Kim Dong-Kyu, Tolliver Teresa J, Huang Su-Jan, Martin Bradley J, Andrews Anne M, Wichems Christine, Holmes Andrew, Lesch Klaus-Peter, Murphy Dennis L
Laboratory of Clinical Science, National Institute of Mental Health, NIH, Bethesda, MD 20892, USA.
Neuropharmacology. 2005 Nov;49(6):798-810. doi: 10.1016/j.neuropharm.2005.08.010. Epub 2005 Sep 23.
To evaluate the consequences of inactivation of the serotonin transporter (SERT) gene on 5-HT homeostasis and function, 5-HT synthesis and turnover rates were measured using the decarboxylase inhibition method in multiple brain regions (frontal cortex, striatum, brainstem, hippocampus and hypothalamus) from mice with a genetic disruption of SERT. 5-HT synthesis rates were increased 30-60% in the different brain regions of SERT -/- mice compared to littermate +/+ control mice despite 55-70% reductions in tissue 5-HT concentrations. Brain regions that possessed a greater capacity to increase synthesis and turnover (frontal cortex, striatum) demonstrated lesser reductions in tissue 5-HT. Female SERT -/- mice had greater increases (79%) in brain 5-HT synthesis than male -/- mice did (25%), a finding associated with higher brain tryptophan concentrations in females. Despite increased 5-HT synthesis, there was no change in either TPH2 or TPH1 mRNA levels or in maximal in vitro TPH activity in the brainstem of SERT -/- mice. Catecholamine homeostasis as reflected in brain tissue concentrations and in synthesis and turnover of dopamine and norepinephrine was unchanged in SERT -/- mice. Taken together, the results demonstrate a markedly altered homeostatic situation in SERT -/- mice that lack 5-HT reuptake, resulting in markedly depleted tissue stores that are inadequately compensated for by increased 5-HT synthesis, with brain region and gender specificity observed.
为了评估血清素转运体(SERT)基因失活对5-羟色胺(5-HT)稳态及功能的影响,采用脱羧酶抑制法,对SERT基因发生遗传性破坏的小鼠多个脑区(额叶皮质、纹状体、脑干、海马体和下丘脑)的5-HT合成及周转率进行了测量。尽管组织中5-HT浓度降低了55%-70%,但与同窝野生型(+/+)对照小鼠相比,SERT基因敲除(-/-)小鼠不同脑区的5-HT合成率提高了30%-60%。那些具有更大合成及周转率提升能力的脑区(额叶皮质、纹状体),其组织中5-HT的降低幅度较小。雌性SERT -/-小鼠脑内5-HT合成的增加幅度(79%)大于雄性 -/-小鼠(25%),这一发现与雌性小鼠脑内色氨酸浓度较高有关。尽管5-HT合成增加,但SERT -/-小鼠脑干中TPH2或TPH1的mRNA水平以及体外TPH最大活性均未发生变化。SERT -/-小鼠脑组织中多巴胺和去甲肾上腺素的浓度及其合成与周转率所反映的儿茶酚胺稳态未发生改变。综上所述,结果表明SERT -/-小鼠缺乏5-HT再摄取,其稳态情况发生了显著改变,导致组织储备明显减少,而增加的5-HT合成无法充分补偿这一减少,且存在脑区和性别特异性。
