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F Cerasoli M H Gee Y Ishihara K H Albertine M V Tahamont J E Gottlieb S P Peters 《Tissue & cell》1988,20(4):505-517
The role played by neutrophil oxidative responses in host defense and injury is an area of active investigation. In order to study neutrophil responses in vitro, methods are required for cell purification, enumeration, and quantification of activation responses, which mimic the in vivo situation as closely as possible. In this communication (and its companion paper, Albertine et al., 1988) improved methods for all of these tasks are described and applied to investigate neutrophil structure-function relationships in vitro and in vivo. Human neutrophils were purified by using a series of platelet-poor plasma-Percoll gradients (51, 62, 76 and 80% in Percoll). This modification of previously published procedures results in consistently successful neutrophil purification and has allowed us to purify neutrophils from bronchoalveolar lavage fluid as well as blood. Activation of human and sheep neutrophils (superoxide anion production) was quantitated by the reduction of ferricytochrome c using a microtiter plate reader to measure the increase in absorbance at 550 nm from adherent neutrophils. Adherence of neutrophils was quantitated by measurement of LDH in cells lysed with Triton X-100 using a new method which uses readily available commercial reagents and can quantitate the LDH content of as few as 5000 neutrophils (or the LDH released from 5% of 100,000 neutrophils). Assay conditions for superoxide anion were optimized, limitations both in assay design and instruments used to measure OD were explored and enumerated, and these methods were used to quantitate sheep and human neutrophil activation responses. Using methods described in Albertine et al. (1988) for fixing neutrophils in microtiter wells after assay of their functional capacity, we have studied the same cells functionally and morphologically. We have used these techniques to study blood and alveolar neutrophils from a patient with acute respiratory failure. His alveolar neutrophils displayed 67% of the activation response as peripheral neutrophils (4.31 +/- 0.12 nmol superoxide released per 250,000 neutrophils at 60 min vs. 6.38 +/- 0.18 in blood, P less than 0.01) and structural changes which suggested previous activation in vivo. These studies demonstrate that similar morphological changes are observed in neutrophils activated with phorbol myristate acetate in vitro, as are observed in cells which have been activated by pathophysiologic processes in vivo. 相似文献
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Hemmert AC Otto TC Chica RA Wierdl M Edwards JS Lewis SM Lewis SL Edwards CC Tsurkan L Cadieux CL Kasten SA Cashman JR Mayo SL Potter PM Cerasoli DM Redinbo MR 《PloS one》2011,6(3):e17441
Organophosphorus (OP) nerve agents are potent suicide inhibitors of the essential neurotransmitter-regulating enzyme acetylcholinesterase. Due to their acute toxicity, there is significant interest in developing effective countermeasures to OP poisoning. Here we impart nerve agent hydrolysis activity into the human drug metabolism enzyme carboxylesterase 1. Using crystal structures of the target enzyme in complex with nerve agent as a guide, a pair of histidine and glutamic acid residues were designed proximal to the enzyme's native catalytic triad. The resultant variant protein demonstrated significantly increased rates of reactivation following exposure to sarin, soman, and cyclosarin. Importantly, the addition of these residues did not alter the high affinity binding of nerve agents to this protein. Thus, using two amino acid substitutions, a novel enzyme was created that efficiently converted a group of hemisubstrates, compounds that can start but not complete a reaction cycle, into bona fide substrates. Such approaches may lead to novel countermeasures for nerve agent poisoning. 相似文献
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Human Serum paraoxonase 1 (HuPON1) is an enzyme that has been shown to hydrolyze a variety of chemicals including the nerve agent VX. While wildtype HuPON1 does not exhibit sufficient activity against VX to be used as an in vivo countermeasure, it has been suggested that increasing HuPON1's organophosphorous hydrolase activity by one or two orders of magnitude would make the enzyme suitable for this purpose. The binding interaction between HuPON1 and VX has recently been modeled, but the mechanism for VX hydrolysis is still unknown. In this study, we created a transition state model for VX hydrolysis (VX(ts)) in water using quantum mechanical/molecular mechanical simulations, and docked the transition state model to 22 experimentally characterized HuPON1 variants using AutoDock Vina. The HuPON1-VX(ts) complexes were grouped by reaction mechanism using a novel clustering procedure. The average Vina interaction energies for different clusters were compared to the experimentally determined activities of HuPON1 variants to determine which computational procedures best predict how well HuPON1 variants will hydrolyze VX. The analysis showed that only conformations which have the attacking hydroxyl group of VX(ts) coordinated by the sidechain oxygen of D269 have a significant correlation with experimental results. The results from this study can be used for further characterization of how HuPON1 hydrolyzes VX and design of HuPON1 variants with increased activity against VX. 相似文献
