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561.
Time course of production of hydroxyl free radical after subarachnoid hemorrhage in dogs 总被引:3,自引:0,他引:3
Vasospasm after subarachnoid hemorrhage (SAH) is associated with lipid peroxidation. However, lipid peroxides increase in a delayed fashion after SAH and may be a byproduct of but not a cause of vasospasm. This study correlated vasospasm with hydroxyl free radical and lipid peroxide levels. 24 dogs had baseline cerebral angiography and induction of SAH by 2 injections of blood into the cisterna magna at baseline and 2 days later. Angiography was repeated 4, 7, 10, 14 or 21 days after the first injection (n = 4 per group) and a microdialysis catheter was inserted into the premedullary cistern. Control dogs (n = 4) underwent angiography and microdialysis but not SAH. Salicylic acid, 100 mg/kg, was administered intravenously, and microdialysis fluid was collected and analyzed by high pressure liquid chromatography for 2,3- and 2,5-dihydroxybenzoic acids (DHBA). Malondialdehyde was measured in subarachnoid clot removed from the prepontine cistern and in the basilar artery itself at the time of euthanasia. Significant vasospasm developed 4 to 14 days after SAH. Malondialdehyde levels were significantly elevated in the basilar artery and subarachnoid clot 4 days after SAH (p < 0.0001, ANOVA) but not at other times. 2,5-DHBA levels were significantly greater than control at 4 to 14 days and they peaked at 4 days (p < 0.05, ANOVA). 2,3-DHBA was significantly increased at 4 days after SAH (p < 0.05, ANOVA). There were significant correlations between basilar artery malondialdehyde levels and vasospasm and cerebrospinal fluid 2,5-DHBA levels and vasospasm. These results suggest the presence of hydroxyl free radical after SAH and demonstrate a correlation between such production, as measured by trapping with salicylate, and the early phase of vasospasm. The correlation with vasospasm implicates free radicals and lipid peroxidation in this phase of vasospasm. 相似文献
562.
Infection with a variety of bacterial pathogens results in hematopoietic stem and progenitor cell (HSPC) mobilization. The mechanism and kinetics of HSPC mobilization during infection are largely unknown. Previously, we found altered HSPC activity in bone marrow, spleen and blood during infection with Anaplasma phagocytophilum, the agent of granulocytic anaplasmosis. We hypothesized that altered CXCL12/CXCR4 signaling, a central pathway for HSPC homing to, and retention within, the bone marrow, plays a role in infection-induced alterations in HSPC number and trafficking. Mice were infected with A. phagocytophilum. Lineage-cKit+ HSPCs were enumerated and proliferation determined. CXCL12 and CXCR4 mRNA were quantified along with CXCL12 protein, and CXCR4 surface, intracellular and total protein expression in HSPCs was determined. Increased bone marrow proliferation of HSPCs began at 2 d post-infection followed by HSPC mobilization and splenic homing. Proliferation of resident HSPCs contributed to increased splenic HSPC numbers. Bone marrow CXCL12 mRNA and protein levels were decreased at 4-8 d post-infection concurrent with HSPC mobilization. CXCR4 protein parameters were decreased in bone marrow HSPCs throughout 2-6 d post-infection. Reduction of CXCL12/CXCR4 signaling simultaneously occurs with HSPC mobilization from bone marrow. Findings suggest that deranged CXCL12/CXCR4 signaling plays a causal role in HSPC mobilization during acute A. phagocytophilum infection. 相似文献
563.
Johns RC Boone J Leggo JJ Smith S Carleton D Quiring DT 《Environmental entomology》2012,41(3):594-602
Herbivorous insects are often exposed to broad temporal and spatial variations in microclimate conditions within their host plants and have adapted a variety of behaviors, such as avoidance or basking, to either offset or benefit from such variation. Field experiments were carried out to investigate the influence of daily and intratree variations in microclimate on the behaviors (feeding, resting, dispersal, and hiding) and associated performance of late-instar larvae of the yellowheaded spruce sawfly, Pikonema alaskensis (Rohwer) (Hymenoptera: Tenthredinidae) within crowns of 1.25-1.5 m tall black spruce (Picea mariana [Miller] Britton Sterns Poggenburg); late instars feed on developing shoots of young spruce and are often exposed to microclimatic extremes with unknown effects on performance. Larvae fed diurnally from just after dawn (0800 h) until dusk (2000 h) and rested throughout the night, with brief periods of dispersal occurring in the morning and evening. Neither larval behavior nor abiotic conditions differed significantly between the upper and lower crowns of trees. Temperature, humidity, and solar insolation all explained >90% of variation in feeding; however, sunrise and sunset were the most likely cues influencing diurnal behavior. Most larvae (94%) fed on the bottom, shaded side of shoots, and field experiments indicated that this behavior is adaptive with respect to microclimate, probably reducing hygrothermal stress. Thus, behavioral adaptations by P. alaskensis to daily and within-shoot microclimatic variation may reduce the risk of hygrothermal stress during dispersal or feeding, while still allowing larvae to feed on the preferred and highly nutritious upper crown foliage of young spruce. 相似文献
564.
Lysophosphatidylcholine induces inflammatory activation of human coronary artery smooth muscle cells
Aiyar N Disa J Ao Z Ju H Nerurkar S Willette RN Macphee CH Johns DG Douglas SA 《Molecular and cellular biochemistry》2007,295(1-2):113-120
Lysophosphatidylcholine (LPC) is the major bioactive lipid component of oxidized LDL, thought to be responsible for many of
the inflammatory effects of oxidized LDL described in both inflammatory and endothelial cells. Inflammation-induced transformation
of vascular smooth muscle cells from a contractile phenotype to a proliferative/secretory phenotype is a hallmark of the vascular
remodeling that is characteristic of atherogenesis; however, the role of LPC in this process has not been fully described.
The present study tested the hypothesis that LPC is an inflammatory stimulus in coronary artery smooth muscle cells (CASMCs).
In cultured human CASMCs, LPC stimulated time- and concentration-dependent release of arachidonic acid that was sensitive
to phospholipase A2 and C inhibition. LPC stimulated the release of arachidonic acid metabolites leukotriene-B4 and 6-keto-prostaglandin F1α, within the same time course. LPC was also found to stimulate basic fibroblast growth factor release as well as stimulating
the release of the cytokines GM-CSF, IL-6, and IL-8. Optimal stimulation of these signals was obtained via palmitic acid-substituted
LPC species. Stimulation of arachidonic acid, inflammatory cytokines and growth factor release, implies that LPC might play
a multifactorial role in the progression of atherosclerosis, by affecting inflammatory processes. 相似文献
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