Institute of Agricultural Biology and Biotechnology, National Research Council, via Moruzzi 1, 56124 Pisa, Italy.
Chiesi Farmaceutici S.P.A., via Palermo 26/A, Parma, Italy.
Biochem Pharmacol. 2018 Apr;150:64-71. doi: 10.1016/j.bcp.2018.01.028. Epub 2018 Feb 3.
Lungs are pharmacologically active organs and the pulmonary drug metabolism is of interest for inhaled drugs design. Carboxylesterases (CESs) are enzymes catalyzing the hydrolysis of many structurally different ester, amide and carbamate chemicals, including prodrugs. For the first time, the presence, kinetics, inhibition and inter-individual variations of the major liver CES isozymes (CES1 and CES2) were investigated in cytosol and microsomes of human lungs from 20 individuals using 4-nitrophenyl acetate (pNPA), 4-methylumbelliferyl acetate (4-MUA), and fluorescein diacetate (FD) as substrates the rates of hydrolysis (V) for pNPA and 4-MUA, unlike FD, were double in microsomes than in cytosol. In these cellular fractions, the V of pNPA, as CES1 marker, were much greater (30-50-fold) than those of FD, as a specific CES2 marker. Conversely, the K values were comparable suggesting the involvement of the same enzymes. Inhibition studies revealed that the FD hydrolysis was inhibited by bis-p-nitrophenylphosphate, phenylmethanesulfonyl fluoride, and loperamide (specific for CES2), whereas the pNPA and 4-MUA hydrolysis inhibition was limited. Inhibitors selective for other esterases missed having any effect on above-mentioned activities. In cytosol and microsomes of 20 lung samples, inter-individual variations were found for the hydrolysis of pNPA (2.5-5-fold), FD or 4-MUA (8-15-fold). Similar variations were also observed in CES1 and CES2 gene expression, although determined in a small number (n = 9) of lung samples. The identification of CES1 and CES2 and their variability in human lungs are important for drug metabolism and design of prodrugs which need to be activated in this organ.
肺是具有药理活性的器官,肺部药物代谢对于吸入性药物设计具有重要意义。羧酸酯酶 (CESs) 是催化许多结构不同的酯、酰胺和氨基甲酸酯类化学物质水解的酶,包括前药。首次使用 4-硝基苯乙酸酯 (pNPA)、4-甲基伞形酮乙酸酯 (4-MUA) 和荧光素二乙酸酯 (FD) 作为底物,研究了来自 20 个人的人肺细胞溶质和微粒体中主要肝 CES 同工酶 (CES1 和 CES2) 的存在、动力学、抑制作用和个体间差异。与 FD 不同,pNPA 和 4-MUA 的水解速率 (V) 在微粒体中是细胞溶质的两倍。在这些细胞部分中,作为 CES1 标记物的 pNPA 的 V 比 FD(作为 CES2 的特异性标记物)大得多(30-50 倍)。相反,K 值相当,表明涉及相同的酶。抑制研究表明,FD 水解被双对硝基苯膦酸酯、苯甲基磺酰氟和洛哌丁胺(特异性针对 CES2)抑制,而 pNPA 和 4-MUA 水解抑制有限。其他酯酶的选择性抑制剂对上述活性没有任何影响。在 20 个肺样本的细胞溶质和微粒体中,发现 pNPA(2.5-5 倍)、FD 或 4-MUA(8-15 倍)的水解存在个体间差异。在 CES1 和 CES2 基因表达中也观察到类似的变化,尽管在少数(n=9)肺样本中确定。CES1 和 CES2 的鉴定及其在人肺中的变异性对于药物代谢和前药设计很重要,这些前药需要在该器官中激活。
