δ-氨基乙酰丙酸脱水酶基因型改变口服二巯基琥珀酸后4小时尿铅排泄量。
delta-Aminolevulinic acid dehydratase genotype modifies four hour urinary lead excretion after oral administration of dimercaptosuccinic acid.
作者信息
Schwartz B S, Lee B K, Stewart W, Sithisarankul P, Strickland P T, Ahn K D, Kelsey K
机构信息
Department of Environmental Health Sciences, Johns Hopkins School of Hygiene and Public Health, Baltimore, MD, USA.
出版信息
Occup Environ Med. 1997 Apr;54(4):241-6. doi: 10.1136/oem.54.4.241.
OBJECTIVES
Previous research suggests that binding of lead by delta-aminolevulinic acid dehydratase (ALAD) may vary by ALAD genotype. This hypothesis was tested by examining whether ALAD genotype modifies urinary lead excretion (DMSA chelatable lead) after oral administration of dimercaptosuccinic acid (DMSA).
METHODS
57 South Korean lead battery manufacturing workers were given 5 mg/kg oral DMSA and urine was collected for four hours. Male workers were randomly selected from two ALAD genotype strata (ALAD1-1, ALAD1-2) from among all current workers in the two plants (n = 290). Subjects with ALAD1-1 (n = 38) were frequency matched with subjects with ALAD1-2 (n = 19) on duration of employment in the lead industry. Blood lead, zinc protoporphyrin, and plasma aminolevulinic acid concentrations, as well as ALAD genotype, duration of exposure, current tobacco use, and weight were examined as predictors or effect modifiers of levels of DMSA chelatable lead.
RESULTS
Blood lead concentrations ranged from 11 to 53 micrograms/dl, with a mean (SD) of 25.4 (10.2) micrograms/dl. After 5 mg/kg DMSA orally, the workers excreted a mean (SD) 85.4 (45.0) micrograms lead during a four hour urine collection (range 16.5-184.1 micrograms). After controlling for blood lead concentrations, duration of exposure, current tobacco use, and body weight, subjects with ALAD1-2 excreted, on average, 24 micrograms less lead during the four hour urine collection than did subjects with ALAD1-1 (P = 0.05). ALAD genotype seemed to modify the relation between plasma delta-aminolevulinic acid (ALA) and DMSA chelatable lead. Workers with ALAD1-2 excreted more lead, after being given DMSA, with increasing plasma ALA than did workers with ALAD1-1 (P value for interaction = 0.01).
CONCLUSIONS
DMSA chelatable lead may partly reflect the stores of bioavailable lead, and the current data indicate that subjects with ALAD1-2 have lower stores than those with ALAD1-1. These data provide further evidence that the ALAD genotype modifies the toxicokinetics of lead-for example, by differential binding of current lead stores or by differences in long-term retention and deposition of lead.
目的
先前的研究表明,δ-氨基乙酰丙酸脱水酶(ALAD)与铅的结合可能因ALAD基因型而异。通过检查ALAD基因型是否会改变口服二巯基丁二酸(DMSA)后尿铅排泄(DMSA可螯合铅)来验证这一假设。
方法
57名韩国铅酸蓄电池制造工人口服5mg/kg DMSA,并收集4小时尿液。男性工人从两家工厂所有在职工人的两个ALAD基因型分层(ALAD1-1、ALAD1-2)中随机选取(n = 290)。将ALAD1-1基因型的受试者(n = 38)与ALAD1-2基因型的受试者(n = 19)按在铅行业的工作年限进行频率匹配。检测血铅、锌原卟啉、血浆氨基乙酰丙酸浓度,以及ALAD基因型、接触时间、当前吸烟情况和体重,将其作为DMSA可螯合铅水平的预测因素或效应修饰因素。
结果
血铅浓度范围为11至53微克/分升,平均(标准差)为25.4(10.2)微克/分升。口服5mg/kg DMSA后,工人在4小时尿液收集期间平均(标准差)排泄85.4(45.0)微克铅(范围为16.5 - 184.1微克)。在控制血铅浓度、接触时间、当前吸烟情况和体重后,ALAD1-2基因型的受试者在4小时尿液收集期间平均排泄的铅比ALAD1-1基因型的受试者少24微克(P = 0.05)。ALAD基因型似乎改变了血浆δ-氨基乙酰丙酸(ALA)与DMSA可螯合铅之间的关系。给予DMSA后,随着血浆ALA升高,ALAD1-2基因型的工人比ALAD1-1基因型的工人排泄更多的铅(交互作用P值 = 0.01)。
结论
DMSA可螯合铅可能部分反映了生物可利用铅的储存情况,目前的数据表明,ALAD1-2基因型的受试者比ALAD1-1基因型的受试者储存量更低。这些数据进一步证明,ALAD基因型改变了铅的毒代动力学——例如,通过对当前铅储存的不同结合方式或铅的长期潴留和沉积差异。
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