DNA methylation in spermatogenesis and male infertility

Cui, Xiangrong; Xuan, Jianhua; Wu, Xueqing; Yan, Meiqin; Li, Qiang; Shen, Yan; Wang, Zhenqiang

doi:10.3892/etm.2016.3569

Cited by 73 publications

(56 citation statements)

References 116 publications

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“…Hypoxic damage to spermatogenesis at this phase could involve different molecular pathways from those at adolescence and adulthood. It might be associated with dysregulation of epigenetic modification, such as DNA methylation (Cui et al., ). Those mechanisms will be further explored in future studies.…”

Section: Discussionmentioning

confidence: 99%

Hypobaric hypoxia causes impairment of spermatogenesis in developing rats at pre-puberty

et al. 2018

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The effect of hypoxia on the spermatogenesis of male Wistar rats (n = 32) at pre-puberty was studied using a hypobaric chamber simulating an altitude of 5,000 metres above sea level. Persistent hypoxic exposure with brief interruption for 3 weeks caused significant decreases in body and testis weights and testosterone level compared to the normobaric controls. Histologically, spermatogenic development was arrested; arrays of spermatids were misshaped; numbers of spermatogonia, Sertoli and Leydig cells were reduced; and apoptotic spermatocytes were increased substantially in the germinal epithelium of testis in the hypoxic-exposed group. These hormonal and histopathological changes did not improve remarkably after 3 weeks of normobaric conditions. There was a significant decrease in sperm production when the rats in the hypoxia/oxygen-resuming group were examined at 63 days of post-natal age. Exposing rats to hypoxic conditions at pre-puberty induced damages on spermatogenesis, which could affect sperm production after sex mature.

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Section: Discussionmentioning

confidence: 99%

Hypobaric hypoxia causes impairment of spermatogenesis in developing rats at pre-puberty

et al. 2018

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“…A very important epigenetic issue is spermatogenesis in mammals and other species (Ge et al, 2017;Cui et al, 2016;Jenkins et al, 2017). Apart from DNA methylation, non-coding RNAs and histone acetylation plays a decisive role to control the histone-protamine transition during spermatogenesis.…”

Section: Biology and Epigeneticsmentioning

confidence: 99%

Possible Interaction Between Epigenetics, Genetics and Quantum Mechanics

Koch¹

2019

Neuroquantology

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The human genome consists of roughly 23000 genes which cannot explain the enormous diversity of proteins or behavior. A second epigenetic code warrants adaptive variation of gene expression. The rationale of this variation are transfer reactions such as methlyation, acetylation or phosphorylation of DNA, RNA or histones including reverse reactions. Enzyme activity and especially transferases are supposed to integrate tunnel effects of protons or electrons in order to overcome energy barriers. The paper discusses the theoretical involvement of tunnel effects as the base of transferase activity and hence adaptive epigenetic gene expression.

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“…Epigenetics is characterized by RNA interference, chromatin remodeling, DNA methylation, and histone modifications, which are important regulators in a number of biological processes [11]. Epigenetics also plays important roles in spermatogenesis and meiosis, and histone modifications are involved in these processes [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Cloning and Expression Analysis of Two Kdm Lysine Demethylases in the Testes of Mature Yaks and Their Sterile Hybrids

Shen

Huang

Jin

et al. 2020

Animals

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The objective of this study was to explore the molecular mechanism for male sterility of yak hybrids based on two demethylases. Total RNA was extracted from the testes of adult yaks (n = 10) and yak hybrids (cattle–yaks, n = 10). The coding sequences (CDS) of two lysine demethylases (KDMs), KDM1A and KDM4B, were cloned by RT-PCR. The levels of KDM1A and KDM4B in yaks and cattle–yaks testes were detected using Real-time PCR and Western blotting for mRNA and protein, respectively. In addition, the histone methylation modifications of H3K36me3 and H3K27me3 were compared between testes of yaks and cattle–yaks using ELISA. The CDS of KDM1A and KDM4B were obtained from yak testes. The results showed that the CDS of KDM1A exhibited two variants: variant 1 has a CDS of 2622 bp, encoding 873 amino acids, while variant 2 has a CDS of 2562 bp, encoding 853 amino acids. The CDS of the KDM4B gene was 3351 bp in length, encoding 1116 amino acids. The mRNA and protein expression of KDM1A and KDM4B, as well as the level of H3K36me3, were dramatically decreased in the testes of cattle–yaks compared with yaks. The present results suggest that the male sterility of cattle–yaks might be associated with reduced histone methylation modifications.

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DNA methylation in spermatogenesis and male infertility

Cited by 73 publications

References 116 publications

Hypobaric hypoxia causes impairment of spermatogenesis in developing rats at pre-puberty

Hypobaric hypoxia causes impairment of spermatogenesis in developing rats at pre-puberty

Possible Interaction Between Epigenetics, Genetics and Quantum Mechanics

Cloning and Expression Analysis of Two Kdm Lysine Demethylases in the Testes of Mature Yaks and Their Sterile Hybrids

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