence on the muscle oxygenation to increased ROS and the return of values towards baseline period in reperfusion stage appears to coincide with increased oxidative stress. Using the state-of-the-art molecular techniques that include Electron Paramagnetic Spectroscopy (EPR) for the direct detection of free radicals and Near Infrared Spectroscopy (NIRS) for the direct detection of muscle oxygenation these studies have attempted to translate the basic mechanisms associated with free radical formation during I-R and have provided unique insight into the basic mechanisms responsible for the oxidative stress with the ultimate objective of developing novel antioxidant interventions that can provide effective prophylaxis.

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