基于 TAp73 基因抑制的少精子症小鼠模型的建立

Animal Models and Experimental Medicine Pub Date : 2021-11-09 eCollection Date: 2021-12-01 DOI:10.1002/ame2.12186

Hong-Juan Liu, Meng-Yun Deng, Yan-Yan Zhu, De-Ling Wu, Xiao-Hui Tong, Li Li, Lei Wang, Fei Xu, Tong-Sheng Wang

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引用次数: 0

摘要

背景：少精症是导致男性不育的主要原因之一。研究人员通常使用化学药物直接损伤生精细胞来制备少精症模型，这就破坏了生精细胞和 Sertoli 细胞之间的粘附和迁移。TAp73是生精细胞粘附素的重要调节因子，因此，我们试图探索一种基于TAp73基因抑制的新型少精症模型：方法：每天腹腔注射2.5 mg/kg Pifithrin-α（TAp73抑制剂），连续30天。对生殖激素水平、附睾精子质量以及 Sertoli 细胞的网络形态进行了检测：结果：与正常对照组相比，Pifithrin-α组的精子密度、活力、TAp73和Nectin 2的相对蛋白和mRNA表达量明显下降。ZO-1的相对mRNA和蛋白表达量则无明显差异。此外，Pifithrin-α组的紧密连接（TJ）和顶端外质特化（ES）被破坏：上述结果表明，我们成功地建立了一种新的少精子症小鼠模型。本研究为进一步探讨TAp73基因在精子发生过程中的作用奠定了基础，为进一步研究少精症和未来药物开发提供了新的研究对象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Establishment of an oligoasthenospermia mouse model based on TAp73 gene suppression.

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Establishment of an oligoasthenospermia mouse model based on TAp73 gene suppression.

Background: Oligoasthenospermia is one of the main causes of male infertility. Researchers usually use chemical drugs to directly damage germ cells to prepare oligoasthenospermia models, which disregards the adhesion and migration between spermatogenic cells and Sertoli cells. TAp73 is a critical regulator of the adhesin of germ cell; thus, we sought to explore a novel oligoasthenospermia model based on TAp73 gene suppression.

Methods: Mice in the Pifithrin-α group were injected intraperitoneally with 2.5 mg/kg Pifithrin-α (TAp73 inhibitor) daily for 30 consecutive days. Reproductive hormone levels and epididymal sperm quality, as well as the network morphology of Sertoli cells were tested.

Results: Sperm density, motility, and the relative protein and mRNA expression of TAp73 and Nectin 2 were obviously decreased in the Pifithrin-α group compared with the normal control group. No significant distinction was observed in the relative mRNA and protein expression of ZO-1. Furthermore, the tight junctions (TJs) and apical ectoplasmic specialization (ES) were destroyed in the Pifithrin-α group.

Conclusion: The above results indicate that we successfully established a new oligoasthenospermia mouse model. This study provides a foundation for further exploration of the roles of TAp73 genes during spermatogenesis and provides new research objects for further oligospermia research and future drug discovery.

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Animal Models and Experimental Medicine

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