Henderson Leslie P
Department of Physiology, Dartmouth Medical School, Hanover, NH 03755, USA.
Neuropharmacology. 2007 Jun;52(7):1439-53. doi: 10.1016/j.neuropharm.2007.01.022. Epub 2007 Feb 28.
The hypothalamus, the seat of neuroendocrine control, is exquisitely sensitive to gonadal steroids. For decades it has been known that androgens, estrogens and progestins, acting through nuclear hormone receptors, elicit both organizational and activational effects in the hypothalamus and basal forebrain that are essential for reproductive function. While changes in gene expression mediated by these classical hormone pathways are paramount in governing both sexual differentiation and the neural control of reproduction, it is also clear that steroids impart critical control of neuroendocrine functions through non-genomic mechanisms. Specifically, endogenous neurosteroid derivatives of deoxycorticosterone, progesterone and testosterone, as well and synthetic anabolic androgenic steroids that are self-administered as drugs of abuse, elicit acute effects via allosteric modulation of gamma-aminobutyric acid type A receptors. GABAergic transmission within the hypothalamus and basal forebrain is a key regulator of pubertal onset, the expression of sexual behaviors, pregnancy and parturition. Summarized here are the known actions of steroid modulators on GABAergic transmission within the hypothalamus/basal forebrain, with a focus on the medial preoptic area and the supraoptic/paraventricular nuclei that are known to be central players in the control of reproduction.
下丘脑作为神经内分泌控制的中枢,对性腺类固醇极为敏感。几十年来,人们已经知道雄激素、雌激素和孕激素通过核激素受体发挥作用,在下丘脑和基底前脑引发组织效应和激活效应,这些效应对于生殖功能至关重要。虽然由这些经典激素途径介导的基因表达变化在控制性分化和生殖的神经控制方面至关重要,但类固醇通过非基因组机制对神经内分泌功能进行关键控制这一点也很明显。具体而言,脱氧皮质酮、孕酮和睾酮的内源性神经甾体衍生物,以及作为滥用药物自行服用的合成合成代谢雄激素类固醇,通过变构调节A型γ-氨基丁酸受体引发急性效应。下丘脑和基底前脑内的GABA能传递是青春期启动、性行为表达、妊娠和分娩的关键调节因子。本文总结了类固醇调节剂对下丘脑/基底前脑内GABA能传递的已知作用,重点关注内侧视前区以及已知在生殖控制中起核心作用的视上核/室旁核。