Neurosteroidogenesis: relevance to neurosteroid actions in brain and modulation by psychotropic drugs.

Maria Luisa Barbaccia
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引用次数: 77

Abstract

Neurosteroids--i.e., steroid produced in brain ex novo or through metabolism of precursors--affect neuronal and brain functions through genomic and nongenomic mechanisms, depending on their molecular structure. Among neurosteroids, 3alpha-hydroxylated, 5alpha-reduced metabolites of progesterone (3alpha-hydroxy,5alpha-pregnan-20one/3alpha,5alpha-THP) and deoxycorticosterone (3alpha,21-dihydroxy,5alpha-pregnan-20one/3alpha,5alpha-THDOC) are positive allosteric modulators of gamma-aminobutyric acid (GABA) action at GABAA receptors. In rodents, a reduction of their endogenous brain concentrations rapidly lowers the potency of GABA in eliciting GABAA receptor-mediated inhibitory postsynaptic currents. This effect is related to anxiety-like behavior, increased aggression, and a reduced sensitivity to the loss of righting reflex induced by GABAA receptor agonist or positive modulators. Conversely, enhancement of 3alpha,5alpha-THP or 3alpha,5alpha-THDOC brain content results in anxiolysis, sedation/hypnosis, anticonvulsant, and anesthetic action. Different classes of psychotropic drugs--i.e., antidepressants, selected atypical antipsychotics, ethanol, gamma-hydroxybutyric acid--increase neurosteroid concentrations in brain, and these increases may be relevant to their pharmacological actions. Drug-induced increases of neurosteroids in rodent brain are often associated with elevation of their plasma content, such that alterations of plasma steroid concentrations are assumed to reflect parallel changes in brain. Nevertheless, brain neurosteroid concentrations are uneven across various regions, and the dose-dependence of their response to a pharmacological challenge shows brain-regional differences as well. These observations are consistent with the present knowledge on the distribution of steroidogenic enzymes in brain--they show not only a brain region, but also a cell-specific expression that may spatially and temporally determine the local concentrations of specific neurosteroids, either produced ex novo or through metabolism of steroid precursors that reach the brain through blood.

神经类固醇发生:与脑内神经类固醇作用的关系及精神药物的调节作用。
Neurosteroids——即。类固醇在大脑中从头产生或通过前体代谢产生,通过基因组和非基因组机制影响神经元和大脑功能,这取决于它们的分子结构。在神经甾体中,孕酮的3 α -羟基化、5 α -还原代谢物(3 α -羟基、5 α -孕酮- 201 /3 α、5 α - thp)和脱氧皮质酮(3 α、21-二羟基、5 α -孕酮- 201 /3 α、5 α - thdoc)是γ -氨基丁酸(GABAA)作用于GABAA受体的正变构调节剂。在啮齿类动物中,内源性脑浓度的降低迅速降低了GABA在引发GABAA受体介导的抑制性突触后电流中的作用。这种效应与焦虑样行为、攻击性增加以及对GABAA受体激动剂或正调节性药物引起的翻正反射丧失的敏感性降低有关。相反,3 α,5 α - thp或3 α,5 α - thdoc脑含量的增强可导致抗焦虑,镇静/催眠,抗惊厥和麻醉作用。不同种类的精神药物,即。例如,抗抑郁药、非典型抗精神病药、乙醇、γ -羟基丁酸会增加大脑中神经类固醇的浓度,这些增加可能与它们的药理作用有关。在啮齿类动物的大脑中,药物引起的神经类固醇的增加通常与它们的血浆含量升高有关,因此,血浆类固醇浓度的改变被认为反映了大脑中类似的变化。然而,脑神经类固醇在不同区域的浓度是不均匀的,它们对药理学挑战的反应的剂量依赖性也显示出大脑区域的差异。这些观察结果与目前关于脑内类固醇生成酶分布的知识是一致的——它们不仅显示了脑区域,而且显示了细胞特异性表达,这种表达可能在空间和时间上决定了特定神经类固醇的局部浓度,这些神经类固醇要么是从头产生的,要么是通过类固醇前体的代谢通过血液到达大脑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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