Opanasopit P, Shirashi K, Nishikawa M, Yamashita F, Takakura Y, Hashida M
Department of Drug Delivery Research, Graduate School of Pharmaceutical Sciences, Kyoto University, Sakyo-ku, Kyoto 606-8501, Japan.
Am J Physiol Gastrointest Liver Physiol. 2001 May;280(5):G879-89. doi: 10.1152/ajpgi.2001.280.5.G879.
In vivo recognition of mannosylated proteins by hepatic mannose receptors and serum mannan-binding protein (MBP) was investigated in mice. After intravenous administration, all three different (111)In-mannosylated proteins were taken up mainly by liver, and uptake was saturated with increasing doses. (111)In-Man-superoxide dismutases and (111)In-Man(12)- and (111)In-Man(16)-BSA had simple dose-dependent pharmacokinetic profiles, whereas other derivatives ((111)In-Man(25)-, -Man(35)-, and -Man(46)-BSA and (111)In-Man-IgGs) showed slow hepatic uptake at <1 mg/kg. Purified MBP experiments in vitro indicated that these derivatives bind to MBP in serum after injection, which interferes with their hepatic uptake. To quantitatively evaluate these recognition properties in vivo, a pharmacokinetic model-based analysis was performed for (111)In-Man-BSAs, estimating some parameters, including the Michaelis-Menten constant of the hepatic uptake and the dissociation constant of MBP, which correlate to the affinity of Man-BSAs for mannose receptors and MBP, respectively. The dissociation constant of Man-BSA and MBP decreased dramatically with increasing density of mannose, but the Michaelis-Menten constant of hepatic uptake of Man-BSA was not so sensitive to the change in density. This suggests that the in vivo recognition of MBP has a stronger cluster effect than that of mannose receptors. Differences obtained here are due to the unique arrangement of carbohydrate recognition domains on each mannose-specific lectin available for mannosylated ligand recognition.
在小鼠体内研究了肝脏甘露糖受体和血清甘露聚糖结合蛋白(MBP)对甘露糖基化蛋白的识别。静脉注射后,所有三种不同的(111)铟标记甘露糖基化蛋白主要被肝脏摄取,且摄取量随剂量增加而饱和。(111)铟标记的超氧化物歧化酶以及(111)铟标记的甘露糖(12)-和甘露糖(16)-牛血清白蛋白(BSA)具有简单的剂量依赖性药代动力学特征,而其他衍生物((111)铟标记的甘露糖(25)-、甘露糖(35)-和甘露糖(46)-BSA以及(111)铟标记的甘露糖-免疫球蛋白(IgG))在剂量<1mg/kg时肝脏摄取缓慢。体外纯化MBP实验表明,这些衍生物在注射后与血清中的MBP结合,这会干扰它们的肝脏摄取。为了在体内定量评估这些识别特性,对(111)铟标记的甘露糖-BSA进行了基于药代动力学模型的分析,估算了一些参数,包括肝脏摄取的米氏常数和MBP的解离常数,它们分别与甘露糖-BSA对甘露糖受体和MBP的亲和力相关。甘露糖-BSA与MBP的解离常数随着甘露糖密度的增加而显著降低,但甘露糖-BSA肝脏摄取的米氏常数对密度变化不太敏感。这表明MBP在体内的识别比甘露糖受体具有更强的簇集效应。这里获得的差异是由于每种甘露糖特异性凝集素上可用于识别甘露糖基化配体的碳水化合物识别结构域的独特排列。
