YAKUGAKU ZASSHI 118 巻, 2 号

臨床化学への応用を目標とした高効率分離と高感度分析

Highly effective separation and highly sensitive detection reagents for clinical chemistry and biochemistry were developed and their applications were investigated. The sensitive detection of carboxylic acids was accomplished using 9-anthryldiazomethane (ADAM) which gave intensely fluorescent derivatives from carboxylic acids without catalysts or heating. 1-Pyrenyldiazomethane was then synthesized and proved to react also readily with carboxylic acid and more sensitive than ADAM. The optical resolution of amino acid enantiomers was achieved using 2, 3, 4, 6-tetra-O-acetyl-β-D-glucopyranosyl isothiocyanate (GITC). GITC derivatized enantiomeric amino acids under mild conditions to give highly hydrophobic diastereomers which could be resolved on conventional reversed phase columns and easily detected by the absorption based on the thiourea structure. Then we devised an o-phthalaldehyde-N-acetylcystein reagent (OPA/NAcCys) giving diastereomers which were also resolved on a reversed phase column and detected fluorometrically with excellent sensitivity. OPA/NAcCys was useful for the assay of D-amino acids in the blood of uremic patients. The hypochlorite-thiamine method for the assay of proteins and peptides was established providing sensitive fluorometry, which well reflected the number of peptide groups in the molecule. This principle was applied to the assay using N-chlorodansylamide, designed for the fluorometry of peptides. The alkaline ninhydrin method was applied to the detection of guanidino compounds in the blood of uremic patients. Several fluorometric methods for the simultaneous detection of reducing and non-reducing carbohydrates, and guanidines were found to be useful reagents for this purpose because these compounds were resistant to the oxidation with periodate. Then protamine-bound columns were prepared for the separation of carbohydrates on HPLC, which showed excellent recovery of reducing carbohydrates in comparison with conventional alkylamino columns.

ムコ多糖類のスカベンジャー受容体介在性細胞取り込みの薬物動態学的解析

Although the scavenger receptor-mediated uptake has been qualitatively investigated in the research fields of biochemistry and pathology, pharmacokinetic characteristics of the scavenger receptors are poorly understood. In this review, we summarized basic findings on scavenger receptors reported in available literatures, and introduced our recent studies on the quantitative characteristics of the scavenger receptor-mediated uptake. High molecular weight fractionated [³H] heparin (HMWFH, 16000-24000 Da), one of the model mucopolysaccharides, was investigated to elucidate its uptake mechanism into isolated rat Kupffer cells, isolated peritoneal macrophages and liver parenchymal cells in primary culture. The equilibrium bindings of HMWFH to isolated Kupffer cells and peritoneal macrophages were concentration-dependent with the respective dissociation constants (K_d) of 5.7 and 6.0 nM and with the respective maximum binding capacities (B_max) of 1.5 and 1.9 pmol/10⁶ cells. Several ligands of scavenger receptors inhibited the binding of HMWFH to macrophages, suggesting the involvement of scavenger receptors in the uptake of HMWFH by these macrophages. It was also suggested that the scavenger receptor-mediated uptake is different from the receptor-mediated endocytosis of polypeptides and phagocytosis, based on the evidence of the now inhibitory effects of an inhibitor of receptor-mediated endocytosis of polypeptides (phenylarsine oxide) and phagocytosis inhibitors (cytochalasine B and colchicine) on the internalization. The involvement of scavenger-like receptors was also suggested in the uptake of HMWFH by liver parenchymal cells in primary culture by demonstrating inhibitory effects of ligands for scavenger receptors. The internalization into liver parenchymal cells by scavenger-like receptors was not affected by an inhibitor of receptor-mediated endocytosis of polypeptides and phagocytosis inhibitors, similarly to the results in the macrophage scavenger receptors. The K_d of 53.5 nM and B_max of 32.8 pmol/10⁶ cells in parenchymal cells were both in the order of magnitude larger than those in isolated Kupffer cells, suggesting the binding of HMWFH to scavenger-like receptors in parenchymal cells with lower affinity and higher capacity. On the other hand, an apparent internalization rate constant (k_{int, app}) of 0.0056 min^-1 was comparable with that in Kupffer cells (0.0118 min^-1). Thus, we demonstrated the involvement of scavenger receptors in the uptake of HMWFH by rat Kupffer cells, peritoneal macrophages and liver parenchymal cells, and succeeded in characterizing the uptake kinetically. These findings should provide useful information for not only establishing the rational clinical use of mucopolysaccharides but also developing new drugs such as antiatherosclerotic agents and peptides delivered to cells with scavenger receptors.

エチルセルロースを結合剤として用いたタルク積層法によるイブプロフェンの溶出制御技術

We studied the controlled release dosage form of ibuprofen which was layered by talc with an ethylcellulose (EC) binder. In this dosage form, the amount of EC was variable in the range of 4.1-6.0 g according to the operating conditions (e.g. slit air temperature). However the release rate of ibuprofen was changed according to these conditions. It was, therefore, difficult to assure the reproducible productivity of sustained-release granules of ibuprofen. We designed formulations of EC binder solutions ; EC-ethanol, EC-ethanol-water and EC-ethanol-water-hydroxypropylmethylcellulose (HPMC), and investigated the release rate of ibuprofen which was prepared by each formulation. The results showed that the release rate of ibuprofen was not changed in the range of 4.2-10.3 g of the amount of EC used in the EC-ethanol-water-HPMC formulation.