Carrington C D, Abou-Donia M B
Biochem J. 1986 Jun 1;236(2):503-7. doi: 10.1042/bj2360503.
For the purpose of assessing the neurotoxic potential of organophosphorus compounds, it has been determined that paraoxon-preinhibited hen brain has both neurotoxicant (mipafox)-sensitive (neurotoxic esterase; NTE) and -insensitive esterase components. Several experiments designed to investigate the kinetic parameters governing the reaction of these esterases with two substrates and one organophosphorus inhibitor are presented. First, kinetic parameters for the hydrolysis of phenyl valerate and phenyl phenylacetate were measured. At 37 degrees C, the Km values of NTE for phenyl valerate and phenyl phenylacetate were found to be about 1.4 X 10(-3) and 1.6 X 10(-4) M respectively. At 25 degrees C, the Km of NTE for phenyl valerate was determined to be about 2.4 X 10(-3) M. Secondly, the kinetic constants of NTE for mipafox were measured at both 25 degrees C and 37 degrees C. With either phenyl valerate or phenyl phenylacetate as substrate, the Km at 37 degrees C was determined to be about 1.8 X 10(-4) M, and the phosphorylation constant (k2) was about 1.1 min-1. For phenyl valerate only, the Km at 25 degrees C was found to be about 6 X 10(-4) M, and the k2 was about 0.7 min-1. The data obtained at 25 degrees C were analysed by using a two-component model without formation of Michaelis complex, a two-component model with formation of Michaelis complex on the second component (NTE), or a three-component model without formation of Michaelis complex. The fact that the Michaelis model fit the data significantly better than either of the other two models indicates that the higher apparent Ki values that occur with low concentrations of mipafox are due to formation of Michaelis complex at high concentrations, rather than because of the presence of two NTE isoenzymes, as has been suggested by other investigators.
为了评估有机磷化合物的神经毒性潜力,已确定对氧磷预抑制的鸡脑同时具有神经毒剂(丙胺氟磷)敏感(神经毒性酯酶;NTE)和不敏感的酯酶成分。本文介绍了几个旨在研究这些酯酶与两种底物及一种有机磷抑制剂反应的动力学参数的实验。首先,测定了戊酸苯酯和苯乙酸苯酯水解的动力学参数。在37℃时,NTE对戊酸苯酯和苯乙酸苯酯的Km值分别约为1.4×10⁻³和1.6×10⁻⁴M。在25℃时,NTE对戊酸苯酯的Km值测定为约2.4×10⁻³M。其次,在25℃和37℃下均测定了NTE对丙胺氟磷的动力学常数。以戊酸苯酯或苯乙酸苯酯为底物时,37℃时的Km约为1.8×10⁻⁴M,磷酸化常数(k2)约为1.1 min⁻¹。仅对于戊酸苯酯,25℃时的Km约为6×10⁻⁴M,k2约为0.7 min⁻¹。利用无米氏复合物形成的双组分模型、第二组分(NTE)上有米氏复合物形成的双组分模型或无米氏复合物形成的三组分模型对25℃下获得的数据进行分析。米氏模型对数据的拟合明显优于其他两个模型这一事实表明,低浓度丙胺氟磷时出现的较高表观Ki值是由于高浓度下形成了米氏复合物,而不是如其他研究者所提出的那样是由于存在两种NTE同工酶。