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Purification,characterization, and N‐glycosylation of recombinant butyrylcholinesterase from transgenic rice cell suspension cultures
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Sandip B. Bharate Lilu Guo Tony E. Reeves Douglas M. Cerasoli Charles M. Thompson 《Bioorganic & medicinal chemistry letters》2009,19(17):5101-5104
The preparation of a series of monoquaternary pyridinium oximes bearing either a heterocyclic side chain or a functionalized aliphatic side chain and the corresponding in vitro evaluation for reactivation of paraoxon-inhibited electric eel acetylcholinesterase (EeAChE) and recombinant human acetylcholinesterase (rHuAChE) are reported. Several newly synthesized compounds efficiently reactivated inhibited EeAChE, but were poor reactivators of inhibited rHuAChE. Compounds bearing a thiophene ring in the side chain (20, 23, 26 and 29) showed better reactivation (24–37% for EeAChE and 5–9% for rHuAChE) compared to compounds with furan and isoxazole heterocycles (0–8% for EeAChE and 2–3% for rHuAChE) at 10?5 M. The N-pyridyl-CH2COOH analog 8 reactivated EeAChE (36%) and rHuAChE (15%) at 10?4 M with a kr value better than 2-pyridine aldoxime methiodide (2-PAM) for rHuAChE. 相似文献
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Albertine K. H.; Cerasoli F. Jr; Tahamont M. V.; Ishihara Y.; Flynn J. T.; Peters S. P.; Gee M. H. 《Journal of applied physiology》1989,67(6):2481-2490
It is well established that activation of neutrophils within the pulmonary circulation produces acute lung injury in which adherence of neutrophils to endothelial cells is an obligatory step in the mechanism of injury. The effects of in vivo activation of neutrophils on the in vitro responses of these cells to stimulation have not been determined, although such information may be important in understanding how different etiological factors may interact to produce infection or acute respiratory failure. By using an assay to sequentially measure superoxide anion (O2-) release from adherent neutrophils stimulated with phorbol myristate acetate (PMA), we measured the in vitro activation response of peripheral blood neutrophils isolated before and 24 h after infusion of zymosan-activated plasma (ZAP; or untreated plasma as a control), air bubbles, or PMA in awake, instrumented sheep. Each of the three inflammatory agents produced an increase in lung microvascular permeability characteristic of acute lung injury; control plasma did not. For the in vivo ZAP experiments, stimulated O2- release in vitro by using PMA was approximately 50% lower (P less than 0.05) for neutrophils isolated 24 h after the in vivo infusion (4.3 +/- 0.8 nmol/500,000 cells) than before (8.1 +/- 0.2 nmol/500,000 cells). For the air emboli or PMA in vivo experiments, there were no changes in neutrophil activation responses in vitro. Similarly, infusion of control plasma did not result in reduced neutrophil O2- release. These results show that alterations in the inflammatory potential of neutrophils may occur in vivo and that such alterations appear to be dependent on the mechanism and agent by which lung injury is produced. 相似文献
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John G. Bruno Maria P. Carrillo C. Linn Cadieux David E. Lenz Douglas M. Cerasoli Taylor Phillips 《Journal of molecular recognition : JMR》2009,22(3):197-204
Twelve rounds of systematic evolution of ligands by exponential enrichment (SELEX) were conducted against a magnetic bead conjugate of the para‐aminophenylpinacolylmethylphosphonate (PAPMP) derivative of the organophosphorus (OP) nerve agent soman (GD). The goal was to develop DNA aptamers that could scavenge GD in vivo, thereby reducing or eliminating the toxic effects of this dangerous compound. Aptamers were sequenced and screened in peroxidase‐based colorimetric plate assays after rounds 8 and 12 of SELEX. The aptamer candidate sequences exhibiting the highest affinity for the GD derivative from round 8 also reappeared in several clones from round 12. Each of the highest affinity PAPMP‐binding aptamers also bound methylphosphonic acid (MPA). In addition, the aptamer with the highest overall affinity for PAPMP carried a sequence motif (TTTAGT) thought to bind MPA based on previously published data (J. Fluoresc 18: 867–876, 2008). This sequence motif was found in several other relatively high affinity PAPMP aptamer candidates as well. In studies with the nerve agent GD, pre‐incubation of a large molar excess of aptamer candidates failed to protect human butyrylcholinesterase (BuChE) from inhibition. With the aid of three‐dimensional molecular modeling of the GD derivative it appears that a hydrophilic cleft sandwiched between the pinacolyl group and the p‐aminophenyl ring might channel nucleotide interactions to the phosphonate portion of the immobilized GD derivative. However, bona fide GD free in solution may be repulsed by the negative phosphate backbone of aptamers and rotate its phosphonate and fluorine moieties away from the aptamer to avoid being bound. Future attempts to develop aptamers to GD might benefit from immobilizing the pinacolyl group of bona fide GD to enhance exposure of the phosphonate and fluorine to the random DNA library. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献