Barton David A, Esler Murray D, Dawood Tye, Lambert Elisabeth A, Haikerwal Deepak, Brenchley Celia, Socratous Florentia, Hastings Jacqueline, Guo Ling, Wiesner Glen, Kaye David M, Bayles Richard, Schlaich Markus P, Lambert Gavin W
Department of Psychological Medicine, Alfred Hospital, Monash University, Melbourne, Victoria, Australia.
Arch Gen Psychiatry. 2008 Jan;65(1):38-46. doi: 10.1001/archgenpsychiatry.2007.11.
The biological basis for the development of major depressive disorder (MDD) remains incompletely understood.
To quantify brain serotonin (5-hydroxytryptamine [5-HT]) turnover in patients with MDD.
Patients with depression were studied both untreated and during administration of a selective serotonin reuptake inhibitor (SSRI) in an unblinded study of sequential design. Healthy volunteers were examined on only 1 occasion. Direct internal jugular venous blood sampling was used to directly quantify brain serotonin turnover. The effect of serotonin transporter (5-HTT) genotype on brain serotonin turnover was evaluated and the influence of SSRI therapy on serotonin turnover was investigated.
Participants were recruited from the general community following media advertisement. Experimental procedures were performed in the research catheterization laboratory of a major training hospital and medical research institute.
Studies were performed in 21 patients fulfilling the DSM-IV and International Statistical Classification of Diseases, 10th Revision diagnostic criteria for MDD and in 40 healthy volunteers.
Treatment for patients consisted of SSRI administration for approximately 12 weeks.
Brain serotonin turnover before and after SSRI therapy.
Brain serotonin turnover was significantly elevated in unmedicated patients with MDD compared with healthy subjects (mean [SD] internal jugular venoarterial 5-hydroxyindoleacetic acid plasma concentration difference, 4.4 [4.3] vs 1.6 [2.4] nmol/L, respectively; P = .003). Analysis of the influence of the 5-HTT genotype in MDD indicated that carriage of the s allele compared with the l allele was associated with greater than a 2-fold increase in brain serotonin turnover (mean [SD] internal jugular venoarterial 5-hydroxyindoleacetic acid plasma concentration difference, 6.5 [4.7] vs 2.7 [2.9] nmol/L, respectively; P = .04). Following SSRI therapy, brain serotonin turnover was substantially reduced (mean [SD] internal jugular venoarterial 5-hydroxyindoleacetic acid plasma concentration difference, 6.0 [4.0] nmol/L prior to treatment vs 2.0 [3.3] nmol/L following therapy; P = .008).
Brain serotonin turnover is elevated in unmedicated patients with MDD and is influenced by the 5-HTT genotype. The marked reduction in serotonin turnover following SSRI treatment and the accompanying improvement in symptoms suggest that high brain serotonin turnover may be a biological substrate of MDD.
重度抑郁症(MDD)发生发展的生物学基础仍未完全明确。
量化MDD患者的脑血清素(5-羟色胺[5-HT])周转率。
在一项非盲序贯设计研究中,对抑郁症患者在未治疗时以及服用选择性血清素再摄取抑制剂(SSRI)期间进行研究。健康志愿者仅检查一次。采用颈内静脉直接采血法直接量化脑血清素周转率。评估血清素转运体(5-HTT)基因型对脑血清素周转率的影响,并研究SSRI治疗对血清素周转率的影响。
通过媒体广告从普通社区招募参与者。实验程序在一家大型教学医院和医学研究所的研究导管实验室进行。
对21例符合DSM-IV和国际疾病分类第10版MDD诊断标准的患者以及40名健康志愿者进行研究。
患者接受约12周的SSRI治疗。
SSRI治疗前后的脑血清素周转率。
与健康受试者相比,未接受药物治疗的MDD患者脑血清素周转率显著升高(平均[标准差]颈内静脉-动脉5-羟吲哚乙酸血浆浓度差分别为4.4[4.3]和1.6[2.4]nmol/L;P = 0.003)。对MDD患者中5-HTT基因型影响的分析表明,与l等位基因相比,携带s等位基因与脑血清素周转率增加2倍以上相关(平均[标准差]颈内静脉-动脉5-羟吲哚乙酸血浆浓度差分别为6.5[4.7]和2.7[2.9]nmol/L;P = 0.04)。SSRI治疗后,脑血清素周转率大幅降低(治疗前平均[标准差]颈内静脉-动脉5-羟吲哚乙酸血浆浓度差为6.0[4.0]nmol/L,治疗后为2.0[3.3]nmol/L;P = 0.008)。
未接受药物治疗的MDD患者脑血清素周转率升高,且受5-HTT基因型影响。SSRI治疗后血清素周转率显著降低以及伴随的症状改善表明,高脑血清素周转率可能是MDD的生物学基础。
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