甲氧基羰基-卡波屈酯的体内和体外药理学研究。
In vivo and in vitro pharmacological studies of methoxycarbonyl-carboetomidate.
机构信息
Massachusetts General Hospital, Boston, MA, USA.
出版信息
Anesth Analg. 2012 Aug;115(2):297-304. doi: 10.1213/ANE.0b013e3182320559. Epub 2011 Sep 29.
BACKGROUND
We previously developed 2 etomidate analogs that retain etomidate's favorable hemodynamic properties but whose adrenocortical effects are reduced in duration or magnitude. Methoxycarbonyl (MOC)-etomidate is rapidly metabolized and ultrashort acting whereas (R)-ethyl 1-(1-phenylethyl)-1H-pyrrole-2-carboxylate (carboetomidate) does not potently inhibit 11β-hydroxylase. We hypothesized that MOC-etomidate's labile ester could be incorporated into carboetomidate to produce a new agent that possesses favorable properties individually found in each agent. We describe the synthesis and pharmacology of MOC-(R)-ethyl 1-(1-phenylethyl)-1H-pyrrole-2-carboxylate (MOC-carboetomidate), a "soft" analog of carboetomidate.
METHODS
MOC-carboetomidate's octanol:water partition coefficient was determined chromatographically and compared with those of etomidate, carboetomidate, and MOC-etomidate. MOC-carboetomidate's 50% effective concentration (EC(50)) and 50% effective dose for loss of righting reflexes (LORR) were measured in tadpoles and rats, respectively. Its effect on γ-aminobutyric acid A (GABA(A)) receptor function was assessed using 2-microelectrode voltage clamp electrophysiological techniques and its metabolic stability was determined in pooled rat blood using high performance liquid chromatography. Its duration of action and effects on arterial blood pressure and adrenocortical function were assessed in rats.
RESULTS
MOC-carboetomidate's octanol:water partition coefficient was 3300 ± 280, whereas those for etomidate, carboetomidate, and MOC-etomidate were 800 ± 180, 15,000 ± 3700, and 190 ± 25, respectively. MOC-carboetomidate's EC(50) for LORR in tadpoles was 9 ± 1 μM and its EC(50) for LORR in rats was 13 ± 5 mg/kg. At 13 μM, MOC-carboetomidate enhanced GABA(A) receptor currents by 400% ± 100%. Its metabolic half-life in pooled rat blood was 1.3 min. The slope of a plot of the duration of LORR in rats versus the logarithm of the hypnotic dose was significantly shallower for MOC-carboetomidate than for carboetomidate (4 ± 1 vs 15 ± 3, respectively; P = 0.0004123). At hypnotic doses, the effects of MOC-carboetomidate on arterial blood pressure and adrenocortical function were not significantly different from those of vehicle alone.
CONCLUSIONS
MOC-carboetomidate is a GABA(A) receptor modulator with potent hypnotic activity that is more rapidly metabolized and cleared from the brain than carboetomidate, maintains hemodynamic stability similar to carboetomidate, and does not suppress adrenocortical function.
背景
我们之前开发了 2 种依托咪酯类似物,它们保留了依托咪酯的有利血流动力学特性,但肾上腺皮质抑制作用的持续时间或强度降低。甲氧羰基(MOC)-依托咪酯代谢迅速,作用超短,而(R)-乙基 1-(1-苯基乙基)-1H-吡咯-2-羧酸酯(卡泊依托咪酯)则不能强烈抑制 11β-羟化酶。我们假设 MOC-依托咪酯不稳定的酯可以被整合到卡泊依托咪酯中,产生一种具有每个药物各自特性的新药物。我们描述了 MOC-(R)-乙基 1-(1-苯基乙基)-1H-吡咯-2-羧酸酯(MOC-卡泊依托咪酯)的合成和药理学,MOC-卡泊依托咪酯是卡泊依托咪酯的“软”类似物。
方法
MOC-卡泊依托咪酯的辛醇:水分配系数通过色谱法测定,并与依托咪酯、卡泊依托咪酯和 MOC-依托咪酯的分配系数进行比较。分别在蝌蚪和大鼠中测定 MOC-卡泊依托咪酯的半数有效浓度(EC50)和失去翻正反射(LORR)的半数有效剂量。采用双微电极电压钳电生理技术评估其对γ-氨基丁酸 A(GABA(A))受体功能的影响,并采用高效液相色谱法在混合大鼠血液中测定其代谢稳定性。在大鼠中评估其作用持续时间及其对动脉血压和肾上腺皮质功能的影响。
结果
MOC-卡泊依托咪酯的辛醇:水分配系数为 3300±280,而依托咪酯、卡泊依托咪酯和 MOC-依托咪酯的辛醇:水分配系数分别为 800±180、15000±3700 和 190±25。MOC-卡泊依托咪酯在蝌蚪中的 LORR EC50 为 9±1μM,在大鼠中的 LORR EC50 为 13±5mg/kg。在 13μM 时,MOC-卡泊依托咪酯增强 GABA(A)受体电流 400%±100%。其在混合大鼠血液中的代谢半衰期为 1.3 分钟。MOC-卡泊依托咪酯引起大鼠 LORR 持续时间与催眠剂量对数关系的斜率明显小于卡泊依托咪酯(4±1 对 15±3,分别;P=0.0004123)。在催眠剂量下,MOC-卡泊依托咪酯对动脉血压和肾上腺皮质功能的影响与单独使用载体无显著差异。
结论
MOC-卡泊依托咪酯是一种 GABA(A)受体调节剂,具有很强的催眠活性,比卡泊依托咪酯代谢和清除更快,保持与卡泊依托咪酯相似的血液动力学稳定性,并且不抑制肾上腺皮质功能。
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