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首页> 外文OA文献 >Glucose metabolism down-regulates the uptake of 6-(N-(7-nitrobenz-2-oxa-1, 3-diazol-4-yl)amino)-2-deoxyglucose (6-NBDG) mediated by glucose transporter 1 isoform (GLUT1): Theory and simulations using the symmetric four-state carrier model
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Glucose metabolism down-regulates the uptake of 6-(N-(7-nitrobenz-2-oxa-1, 3-diazol-4-yl)amino)-2-deoxyglucose (6-NBDG) mediated by glucose transporter 1 isoform (GLUT1): Theory and simulations using the symmetric four-state carrier model

机译:葡萄糖代谢下调了葡萄糖转运蛋白1亚型介导的6-(N-(7-硝基苯-2-氧杂-1,3-二氮杂-4-基)氨基)-2-脱氧葡萄糖(6-NBDG)的摄取( GLUT1):使用对称四态载波模型的理论和仿真

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The non-metabolizable fluorescent glucose analogue 6-(N-(7-nitrobenz-2-oxa- 1,3-diazol-4-yl)amino)-2-deoxyglucose (6-NBDG) is increasingly used to study cellular transport of glucose. Intracellular accumulation of exogenously applied 6-NBDG is assumed to reflect concurrent gradient-driven glucose uptake by glucose transporters (GLUTs). Here, theoretical considerations are provided that put this assumption into question. In particular, depending on the microscopic parameters of the carrier proteins, theory proves that changes in glucose transport can be accompanied by opposite changes in flow of 6-NBDG. Simulations were carried out applying the symmetric four-state carrier model on the GLUT1 isoform, which is the only isoform whose kinetic parameters are presently available. Results show that cellular 6-NBDG uptake decreases with increasing rate of glucose utilization under core-model conditions, supported by literature, namely where the transporter is assumed to work in regime of slow reorientation of the free-carrier compared with the ligand-carrier complex. To observe an increase of 6-NBDG uptake with increasing rate of glucose utilization, and thus interpret 6-NBDG increase as surrogate of glucose uptake, the transporter must be assumed to operate in regime of slow ligand-carrier binding, a condition that is currently not supported by literature. Our findings suggest that the interpretation of data obtained with NBDG derivatives is presently ambiguous and should be cautious because the underlying transport kinetics are not adequately established. In this study, we used the four-state carrier model for brain GLUT1 to examine whether cellular glucose metabolism can be inferred from the accumulation of the fluorescent glucose analogue 6-NBDG, which is increasingly employed for indirect determination of glucose transport and utilization in neurons and astrocytes. However, our findings show that the relation between 6-NBDG uptake and glucose transport and utilization configures antiport not symport of the two substrates. © 2013 International Society for Neurochemistry.
机译:不可代谢的荧光葡萄糖类似物6-(N-(7-硝基苯-2-恶唑-1,3-二氮唑-4-基)氨基)-2-脱氧葡萄糖(6-NBDG)被越来越多地用于研究细胞的转运葡萄糖。假定外源应用6-NBDG的细胞内积累反映了葡萄糖转运蛋白(GLUT)同时梯度驱动的葡萄糖摄取。在这里,提供了理论上的考虑,使这一假设受到质疑。特别是,根据载体蛋白的微观参数,理论证明葡萄糖转运的变化可以伴随6-NBDG流量的相反变化。应用对称的四态载流子模型对GLUT1亚型进行了模拟,这是目前唯一可获得动力学参数的亚型。结果表明,在核心模型条件下,细胞6-NBDG的摄取随葡萄糖利用率的增加而降低,这得到了文献的支持,即假设转运蛋白在与配体-载体复合物相比慢速重新定位自由载体的情况下起作用。为了观察到6-NBDG摄取随葡萄糖利用率的增加而增加,从而将6-NBDG摄取解释为葡萄糖摄取的替代物,必须假定转运蛋白在慢配体-载体结合的状态下运行,目前这种情况没有文献支持。我们的发现表明,目前对于使用NBDG衍生物获得的数据的解释尚不明确,应谨慎行事,因为潜在的运输动力学尚未得到充分确立。在这项研究中,我们使用了大脑GLUT1的四态载体模型来检查是否可以从荧光葡萄糖类似物6-NBDG的积累中推断出细胞葡萄糖的代谢,这种荧光葡萄糖类似物6-NBDG已越来越多地用于间接确定神经元中葡萄糖的转运和利用和星形胶质细胞。但是,我们的研究结果表明6-NBDG摄取与葡萄糖转运和利用之间的关系构成了两种底物的反转运而不是共转运。 ©2013国际神经化学学会。

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