病毒核酸聚(I:C)对哺乳动物睾丸刺激反应的多组学分析。

Donghui Yang, Wenping Wu, Qizhong Lu, Yaling Mou, Wenbo Chen, Shicheng Wan, Mengfei Zhang, Congliang Wang, Xiaomin Du, Na Li, Jinlian Hua
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引用次数: 0

摘要

男性生殖系统有一套标准的免疫反应调节机制,但病毒、细菌、高温和药物等各种外界刺激都会损伤睾丸,引起睾丸炎和附睾炎。研究表明,与 DNA 病毒相比,各种 RNA 病毒更容易感染睾丸,诱发睾丸炎并损害睾丸功能。研究发现,向睾丸局部注射病毒 RNA 类似物 poly(I:C)会明显破坏曲细精管的结构,并伴有细胞凋亡和炎症。Poly(I:C)主要抑制睾酮合成相关蛋白STAR和MGARP的表达,并影响睾丸内氨基酸和脂质的合成和代谢。这导致了小鼠睾丸中代谢物水平的紊乱,从而影响了正常的精子发生过程。本研究采用多组学方法分析了睾丸对病毒感染的急性炎症反应。它深入揭示了 RNA 病毒感染如何损害睾丸功能,并为今后研究男性生殖系统应激条件下的免疫稳态和反应提供了理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A multi-omics analysis of viral nucleic acid poly(I:C) responses to mammalian testicular stimulation.

The male reproductive system has a standard immune response regulatory mechanism, However, a variety of external stimuli, including viruses, bacteria, heat, and medications can damage the testicles and cause orchitis and epididymitis. It has been shown that various RNA viruses are more likely to infect the testis than DNA viruses, inducing orchitis and impairing testicular function. It was found that local injection of the viral RNA analog poly(I:C) into the testes markedly disrupted the structure of the seminiferous tubules, accompanied by apoptosis and inflammation. Poly(I:C) mainly inhibited the expression of testosterone synthesis-associated proteins, STAR and MGARP, and affected the synthesis and metabolism of amino acids and lipids in the testis. This led to the disruption of the metabolite levels in the testis of mice, thus affecting the normal spermatogenesis process. The present study analyzed the acute inflammatory response of the testis to viral infection using a multi-omics approach. It provides insights into how RNA virus infection impairs testicular function and offers a theoretical basis for future studies on immune homeostasis and responses under stress conditions in male reproduction.

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