Effects of Venlafaxine on the Size of Brain and Expression of SHANK3, TUBB5 and DDC Genes in BALB/c Mice.

Psychopharmacology bulletin Pub Date : 2023-08-11
Ramesh Ranjbar, Zahra Zamanzadeh, Ali Mohammad Ahadi
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Abstract

Objectives: A growing body of evidence has recently suggested that taking venlafaxine during pregnancy may be linked to increased risk of certain congenital defects. The study aimed to address the effects of venlafaxine use during pregnancy on the development of the brain in mice.

Experimental design: Fourteen female BALB/c mice were randomly divided into two equally-sized groups: venlafaxine-treated and control. After mating, pregnant mice of venlafaxine-treated group were orally received the venlafaxine 35 mg/kg/day throughout pregnancy, while pregnant control mice did not receive any treatment. All pups were killed on postnatal day 21 and brain images were quantified using ImageJ software. The mRNA expression levels of SHANK3, TUBB5 and DDC of genes in pups' brain tissue samples were evaluated using quantitative real-time PCR method.

Principal observations: The mean brain size of pups was significantly smaller in the venlafaxine-treated group than in the control group. Results showed that the mRNA expression levels of SHANK3 and TUBB5 was significantly downregulated in venlafaxine-treated mice compared to control group. Expression of DDC gene didn't showed significant differences between two groups.

Conclusions: These results provide evidence that use of venlafaxine during pregnancy may affect the brain development in mice and altered the expression of SHANK3 and TUBB5 genes in brain tissue.

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文拉法辛对BALB/c小鼠脑大小及SHANK3、TUBB5和DDC基因表达的影响。
目的:最近越来越多的证据表明,妊娠期服用文拉法辛可能与某些先天性缺陷的风险增加有关。该研究旨在探讨妊娠期使用文拉法辛对小鼠大脑发育的影响。实验设计:将14只雌性BALB/c小鼠随机分为文拉法辛治疗组和对照组。交配后,文拉法辛治疗组的妊娠小鼠在整个妊娠期口服文拉法辛35mg/kg/天,而妊娠对照小鼠不接受任何治疗。在出生后第21天杀死所有幼崽,并使用ImageJ软件对脑图像进行量化。采用实时定量PCR方法对幼崽脑组织中SHANK3、TUB55和DDC基因的mRNA表达水平进行了评估。主要观察结果:文拉法辛治疗组的幼崽平均大脑大小明显小于对照组。结果显示,与对照组相比,文拉法辛治疗小鼠的SHANK3和TUB5mRNA表达水平显著下调。DDC基因表达在两组间无显著性差异。结论:这些结果表明,妊娠期使用文拉法辛可能会影响小鼠的大脑发育,并改变脑组织中SHANK3和TUB55基因的表达。
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