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抑郁症中皮质类固醇受体基因表达的调控及抗抑郁作用

Regulation of corticosteroid receptor gene expression in depression and antidepressant action.

作者信息

Barden N

机构信息

Laval University Hospital Research Centre, Université Laval, Ste-Foy, Que.

出版信息

J Psychiatry Neurosci. 1999 Jan;24(1):25-39.

PMID:9987205
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1188974/
Abstract

OBJECTIVE

Major alterations of the hypothalamic-pituitary-adrenocortical (HPA) system are often seen in patients with depression, and can be reversed by successful antidepressant therapy. Persuasive evidence points to the involvement of a dysfunctional glucocorticoid receptor system in these changes. The authors developed a transgenic mouse to determine the mechanism for these changes.

DESIGN

In vivo and in vitro animal experiments.

ANIMALS

Transgenic mice expressing glucocorticoid receptor antisense RNA and control mice.

INTERVENTIONS

In vivo: hormone assays and dexamethasone suppression tests; in vitro: cell transfection, chloramphenicol acetyl transferase assay, Northern blot analysis, binding assays of cytosolic receptor.

OUTCOME MEASURES

Indicators of depressive disorder in transgenic mice, effect of antidepressant therapy on dexamethasone binding in transgenic mouse hippocampus, mouse behaviour, and glucocorticoid receptor activity.

RESULTS

Transgenic mice showed no suppression of corticosterone with a dose of 2 mg per 100 g body weight dexamethasone. Treatment with amitriptyline reduced levels of corticotropin and corticosterone, increased glucocorticoid receptor mRNA concentrations and glucocorticoid binding capacity of several brain areas, and reversed behavioural changes. In vitro experiments also showed that desipramine increased glucocorticoid receptor mRNA.

CONCLUSION

These transgenic mice have numerous neuroendocrine characteristics of human depression as well as altered behaviour. Many of these neuroendocrinologic and behavioural characteristics are reversed by antidepressants. The antidepressant-induced increase in glucocorticoid receptor activity may render the HPA axis more sensitive to glucocorticoid feedback. This new insight into antidepressant drug action suggests a novel approach to the development of new antidepressant drugs.

摘要

目的

抑郁症患者常出现下丘脑 - 垂体 - 肾上腺皮质(HPA)系统的重大改变,且成功的抗抑郁治疗可使其逆转。有说服力的证据表明,功能失调的糖皮质激素受体系统参与了这些变化。作者培育了一种转基因小鼠以确定这些变化的机制。

设计

体内和体外动物实验。

动物

表达糖皮质激素受体反义RNA的转基因小鼠和对照小鼠。

干预措施

体内:激素测定和地塞米松抑制试验;体外:细胞转染、氯霉素乙酰转移酶测定、Northern印迹分析、胞质受体结合测定。

观察指标

转基因小鼠抑郁症的指标、抗抑郁治疗对转基因小鼠海马体中地塞米松结合的影响、小鼠行为以及糖皮质激素受体活性。

结果

给予每100克体重2毫克地塞米松时,转基因小鼠的皮质酮未被抑制。用阿米替林治疗可降低促肾上腺皮质激素和皮质酮水平,增加几个脑区的糖皮质激素受体mRNA浓度和糖皮质激素结合能力,并逆转行为变化。体外实验还表明,地昔帕明可增加糖皮质激素受体mRNA。

结论

这些转基因小鼠具有人类抑郁症的许多神经内分泌特征以及行为改变。许多这些神经内分泌和行为特征可被抗抑郁药逆转。抗抑郁药诱导的糖皮质激素受体活性增加可能使HPA轴对糖皮质激素反馈更敏感。这种对抗抑郁药作用的新见解提示了一种开发新型抗抑郁药的新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ec9/1188974/64ef2edd0a25/jpn00079-0035-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ec9/1188974/64ef2edd0a25/jpn00079-0035-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ec9/1188974/64ef2edd0a25/jpn00079-0035-a.jpg

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