肌醇在角膜内皮细胞中的转运动力学:糖的不同作用及其对角膜脱原的影响[更正]。

M Khatami
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引用次数: 4

摘要

研究了原代培养牛角膜内皮细胞(CEC)对肌醇(MI)的摄取动力学。会聚的角膜内皮细胞在一个时间依赖性和饱和的过程中积累3H-MI。在较窄的3H-MI外部浓度范围内(4-50微米),Na(+)依赖的MI摄取遵循饱和动力学。表观Km值为20 μ m,最大流速(Vmax)为16 pmol/20 min/微克DNA。在较低的外部3H-MI浓度下,摄取依赖于Na离子,但在较高的浓度下,Na(+)无关的MI摄取部分显著增加。吸收对钙离子的去除和抑制剂如n-乙基马来酰亚胺、苯丙嗪、瓦巴因和阿米洛利(Na+/H+交换的抑制剂)的存在很敏感。随着外部3H-MI浓度的增加,MI摄取对抑制剂和洗浴介质中离子变化的敏感性降低。0.5 mM柠檬酸盐增加心肌摄取,提示线粒体氧化代谢参与心肌摄取。在20微米3H-MI初始孵育40分钟后,2分钟的放射性释放率分别为6.6% +/- 0.8或35% +/- 4,释放介质中单独含有BSS或BSS中含有5毫米非放射性MI。当释放介质中含有40 mM葡萄糖时,细胞的放射性外排也增强。葡萄糖和半乳糖以及不可代谢的葡萄糖类似物,如30 -甲基葡萄糖或α -甲基葡萄糖,在高浓度(40 mM),急性(在孵育培养基中)或慢性(在生长培养基中)抑制心肌梗死进入CEC,抑制程度与外部3H-MI水平成反比。然而,较低水平的葡萄糖(小于或等于10mm)会略微增加心肌梗死的摄取。这些研究表明,在狭窄的外部放射性MI浓度范围内,MI进入角膜内皮细胞是一个Na(+)依赖的活性过程。细胞通过一种不依赖于载体蛋白的被动扩散机制吸收较高水平的心肌梗死。葡萄糖以复杂的方式影响心肌梗死的摄取。葡萄糖或心肌梗死增加的心肌外排可能是由于CEC积累或区隔这种或其他溶质/渗透物的能力有限,这一现象可能与CEC在维持角膜消退中的作用有关。高糖诱导的Na(+)依赖性心肌摄取的抑制可能部分是由于葡萄糖对Na+通量和细胞体积的调节。(摘要删节为400字)
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Kinetics of myo-inositol transport in corneal endothelial cells: diverse effects of sugars and implications in corneal deutergensence [corrected].

Kinetics of myo-inositol (MI) uptake into primary cultures of bovine corneal endothelial cells (CEC) were studied. Confluent corneal endothelial cells accumulated 3H-MI in a time dependent and saturable process. At a narrow range of external concentrations of 3H-MI (4-50 microM), the Na(+)-dependent MI uptake followed saturation kinetics. The apparent Km value was 20 microM with a maximum velocity (Vmax) of 16 pmol/20 min/micrograms DNA. At low external 3H-MI concentrations the uptake was dependent on Na ions, but at higher levels the Na(+)-independent fraction of MI uptake significantly increased. The uptake was sensitive to removal of Ca ions and to the presence of inhibitors such as n-ethyl maleimide, phlorizin, ouabain, and amiloride (an inhibitor of Na+/H+ exchanger). The sensitivity of MI uptake toward inhibitors and ionic changes in the bathing media was reduced as external concentrations of 3H-MI increased. Citrate at 0.5 mM increased the uptake, suggesting involvement of mitochondrial oxidative metabolism in the MI uptake. Percent release of radioactivity by 2 min, after an initial 40-min incubation with 20 microM 3H-MI, was 6.6% +/- 0.8 or 35% +/- 4 when release media contained BSS alone or BSS containing 5 mM nonradioactive MI, respectively. Efflux of radioactivity from the cells also was enhanced when release media contained 40 mM glucose. Glucose and galactose as well as nonmetabolizable glucose analogues, such as 3O-methyl glucose or alpha-methyl glucose, at high concentrations (40 mM), acutely (in the incubation media) or chronically (in the growth media) inhibited MI uptake into CEC, and the extent of inhibition was inversely proportional to the external levels of 3H-MI. However, glucose at lower levels (less than or equal to 10 mM) slightly increased MI uptake. These studies indicated that the uptake of MI into corneal endothelial cells was an Na(+)-dependent active process at a narrow range of external radioactive MI concentrations. Higher levels of MI were taken up by the cells via a passive diffusion mechanism, independent of carrier protein(s). Glucose influenced the uptake of MI in a complex manner. The increased MI efflux by glucose or by MI was perhaps due to the limited capacity of CEC for accumulation or compartmentalization of this or other solutes/osmolytes, a phenomenon that may be related to the role of CEC in maintenance of corneal deutergence. High glucose-induced inhibition of Na(+)-dependent MI uptake may be in part due to glucose regulation of Na+ fluxes and cell volume.(ABSTRACT TRUNCATED AT 400 WORDS)

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