Farmer Peter B, Kaur Balvinder, Roach Jonathan, Levy Len, Consonni Dario, Bertazzi Pietro A, Pesatori Angela, Fustinoni Silvia, Buratti Marina, Bonzini Matteo, Colombi Antonio, Popov Todor, Cavallo Domenico, Desideri Arianna, Valerio Federico, Pala Mauro, Bolognesi Claudia, Merlo Franco
Cancer Biomarkers and Prevention Group, Biocentre, University of Leicester, University Road, Leicester LE1 7RH, UK.
Chem Biol Interact. 2005 May 30;153-154:97-102. doi: 10.1016/j.cbi.2005.03.013. Epub 2005 Apr 8.
S-Phenylmercapturic acid (S-PMA), is a urinary metabolite of benzene, thought to be derived from the condensation product of benzene oxide with glutathione. S-PMA may be determined by GC, HPLC (UV or fluorescence detection), GC-MS, LC-MS/MS or immunoassays. The limit of sensitivities of most of these techniques is 1 microg/l urine or below. It has been suggested that S-PMA may have value as a biomarker for low level human exposure to benzene, in view of the facts that urinary excretion of S-PMA has been found to be related to airborne benzene in occupationally exposed workers, and that only low background levels of S-PMA have been found in control subjects. We have evaluated the use of S-PMA as a biomarker, using a commercially available analytical service, in a multicentre European study of populations exposed to varying levels of benzene, in Italy (Milan, Genoa) and in Bulgaria (Sofia). These were filling station attendants, urban policemen, bus drivers, petrochemical workers and referents (a total of 623 subjects). S-PMA was measured at the end of the work shift by an immunoassay procedure. Urinary benzene (in Milan only) and the benzene metabolite trans,trans-muconic acid (t,t-MA) were measured before and after the work shift. Air-borne benzene was measured as a monitor of exposure. Urinary benzene was the most discriminatory biomarker and showed a relationship with airborne benzene at all levels of exposure studied (including groups exposed to <0.1 ppm benzene), whereas t,t-MA and S-PMA, as determined by immunoassay, were suitable only in the highest exposed workers (petrochemical industry, geometric mean 1765 microg/m3 (0.55 ppm) benzene). All three biomarkers were positively correlated with smoking as measured by urinary cotinine).
S-苯基巯基尿酸(S-PMA)是苯的一种尿液代谢产物,被认为源自氧化苯与谷胱甘肽的缩合产物。S-PMA可通过气相色谱法(GC)、高效液相色谱法(HPLC,紫外或荧光检测)、气相色谱-质谱联用(GC-MS)、液相色谱-串联质谱联用(LC-MS/MS)或免疫测定法进行测定。这些技术大多的检测灵敏度极限为1微克/升尿液或更低。鉴于在职业暴露工人中发现S-PMA的尿排泄量与空气中苯含量有关,且在对照受试者中仅发现低背景水平的S-PMA,有人提出S-PMA可能作为低水平人体苯暴露的生物标志物具有价值。在一项针对意大利(米兰、热那亚)和保加利亚(索非亚)不同苯暴露水平人群的多中心欧洲研究中,我们利用一项商业分析服务评估了S-PMA作为生物标志物的用途。这些人群包括加油站工作人员、城市警察、公交车司机、石化工人及对照者(共623名受试者)。在轮班结束时通过免疫测定程序测量S-PMA。在轮班前和轮班后测量尿苯(仅在米兰)和苯代谢产物反,反-粘康酸(t,t-MA)。测量空气中苯作为暴露监测指标。尿苯是最具区分性的生物标志物,在所研究的所有暴露水平(包括暴露于<0.1 ppm苯的组)下均与空气中苯存在关联,而通过免疫测定法测定的t,t-MA和S-PMA仅适用于暴露水平最高的工人(石化行业,苯的几何平均浓度为1765微克/立方米(0.55 ppm))。所有这三种生物标志物与通过尿可替宁测量的吸烟量均呈正相关。
