Pinna Graziano, Costa Erminio, Guidotti Alessandro
Psychiatric Institute, Department of Psychiatry, College of Medicine, University of Illinois, Chicago, IL 60612, USA.
Proc Natl Acad Sci U S A. 2005 Feb 8;102(6):2135-40. doi: 10.1073/pnas.0409643102. Epub 2005 Jan 27.
In addition to an action on metabolism, anabolic/androgenic steroids also increase sex drive and mental acuity. If abused, such steroids can cause irritability, impulsive aggression, and signs of major depression [Pearson, H. (2004) Nature 431, 500-501], but the mechanisms that produce these symptoms are unknown. The present study investigates behavioral and neurochemical alterations occurring in association with protracted (3-week) administration of testosterone propionate (TP) to socially isolated (SI) and group-housed male and female mice. Male but not female SI mice exhibit aggression that correlates with the down-regulation of brain neurosteroid biosynthesis. However, in female mice, long-term TP administration induces aggression associated with a decrease of brain allopregnanolone (Allo) content and a decrease (approximately 40%) of 5alpha-reductase type I mRNA expression. In spayed mice treated with TP, restitution experiments with progesterone and estrogen normalize brain Allo content and prevent aggression. Submicromolar doses of S-norfluoxetine (S-NFLX) that are insufficient to inhibit serotonin reuptake selectively increase brain Allo content and abolish TP-induced aggression. Our results support the view that TP-induced aggressive behavior is the result of a TP-mediated neurosteroid biosynthesis down-regulation that can be reversed by the S-NFLX-induced increase of brain Allo content.
除了对新陈代谢有作用外,合成代谢/雄激素类固醇还会增加性欲和思维敏捷度。如果滥用,此类类固醇会导致易怒、冲动攻击性以及重度抑郁的症状[皮尔逊,H.(2004年)《自然》431卷,500 - 501页],但产生这些症状的机制尚不清楚。本研究调查了对社会隔离(SI)和群居的雄性及雌性小鼠长期(3周)给予丙酸睾酮(TP)后所发生的行为和神经化学变化。雄性而非雌性SI小鼠表现出的攻击性与脑内神经类固醇生物合成的下调相关。然而,在雌性小鼠中,长期给予TP会诱导攻击性,这与脑内别孕烯醇酮(Allo)含量降低以及Ⅰ型5α - 还原酶mRNA表达减少(约40%)有关。在用TP处理的去卵巢小鼠中,用孕酮和雌激素进行的恢复实验可使脑内Allo含量正常化并防止攻击性。亚微摩尔剂量的S - 去甲氟西汀(S - NFLX)不足以抑制5 - 羟色胺再摄取,但能选择性增加脑内Allo含量并消除TP诱导的攻击性。我们的结果支持这样一种观点,即TP诱导的攻击行为是TP介导的神经类固醇生物合成下调的结果,而S - NFLX诱导的脑内Allo含量增加可逆转这种下调。