Mian R, Marshall J M
Department of Physiology, Medical School, University of Birmingham, United Kingdom.
Cardiovasc Res. 1993 Aug;27(8):1531-7. doi: 10.1093/cvr/27.8.1531.
The aim was to investigate the effect of acute systemic hypoxia on vascular permeability to macromolecules and on leucocyte adherence to vascular endothelium in vivo.
Experiments were performed on anaesthetised rats with either the intestinal mesentery or the spinotrapezius muscle prepared for in vivo microscopy. To quantify changes in vascular permeability, fluorescein isothiocyanate conjugated with serum albumin (FITC-albumin) was given intravenously and the microcirculation was viewed using a mercury source for 30 s periods during air breathing; or before, during, and after breathing 6% O2 for 3 or 20 min. On each occasion the number of FITC leakage sites was counted. In separate experiments acridine orange was given to stain leucocytes and the microcirculation was viewed using a mercury source during air breathing and during a 3 min period of systemic hypoxia. The number of leucocytes that adhered to venular walls for > 30 s was counted. Using mesentery, the effects were tested of BW755C, a lipoxygenase inhibitor, and of SM9064, a LTB4 receptor antagonist, upon the increase in leucocyte adherence observed during hypoxia.
In rats that breathed air throughout, the number of leakage sites for FITC-albumin in both the spinotrapezius and mesentery remained constant. Moreover, in rats that breathed 6% O2 for 3 or 20 min, the number of leakage sites was not changed in either mesentery or spinotrapezius by hypoxia, but was substantially increased in both preparations by topical application of histamine. However, the number of leucocytes that adhered to the inside of venular walls was significantly increased in both mesentery and spinotrapezius by a 3 min inhalation 6% O2 from 2.83(SEM 0.56) to 4.66(1.77) per 100 microns length of venule and from 2.44(0.33) to 3.35(0.49) respectively during the first period of hypoxia. Between periods of hypoxia the number of adherent leucocytes returned to control in both preparations. Leucocyte adherence was not affected by BW755C (50 or 500 micrograms.ml-1 applied topically or 10 mg.kg-1 intravenously) or by SM9064 (3 mg.kg-1 intravenously).
Acute systemic hypoxia does not affect the vascular permeability to albumin. However, 3 min periods of systemic hypoxia induce significant, but reversible, increases in leucocyte adherence in both muscle and mesenteric venules which in mesentery, at least, is not mediated by LTB4 or other products of the lipoxygenase pathway.
旨在研究急性全身性低氧对体内大分子血管通透性及白细胞与血管内皮黏附的影响。
对麻醉的大鼠进行实验,制备肠系膜或斜方肌用于体内显微镜观察。为量化血管通透性变化,静脉注射异硫氰酸荧光素结合血清白蛋白(FITC - 白蛋白),在空气呼吸期间使用汞光源观察微循环30秒;或在呼吸6%氧气3分钟或20分钟之前、期间及之后进行观察。每次观察均计数FITC渗漏部位的数量。在单独实验中,给予吖啶橙对白细胞进行染色,在空气呼吸期间及全身性低氧3分钟期间使用汞光源观察微循环。计数黏附于小静脉壁超过30秒的白细胞数量。利用肠系膜,测试脂氧合酶抑制剂BW755C和白三烯B4受体拮抗剂SM9064对低氧期间观察到的白细胞黏附增加的影响。
在全程呼吸空气的大鼠中,斜方肌和肠系膜中FITC - 白蛋白的渗漏部位数量保持恒定。此外,在呼吸6%氧气3分钟或20分钟的大鼠中,低氧并未改变肠系膜或斜方肌中的渗漏部位数量,但局部应用组胺后,两种标本中的渗漏部位数量均显著增加。然而,在低氧的第一阶段,吸入6%氧气3分钟后,肠系膜和斜方肌中黏附于小静脉壁内的白细胞数量均显著增加,每100微米小静脉长度分别从2.83(标准误0.56)增加至4.66(1.77)以及从2.44(0.33)增加至3.35(0.49)。在低氧阶段之间,两种标本中黏附白细胞的数量均恢复至对照水平。白细胞黏附不受BW755C(局部应用50或500微克/毫升或静脉注射10毫克/千克)或SM9064(静脉注射3毫克/千克)的影响。
急性全身性低氧不影响血管对白蛋白的通透性。然而,3分钟的全身性低氧会导致肌肉和肠系膜小静脉中白细胞黏附显著增加,但这种增加是可逆的,至少在肠系膜中,这种增加不是由白三烯B4或脂氧合酶途径的其他产物介导的。
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