Ning-Hua Mei scite author profile

Ning-Hua Mei

3Publications

16Citation Statements Received

192Citation Statements Given

How they've been cited

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146

186

Affiliations

Renmin Hospital of Wuhan University, Huazhong University of Science and Technology

Publications

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Inhibition of DRP1 Impedes Zygotic Genome Activation and Preimplantation Development in Mice

Mei

Cheng

et al. 2021

Front. Cell Dev. Biol.

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Mitochondrion plays an indispensable role during preimplantation embryo development. Dynamic-related protein 1 (DRP1) is critical for mitochondrial fission and controls oocyte maturation. However, its role in preimplantation embryo development is still lacking. In this study, we demonstrate that inhibition of DRP1 activity by mitochondrial division inhibitor-1, a small molecule reported to specifically inhibit DRP1 activity, can cause severe developmental arrest of preimplantation embryos in a dose-dependent manner in mice. Meanwhile, DRP1 inhibition resulted in mitochondrial dysfunction including decreased mitochondrial activity, loss of mitochondrial membrane potential, reduced mitochondrial copy number and inadequate ATP by disrupting both expression and activity of DRP1 and mitochondrial complex assembly, leading to excessive ROS production, severe DNA damage and cell cycle arrest at 2-cell embryo stage. Furthermore, reduced transcriptional and translational activity and altered histone modifications in DRP1-inhibited embryos contributed to impeded zygotic genome activation, which prevented early embryos from efficient development beyond 2-cell embryo stage. These results show that DRP1 inhibition has potential cytotoxic effects on mammalian reproduction, and DRP1 inhibitor should be used with caution when it is applied to treat diseases. Additionally, this study improves our understanding of the crosstalk between mitochondrial metabolism and zygotic genome activation.

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H3K4 Methylation Promotes Expression of Mitochondrial Dynamics Regulators to Ensure Oocyte Quality in Mice

et al. 2023

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Significantly decreased H3K4 methylation in oocytes from aged mice indicates the important roles of H3K4 methylation in female reproduction. However, how H3K4 methylation regulates oocyte development remains largely unexplored. In this study, it is demonstrated that oocyte‐specific expression of dominant negative mutant H3.3‐K4M led to a decrease of the level of H3K4 methylation in mouse oocytes, resulting in reduced transcriptional activity and increased DNA methylation in oocytes, disturbed oocyte developmental potency, and fertility of female mice. The impaired expression of genes regulating mitochondrial functions in H3.3‐K4M oocytes, accompanied by mitochondrial abnormalities, is further noticed. Moreover, early embryos from H3.3‐K4M oocytes show developmental arrest and reduced zygotic genome activation. Collectively, these results show that H3K4 methylation in oocytes is critical to orchestrating gene expression profile, driving the oocyte developmental program, and ensuring oocyte quality. This study also improves understanding of how histone modifications regulate organelle dynamics in oocytes.

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Transcription factor OTX2 silences the expression of cleavage embryo genes and transposable elements

et al. 2021

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Upon mammalian fertilization, zygotic genome activation (ZGA) and activation of transposable elements (TEs) occur in early embryos to establish totipotency and support embryogenesis. However, the molecular mechanisms controlling the expression of these genes in mammals remain poorly understood. The 2-cell-like population of mouse embryonic stem cells (mESCs) mimics cleavage-stage embryos with transient Dux activation. In this study, we demonstrated that deficiency of the transcription factor OTX2 stimulates the expression of ZGA genes in mESCs. Further analysis revealed that OTX2 is incorporated at the Dux locus with corepressors for transcriptional inhibition. We also found that OTX2 associates with TEs and silences the subtypes of TEs. Therefore, OTX2 protein plays an important role in ZGA and TE expression in mESCs to orchestrate the transcriptional network.

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Ning-Hua Mei

Inhibition of DRP1 Impedes Zygotic Genome Activation and Preimplantation Development in Mice

H3K4 Methylation Promotes Expression of Mitochondrial Dynamics Regulators to Ensure Oocyte Quality in Mice

Transcription factor OTX2 silences the expression of cleavage embryo genes and transposable elements

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