Comparison of G6PD activity with a modified hormonal environment during the critical period of hypothalamic sexual differentiation in Sprague Dawley rats

IF 2.5 4区医学 Q3 NEUROSCIENCES

Neuroscience Letters Pub Date : 2025-03-21 DOI:10.1016/j.neulet.2025.138206

Chávez García Ricardo , Ortega Camarillo Clara , Contreras Ramos Alejandra , Díaz Rosas Guadalupe , Avalos Rodríguez Alejandro , J.J. Pérez-Rivero , Vergara Onofre Marcela

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Abstract

The neuronal cells that make up the dysmorphic nuclei located in the hypothalamus of both female and male mammals are susceptible to the hormonal environment in which individuals find themselves during the critical period of cerebral sexual differentiation. Thus, endogenous and exogenous steroids influence the remodeling process of hypothalamic structures using apoptosis or cell proliferation processes, which are implicit in the mechanism of cerebral sexual differentiation. In this study, the enzymatic kinetics and the relative expression of G6PD mRNA and the concentration of GSH were compared to verify whether the redox state modified by the exogenous administration of synthetic hormones, such as tamoxifen in males and testosterone propionate in females, influences the apoptosis process (Bax and Bcl-2) within the mechanism of hypothalamic sexual differentiation in Sprague Dawley rats. It was observed that the G6PD activity for the F-CTR group was higher at 1 and 3 h compared to the M-TAM organisms. The F-TP group registered more significant values at 3 h compared to the M-CTR group. For the GSH concentrations, the F-CTR and M-CTR groups exhibited the highest concentrations at 12, 24, and 48 h. In the experimental groups, the GSH concentrations remained at decreased levels from the first hour to 48 h with a slight increase at 3600 h in the F-TP. In the case of the M-TAM, the GSH levels rose from hour 3 to hour 12.

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Sprague - Dawley大鼠下丘脑性别分化关键期G6PD活性与调节激素环境的比较

在雌性和雄性哺乳动物的下丘脑中，构成畸形核的神经元细胞易受激素环境的影响，个体发现自己处于大脑性别分化的关键时期。因此，内源性和外源性类固醇通过细胞凋亡或细胞增殖过程影响下丘脑结构的重塑过程，这隐含在大脑性别分化的机制中。本研究通过比较酶促动力学、G6PD mRNA相对表达量和GSH浓度，验证雄性三苯氧胺和雌性丙酸睾酮等外源性合成激素修饰的氧化还原状态是否影响Sprague Dawley大鼠下丘脑性别分化机制中的凋亡过程（Bax和Bcl-2）。观察到，与M-TAM生物相比，F-CTR组的G6PD活性在1和3 h时更高。与M-CTR组相比，F-TP组在3 h时登记了更显著的值。对于GSH浓度，F-CTR和M-CTR组在12、24和48 h时的浓度最高。在实验组中，GSH浓度从第1小时到48 h保持在下降水平，在3600 h时F-TP略有增加。在M-TAM的情况下，GSH水平从第3小时上升到第12小时。

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来源期刊

Neuroscience Letters 医学-神经科学

CiteScore

5.20

自引率

0.00%

发文量

408

审稿时长

50 days

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