Inoue M, Okajima K, Nagase S, Morino Y
Proc Natl Acad Sci U S A. 1983 Dec;80(24):7654-8. doi: 10.1073/pnas.80.24.7654.
To investigate a possible function of plasma albumin in the vectorial transport of organic anions by the liver, the plasma disappearance of sulfobromophthalein (BSP) and its interaction with plasma and liver cytosolic proteins were studied in normal rats and mutant Nagase analbuminemic rats (NAR). After intravenous administration of BSP, plasma BSP decreased rapidly in both NAR and control animals: plasma clearance values of BSP in NAR and controls were 12.45 and 7.40 ml/min per kg, respectively. Gel exclusion Sephadex G-100 chromatography of BSP with control rat serum revealed a protein peak in the void volume and another in the albumin fraction. BSP chromatographed exclusively with the albumin fraction; binding of BSP to plasma albumin occurred stoichiometrically. Similar studies with NAR serum revealed a single protein peak, in the void volume; a small amount of BSP chromatographed with this protein peak. The amount of BSP that chromatographed with NAR serum protein(s) was 8% of that with control rat serum albumin. Sephadex G-100 chromatography of BSP with control rat liver cytosol revealed four peaks of protein-bound BSP in fractions corresponding to the void volume (fraction X), albumin, glutathione S-transferases (fraction Y, Mr 45,000), and fraction Z (Mr 12,000); fraction Y was the major component of BSP binding. Gel chromatography of NAR liver cytosol with BSP revealed three BSP peaks, fractions X, Y, and Z; fraction X was the major component of BSP binding. Total BSP binding by 30 mg of hepatic cytosolic proteins was 4.5 nmol for controls and 10.4 nmol for NAR. Isoelectric focusing of liver cytosol revealed no quantitative or qualitative differences in glutathione S-transferase isozymes between control and mutant animals. Intravenously administered BSP (5 mumol/kg) rapidly appeared in bile as the free form and the glutathione conjugate in normal rats and NAR; 41% and 57% of injected BSP was excreted within 60 min in NAR and control rat bile, respectively. These results indicate that binding of BSP to plasma albumin is not indispensable to transhepatocyte transport of BSP in vivo.
为研究血浆白蛋白在肝脏对有机阴离子的向量转运中的可能作用,我们在正常大鼠和突变型长谷部无白蛋白血症大鼠(NAR)中研究了磺溴酞钠(BSP)的血浆消失情况及其与血浆和肝细胞溶质蛋白的相互作用。静脉注射BSP后,NAR和对照动物的血浆BSP均迅速下降:NAR和对照动物中BSP的血浆清除率分别为每千克12.45和7.40毫升/分钟。用对照大鼠血清对BSP进行凝胶排阻葡聚糖G - 100层析,在空体积处出现一个蛋白峰,在白蛋白组分中出现另一个蛋白峰。BSP仅与白蛋白组分一起层析;BSP与血浆白蛋白的结合呈化学计量关系。用NAR血清进行的类似研究在空体积处显示出一个单一的蛋白峰;少量BSP与该蛋白峰一起层析。与NAR血清蛋白一起层析的BSP量是与对照大鼠血清白蛋白一起层析的BSP量的8%。用对照大鼠肝细胞溶质对BSP进行葡聚糖G - 100层析,在对应于空体积(组分X)、白蛋白、谷胱甘肽S - 转移酶(组分Y,分子量45,000)和组分Z(分子量12,000)的组分中显示出四个蛋白结合BSP峰;组分Y是BSP结合的主要成分。用BSP对NAR肝细胞溶质进行凝胶层析显示出三个BSP峰,即组分X、Y和Z;组分X是BSP结合的主要成分。30毫克肝细胞溶质蛋白对BSP的总结合量,对照动物为4.5纳摩尔,NAR为10.4纳摩尔。肝细胞溶质的等电聚焦显示对照动物和突变动物之间谷胱甘肽S - 转移酶同工酶在数量或质量上没有差异。静脉注射的BSP(5微摩尔/千克)在正常大鼠和NAR中迅速以游离形式和谷胱甘肽共轭物的形式出现在胆汁中;在NAR和对照大鼠胆汁中,分别有41%和57%的注射BSP在60分钟内排出。这些结果表明,BSP与血浆白蛋白的结合对于体内BSP经肝细胞转运并非必不可少。