Musshoff Frank, Lachenmeier Dirk W, Schmidt Peter, Dettmeyer Reinhard, Madea Burkhard
Institute of Legal Medicine, Rheinische Friedrich-Wilhelms-University, Bonn, Germany.
Alcohol Clin Exp Res. 2005 Jan;29(1):46-52. doi: 10.1097/01.alc.0000150011.81102.c2.
Dopamine (DA)-derived tetrahydroisoquinolines (TIQs) are discussed as neurochemical factors of addiction processes in alcoholism. In a prospective study, the regional distribution of DA, (R)-salsolinol (SAL), and (S)-SAL, as well as norsalsolinol (NorSAL) was examined systematically in a large collective of human brain samples obtained by autopsy.
The material comprises 44 brains of alcoholics and 47 controls with 6 standardized specimens in each case. The analytes were determined after solid-phase extraction and enantioselective derivatization using gas chromatography-mass spectrometry.
Levels of DA, (R/S)-SAL, and NorSAL in alcoholics did not differ significantly from those of the control group. A relationship between alcohol consumption and SAL formation could not be proved. Topical differences and no ubiquitous occurrence were encountered. Significant amounts of (R)-SAL and (S)-SAL as well as NorSAL only were found in DA-rich areas of the basal ganglia, whereas in other regions of the brain, no TIQs were detected. Especially in the nucleus caudatus, the concentrations of DA, SAL, and NorSAL decreased significantly with rising age.
These findings do not support the hypothesis that one of the SAL enantiomers or NorSAL is involved in the genesis of alcoholism. However, they suggest that the concentration of the substrate DA may determine the alkaloid level during in vivo formation. The revealed data can serve as reference for other studies in humans concerning the cause of alcoholism or other neurodegenerative diseases with the involvement of TIQs.
多巴胺(DA)衍生的四氢异喹啉(TIQs)被认为是酒精中毒成瘾过程的神经化学因素。在一项前瞻性研究中,对通过尸检获得的大量人脑样本中DA、(R)-四氢小檗碱(SAL)、(S)-SAL以及去甲四氢小檗碱(NorSAL)的区域分布进行了系统研究。
材料包括44例酒精中毒者的大脑和47例对照者的大脑,每组各有6个标准化样本。使用气相色谱-质谱联用仪,在固相萃取和对映选择性衍生化后测定分析物。
酒精中毒者的DA、(R/S)-SAL和NorSAL水平与对照组相比无显著差异。未证实饮酒量与SAL形成之间存在关联。存在局部差异,并非普遍存在。仅在基底神经节富含DA的区域发现了大量的(R)-SAL、(S)-SAL以及NorSAL,而在大脑的其他区域未检测到TIQs。特别是在尾状核中,DA、SAL和NorSAL的浓度随年龄增长显著降低。
这些发现不支持SAL对映体之一或NorSAL参与酒精中毒发生的假说。然而,它们表明底物DA的浓度可能决定体内形成过程中的生物碱水平。所揭示的数据可为其他关于酒精中毒或其他涉及TIQs的神经退行性疾病病因的人体研究提供参考。