Dempster J A, van Hoek A N, de Jong M D, van Os C H
Department of Physiology, University of Nijmegen, The Netherlands.
Pflugers Arch. 1991 Oct;419(3-4):249-55. doi: 10.1007/BF00371103.
Glucose carriers have been shown to serve as water channels in macrophages and in oocytes injected with messenger ribonucleic acid (mRNA) encoding the glucose carrier protein (Fischbarg et al. The contribution, therefore, of glucose carriers to osmotic water permeability (Pf) in renal and intestinal epithelial cells was investigated. Pf of brush border membrane vesicles (BBMVs) and of basolateral membrane vesicles (BLMVs) was studied using stopped-flow spectrophotometry. Osmotic shrinkage of renal vesicles exhibited fast and slow components at 4 degrees C and 37 degrees C. The fast component could be inhibited by HgCl2 or dimethylsulphoxide (DMSO) at these temperatures, whereas the slow component was inhibited only at 4 degrees C. Osmotic shrinkage of intestinal BBMVs and BLMVs was homogeneous at 4 degrees C and 37 degrees C and was slightly inhibitable by HgCl2 or DMSO at 4 degrees C but not 37 degrees C. In both tissues, vesicle uptake of glucose was sensitive to HgCl2, but not to DMSO. Phlorizin and phloretin inhibited D-glucose uptake in BBMVs and BLMVs respectively, but had no significant effect on Pf. In membrane vesicles of kidney origin, Pf was tenfold higher than in membranes from intestine. This difference was not reflected by the phlorizin- and phloretin-sensitive D-glucose uptakes. Our study concludes that glucose transporters do not serve as water channels in kidney or intestine. Although membrane proteins contribute slightly to Pf at 4 degrees C, this contribution is insignificant at 37 degrees C. A membrane protein serving specifically as a water channel could only be demonstrated in renal cortical membranes.
葡萄糖载体已被证明在巨噬细胞和注射了编码葡萄糖载体蛋白的信使核糖核酸(mRNA)的卵母细胞中充当水通道。因此,研究了葡萄糖载体对肾和肠上皮细胞渗透水通透性(Pf)的贡献。使用停流分光光度法研究了刷状缘膜囊泡(BBMVs)和基底外侧膜囊泡(BLMVs)的Pf。肾囊泡的渗透收缩在4℃和37℃时表现出快速和缓慢成分。在这些温度下,快速成分可被HgCl2或二甲基亚砜(DMSO)抑制,而缓慢成分仅在4℃时被抑制。肠BBMVs和BLMVs在4℃和37℃时的渗透收缩是均匀的,在4℃时可被HgCl2或DMSO轻微抑制,但在37℃时则不然。在这两种组织中,囊泡对葡萄糖的摄取对HgCl2敏感,但对DMSO不敏感。根皮苷和根皮素分别抑制BBMVs和BLMVs中D-葡萄糖的摄取,但对Pf没有显著影响。在肾来源的膜囊泡中,Pf比肠膜中的高10倍。这种差异在根皮苷和根皮素敏感的D-葡萄糖摄取中没有体现出来。我们的研究得出结论,葡萄糖转运蛋白在肾脏或肠道中不作为水通道。尽管膜蛋白在4℃时对Pf有轻微贡献,但在37℃时这种贡献微不足道。仅在肾皮质膜中才能证明有一种膜蛋白专门充当水通道。
