Ibanez M A, Gu G, Simerly R B
Division of Neuroscience, Oregon Regional Primate Research Center, Beaverton, Oregon 97006, USA.
J Neurosci. 2001 Aug 1;21(15):5652-9. doi: 10.1523/JNEUROSCI.21-15-05652.2001.
Neural pathways between sexually dimorphic forebrain regions develop under the influence of sex steroid hormones during the perinatal period, but how these hormones specify precise sex-specific patterns of connectivity is unknown. A heterochronic coculture system was used to demonstrate that sex steroid hormones direct development of a sexually dimorphic limbic-hypothalamic neural pathway through a target-dependent mechanism. Explants of the principal nucleus of the bed nuclei of the stria terminalis (BSTp) extend neurites toward explants of the anteroventral periventricular nucleus (AVPV) derived from male but not female rats. Coculture of BSTp explants from male rats with AVPV explants derived from females treated in vivo with testosterone for 9 d resulted in a high density of neurites extending from the BSTp to the AVPV explant, as was the case when the BSTp explants were derived from females and the AVPV explants were derived from males or androgen-treated females. These in vitro findings suggest that during the postnatal period testosterone induces a target-derived, diffusible chemotropic activity that results in a sexually dimorphic pattern of connectivity.
在围产期,性二态性前脑区域之间的神经通路在性类固醇激素的影响下发育,但这些激素如何确定精确的性别特异性连接模式尚不清楚。利用异时共培养系统证明,性类固醇激素通过一种依赖靶标的机制指导性二态性边缘-下丘脑神经通路的发育。终纹床核主核(BSTp)的外植体向源自雄性而非雌性大鼠的腹侧室旁前核(AVPV)的外植体延伸神经突。将雄性大鼠的BSTp外植体与经体内睾酮处理9天的雌性大鼠的AVPV外植体共培养,导致从BSTp延伸到AVPV外植体的神经突密度很高,当BSTp外植体源自雌性而AVPV外植体源自雄性或经雄激素处理的雌性时也是如此。这些体外研究结果表明,在出生后时期,睾酮诱导一种源自靶标的、可扩散的化学趋向活性,从而导致性别特异性的连接模式。