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双底物:与肾腔侧有机阴离子和有机阳离子转运系统均相互作用的物质。二、两性离子底物:二肽、头孢菌素、喹诺酮羧酸类回旋酶抑制剂和磷酰胺噻嗪羧酸盐;非离子化底物:甾体激素和环磷酰胺。

Bisubstrates: substances that interact with both, renal contraluminal organic anion and organic cation transport systems. II. Zwitterionic substrates: dipeptides, cephalosporins, quinolone-carboxylate gyrase inhibitors and phosphamide thiazine carboxylates; nonionizable substrates: steroid hormones and cyclophosphamides.

作者信息

Ullrich K J, Rumrich G, David C, Fritzsch G

机构信息

Max-Planck-Institut für Biophysik, Frankfurt/Main, Germany.

出版信息

Pflugers Arch. 1993 Nov;425(3-4):300-12. doi: 10.1007/BF00374180.

Abstract

In order to test what chemical structure is required for a substrate to interact not only with the contraluminal organic anion (p-aminohippurate, PAH) transporter, but also with the organic cation (N1-methylnicotinamide, NMeN, or tetraethylammonium, TEA) transporter, the stop-flow peritubular capillary perfusion method was applied and app. Ki values were evaluated. Zwitterionic hydrophobic dipeptides not only interact with PAH but also with NMeN transport although with lower inhibitory potency (Ki,PAH = 0.2-1.4; Ki,NMeN 6-14 mmol/l). Amongst the zwitterionic cephalosporins, which all inhibit PAH transport, the amino cephalosporin analogue cefadroxil was identified to interact also with NMeN transport (Ki,PAH = 3.0, Ki,NMeN = 11.2 mmol/l). All zwitterionic naphthyridine and oxochinoline gyrase inhibitors tested inhibit NMeN transport with app. Ki,NMeN values between 1.2 mmol/l and 4.7 mmol/l; the naphthyridine analogues show a good inhibitory potency against PAH transport (Ki,PAH approximately 0.4 mmol/l), the piperazine-containing quinolone analogues have a moderate inhibitory potency (Ki,PAH = 1.1-2.5 mmol/l) and the piperazine-containing pipemidic acid did not inhibit PAH transport at all. Zwitterionic thiazolidine carboxylate phosphamides also interact with both transporters (app. Ki,PAH approximately 3.0; app. Ki,NMeN approximately 18.0 mmol/l). The nonionizable oxo- and hydroxy-group-containing corticosteroid hormones also interact with the two transporters. (a) An OH group in position 21 is necessary for interaction with the PAH transporter, but not for interaction with the TEA transporter. (b) Introduction of an OH group in position 17 alpha abolishes interaction with the TEA transporter, but has different effects with the PAH transporter. (c) Introduction of an OH group in position 6 abolishes interaction with both, the PAH and the TEA transporter. (d) A change of the side-group in position 11 of corticosterone from -OH to -H to = O enhances interaction with the PAH transporter but has no effect on the interaction with the TEA transporter. Nonionizable 4- or 5-androstene analogues inhibit both transporters with app. Ki between 0.16 mmol/l and 0.64 mmol/l, if the steroids are soluble in a concentration greater than 1 mmol/l. Nonionizable oxazaphosphorins with more than one chloroethyl group interact with the PAH transporter with app. Ki between 0.84 mmol/l and 4.9 mmol/l and with the NMeN transporter with app. Ki between 3.2 mmol/l and 18.7 mmol/l. Thus a substrate interacts with both transporters if it is sufficiently hydrophobic, possesses acidic and/or electron-attracting plus basic and/or electron-donating groups, or possesses several electron-attracting nonionizable groups (O, OH, Cl). A certain spatial arrangement of the interacting groups seems to be necessary.

摘要

为了测试底物不仅与对腔有机阴离子(对氨基马尿酸,PAH)转运体相互作用,还与有机阳离子(N1-甲基烟酰胺,NMeN,或四乙铵,TEA)转运体相互作用所需的化学结构,应用了停流肾小管周围毛细血管灌注法并评估了近似Ki值。两性离子型疏水二肽不仅与PAH相互作用,还与NMeN转运相互作用,尽管抑制效力较低(Ki,PAH = 0.2 - 1.4;Ki,NMeN 6 - 14 mmol/L)。在所有抑制PAH转运的两性离子型头孢菌素中,氨基头孢菌素类似物头孢羟氨苄被鉴定也与NMeN转运相互作用(Ki,PAH = 3.0,Ki,NMeN = 11.2 mmol/L)。所有测试的两性离子型萘啶和氧喹啉回旋酶抑制剂均抑制NMeN转运,近似Ki,NMeN值在1.2 mmol/L至4.7 mmol/L之间;萘啶类似物对PAH转运显示出良好的抑制效力(Ki,PAH约为0.4 mmol/L),含哌嗪的喹诺酮类似物具有中等抑制效力(Ki,PAH = 1.1 - 2.5 mmol/L),而含哌嗪的吡哌酸根本不抑制PAH转运。两性离子型噻唑烷羧酸磷酰胺也与两种转运体相互作用(近似Ki,PAH约为3.0;近似Ki,NMeN约为18.0 mmol/L)。非离子化的含氧和羟基的皮质类固醇激素也与这两种转运体相互作用。(a) 21位上的OH基团对于与PAH转运体相互作用是必需的,但对于与TEA转运体相互作用不是必需的。(b) 在17α位引入OH基团会消除与TEA转运体的相互作用,但对PAH转运体有不同影响。(c) 在6位引入OH基团会消除与PAH和TEA转运体两者的相互作用。(d) 皮质酮11位侧链从 -OH变为 -H再变为 = O会增强与PAH转运体的相互作用,但对与TEA转运体的相互作用没有影响。如果类固醇的溶解度大于1 mmol/L,非离子化的4-或5-雄烯类似物以近似0.16 mmol/L至0.64 mmol/L的Ki抑制两种转运体。具有多个氯乙基的非离子化恶唑磷与PAH转运体相互作用,近似Ki在0.84 mmol/L至4.9 mmol/L之间,与NMeN转运体相互作用,近似Ki在3.2 mmol/L至18.7 mmol/L之间。因此,如果底物足够疏水、具有酸性和/或吸电子基团以及碱性和/或供电子基团,或者具有几个吸电子非离子化基团(O、OH、Cl),则它会与两种转运体相互作用。相互作用基团的某种空间排列似乎是必要的。

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