Aliau S, Delettre G, Mattras H, El Garrouj D, Nique F, Teutsch G, Borgna J L
INSERM Unité 439, 70 rue de Navacelles, 34090 Montpellier, France, and Hoechst Marion Roussel, 102 route de Noisy, 93235 Romainville Cedex, France.
J Med Chem. 2000 Feb 24;43(4):613-28. doi: 10.1021/jm990179s.
Ten electrophilic estradiol 11beta-aryl derivatives were synthesized, with three different types of 11beta-substituent: (i) pOO(CH(2))(2)X (compounds: 6, X = OSO(2)CH(3); 7, X = I; 13, X = NHCOCH(2)Cl; 15, X = N(CH(3))COCH(2)Br; and 16, X = N(CH(3))COCH(2)Cl); (ii) pOO(CH(2))(5)X (compounds: 17, X = I; 20, X = NHCOCH(2)Br; and 22, X = N(CH(3))COCH(2)Br); and (iii) pOC(triple bond)CCH(2)X (compounds: 27, X = NHCOCH(2)Cl; and 29, X = N(CH(3))COCH(2)Cl). The range of their apparent affinity constants for binding the lamb uterine estrogen receptor alpha (ERalpha) was 3-40% that of estradiol. Six electrophiles, chloroacetamides 13, 16, 27, and 29, iodide 17, and bromoacetamide 20 (whose arm linking the electrophilic carbon to the 11beta-phenyl group includes at least six bonds), were able to irreversibly inhibit the binding of [(3)H]estradiol to ER (25-60% decrease in binding sites), with the following compound effectiveness order: 17 < 13 < 16 approximately 20 approximately 27 approximately 29. Mesylate 6, iodide 7 (whose linking arm includes only three bonds), and bromoacetamides 15 and 22 (which differ from 16 by the Cl to Br change and from 20 by the NH to NCH(3) change, respectively) were much less effective (<10% decrease in binding sites, if any). The fact that the inactivation of estradiol-binding sites by the six electrophiles was totally prevented by estradiol indicated that they were ER affinity labeling agents. When ER was modified by methyl methanethiosulfonate, an SH-specific reagent, the different compounds led to very contrasting results in ER affinity labeling. With modified ER, iodide 17 and chloroacetamides 27 and 29 were practically inactive, chloroacetamides 13 and 16 and bromoacetamide 20 were still active but less effective than on the native ER, whereas tertiary bromoacetamides 15 and 22, found to be practically inactive on native ER, became the most effective electrophiles ( approximately 45% and approximately 65% binding sites inactivated, respectively). The results indicate that in the steroid-filled hormone-binding pocket: (i) nucleophilic residues are localized on the beta-side but relatively remote from the steroid nucleus (distance from C-11 > "seven bonds"); (ii) relatively discrete changes in the electrophilic functionality, such as Cl to Br or NH to NCH(3) of haloacetamido compounds, can markedly modify the positioning of the electrophilic center which could no longer react with the nucleophilic residues; and (iii) cysteine residues (probably homologues of human ERalpha cysteine 381 and/or cysteine 530) are, at least partly, the covalent attachment sites of the electrophiles. Moreover, modification of cysteine residues by methyl methanethiosulfonate changes the structure of the hormone-binding pocket, whose labeling by the various electrophiles is profoundly altered.
合成了十种亲电雌二醇11β - 芳基衍生物,带有三种不同类型的11β - 取代基:(i) pOO(CH₂)₂X(化合物:6,X = OSO₂CH₃;7,X = I;13,X = NHCOCH₂Cl;15,X = N(CH₃)COCH₂Br;以及16,X = N(CH₃)COCH₂Cl);(ii) pOO(CH₂)₅X(化合物:17,X = I;20,X = NHCOCH₂Br;以及22,X = N(CH₃)COCH₂Br);以及(iii) pOC≡CCH₂X(化合物:27,X = NHCOCH₂Cl;以及29,X = N(CH₃)COCH₂Cl)。它们与羔羊子宫雌激素受体α(ERα)结合的表观亲和常数范围为雌二醇的3 - 40%。六种亲电试剂,氯乙酰胺13、16、27和29、碘化物17以及溴乙酰胺20(其将亲电碳连接到11β - 苯基的臂至少包含六个键)能够不可逆地抑制[³H]雌二醇与ER的结合(结合位点减少25 - 60%),化合物的有效性顺序如下:17 < 13 < 16 ≈ 20 ≈ 27 ≈ 29。甲磺酸盐6、碘化物7(其连接臂仅包含三个键)以及溴乙酰胺15和22(分别与16的区别在于Cl变为Br以及与20的区别在于NH变为NCH₃)效果要差得多(结合位点减少<10%,若有减少的话)。六种亲电试剂对雌二醇结合位点的失活被雌二醇完全阻止,这表明它们是ER亲和标记剂。当用甲硫基磺酸甲酯(一种SH特异性试剂)对ER进行修饰时,不同化合物在ER亲和标记中导致非常不同的结果。对于修饰后的ER,碘化物17以及氯乙酰胺27和29实际上无活性,氯乙酰胺13和16以及溴乙酰胺20仍然有活性但比天然ER的效果差,而叔溴乙酰胺15和22在天然ER上实际上无活性,却成为最有效的亲电试剂(分别使约45%和约65%的结合位点失活)。结果表明,在充满类固醇的激素结合口袋中:(i) 亲核残基位于β侧但相对远离类固醇核(距C - 11的距离 > “七个键长”);(ii) 亲电官能团的相对离散变化,如卤代乙酰胺化合物中的Cl变为Br或NH变为NCH₃,可显著改变亲电中心的定位,使其不再能与亲核残基反应;以及(iii) 半胱氨酸残基(可能是人类ERα半胱氨酸381和/或半胱氨酸530的同源物)至少部分是亲电试剂的共价连接位点。此外,甲硫基磺酸甲酯对半胱氨酸残基的修饰改变了激素结合口袋的结构,其被各种亲电试剂的标记也发生了深刻变化。
