苯妥英诱导小鼠腭裂中苯妥英受体与糖皮质激素的关系。

K Inayoshi, Y Ohsaki, K Nagata, K Kurisu
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引用次数: 3

摘要

据报道,苯妥英(PHT)和糖皮质激素(GC)都是导致腭裂的有效致畸剂。作者认为,与PHT竞争性结合的部分gc受体(与PHT共同受体)可能参与腭裂的发生。本研究作为阐明PHT诱导腭裂机制的研究之一,我们对PHT或GC敏感(CF1)和耐药(C57BL/6)小鼠肺组织中PHT受体及其与GC的关系进行了研究。14C-PHT与细胞质蛋白特异性结合的Scatchard分析显示,CF1的pht受体总容量(1571 fmol /mg蛋白)远大于C57BL/6的pht受体(994 fmol /mg蛋白)。而这两株的Kd值分别为18.1 nM和16.5 nM,说明两株间差异不大。GC对CF1的容量(236 fmol /mg)大于对C57BL/6的容量(126 fmol /mg)。但菌株的Kd值分别为5.4 nM和3.1 nM,说明菌株间差异不大。分析表明,两株菌株的肺组织细胞质中也含有相应的PHT受体,其含量远高于普通受体。(摘要删节250字)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The relation between phenytoin-receptor and glucocorticoid in the induction of cleft palate with phenytoin in mice.

Both phenytoin (PHT) and glucocorticoid (GC) have been reported to be an effective teratogen for the production of cleft palate. The authors suggest the possibility that a part of GC-receptor to which PHT competitively bind (common receptor with PHT), participate in the production of cleft palate. In the present study, as one of the studies for the elucidation of the mechanism of cleft palate induction with PHT, we investigated the PHT-receptors and its relation with GC in the lung tissue of mice, which were either sensitive (CF1) or resistant (C57BL/6) to PHT or GC. Scatchard analysis of the specific binding of 14C-PHT to the cytosol protein revealed that the total capacity of PHT-receptor for CF1 (1,571 fmole/mg protein) was much greater than that for C57BL/6 (994 fmole/mg). The value of the Kd's for these strains, however, were 18.1 and 16.5 nM, respectively, indicating the absence of any great difference between both strains. The capacity of the common receptors with GC for CF1 (236 fmole/mg) was greater than that for C57BL/6 (126 fmole/mg). But, the value of the Kd's for these strains were 5.4 and 3.1 nM, respectively, indicating the absence of a great difference between the strains. The analysis indicated that the lung tissue cytosols of both strains also contain the proper receptor for PHT, which is in a much greater amount than that of the common receptor.(ABSTRACT TRUNCATED AT 250 WORDS)

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