2.Expert consensus on the vitrification of human oocytes and embryos.
Da LI ; Yingzhuo GAO ; Rong LI
Chinese Medical Journal 2023;136(23):2773-2775
3.Research Progress in the Regulation of Follicle Development by Melatonin.
Jing-Jing LIU ; Zong-Yang LI ; Li-Mei LIU ; Xiao-Yan PAN
Acta Academiae Medicinae Sinicae 2023;45(6):997-1004
Melatonin,an endocrine hormone synthesized by the pineal gland,plays an important role in the reproduction.The growth and development of follicles is the basis of female mammalian fertility.Follicles have a high concentration of melatonin.Melatonin receptors exist on ovarian granulosa cells,follicle cells,and oocytes.It regulates the growth and development of these cells and the maturation and atresia of follicles,affecting female fertility.This paper reviews the protective effects and regulatory mechanisms of melatonin on the development of ovarian follicles,granulosa cells,and oocytes and makes an outlook on the therapeutic potential of melatonin for ovarian injury,underpinning the clinical application of melatonin in the future.
Animals
;
Female
;
Melatonin/pharmacology*
;
Ovarian Follicle
;
Oocytes
;
Granulosa Cells/physiology*
;
Mammals
4.Role of histone posttranslational modifications in the regulation of ovarian function.
Mei-Ling LE ; Lian-Jie ZENG ; Tao LUO ; Li-Ping ZHENG
Acta Physiologica Sinica 2023;75(1):91-98
The ovary is the reproductive organ of female mammals, which is responsible for producing mature eggs and secreting sex hormones. The regulation of ovarian function involves the ordered activation and repression of genes related to cell growth and differentiation. In recent years, it has been found that histone posttranslational modification can affect DNA replication, damage repair and gene transcriptional activity. Some regulatory enzymes mediating histone modification are co-activators or co-inhibitors associated with transcription factors, which play important roles in the regulation of ovarian function and the development of ovary-related diseases. Therefore, this review outlines the dynamic patterns of common histone modifications (mainly acetylation and methylation) during the reproductive cycle and their regulation of gene expression for important molecular events, focusing on the mechanisms of follicle development and sex hormone secretion and function. For example, the specific dynamics of histone acetylation are important for the arrest and resumption of meiosis in oocytes, while histone (especially H3K4) methylation affects the maturation of oocytes by regulating their chromatin transcriptional activity and meiotic progression. Besides, histone acetylation or methylation can also promote the synthesis and secretion of steroid hormones before ovulation. Finally, the abnormal histone posttranslational modifications in the development of two common ovarian diseases (premature ovarian insufficiency and polycystic ovary syndrome) are briefly described. It will provide a reference basis for understanding the complex regulation mechanism of ovarian function and further exploring the potential therapeutic targets of related diseases.
Female
;
Animals
;
Histone Code
;
Histones
;
Protein Processing, Post-Translational
;
Ovary
;
Oocytes
;
Mammals
5.Generation of Mlk3 KO mice by CRISPR/Cas9 and its effect on blood pressure.
Shijuan GAO ; Guangming FANG ; Yanhong ZHANG ; Jie DU
Chinese Journal of Biotechnology 2023;39(4):1644-1654
To explore the effect of Mlk3 (mixed lineage kinase 3) deficiency on blood pressure, Mlk3 gene knockout (Mlk3KO) mice were generated. Activities of sgRNAs targeted Mlk3 gene were evaluated by T7 endonuclease I (T7E1) assay. CRISPR/Cas9 mRNA and sgRNA were obtained by in vitro transcription, microinjected into zygote, followed by transferring into a foster mother. Genotyping and DNA sequencing confirmed the deletion of Mlk3 gene. Real- time PCR (RT-PCR), Western blotting or immunofluorescence analysis showed that Mlk3KO mice had an undetectable expression of Mlk3 mRNA or Mlk3 protein. Mlk3KO mice exhibited an elevated systolic blood pressure compared with wild-type mice as measured by tail-cuff system. Immunohistochemistry and Western blotting analysis showed that the phosphorylation of MLC (myosin light chain) was significantly increased in aorta isolated from Mlk3KO mice. Together, Mlk3KO mice was successfully generated by CRISPR/Cas9 system. MLK3 functions in maintaining blood pressure homeostasis by regulating MLC phosphorylation. This study provides an animal model for exploring the mechanism by which Mlk3 protects against the development of hypertension and hypertensive cardiovascular remodeling.
Animals
;
Mice
;
Mice, Knockout
;
CRISPR-Cas Systems
;
Blood Pressure
;
Gene Knockout Techniques
;
Zygote
6.Effect of the chicken zp1 gene on osteoblast mineralization.
Qiaoxian YUE ; Chenxuan HUANG ; Yinliang ZHANG ; Hui CHEN ; Rongyan ZHOU
Chinese Journal of Biotechnology 2023;39(7):2684-2694
The aim of this study was to clone the chicken zp1 gene encoding zona pellucida 1 (Zp1) and investigate its tissues expression profile and its effect on osteoblast mineralization. The expression level of zp1 was quantified in various tissues of laying hens and in the tibia of the pre- and post-sexual maturity by RT-qPCR. Zp1 overexpressed vector was transfected into chicken calvarial osteoblasts which were induced differentiation for 8 days, and the extracellular mineral and the expression of mineralization-related genes were detected. The full-length chicken zp1 gene is 3 045 bp, encoding 958 amino acids residuals, and has two N-glycosylation sites. The highest expression level of the zp1 gene was found in the liver, followed by the tibia and yolk membrane, while no expression was detected in the heart and eggshell gland. Compared with the pre-sexual maturity hens, the concentration of estrogen (E2) in plasma, the content of glycosaminoglycan (GAG) and the expression level of the zp1 gene in the tibia with post-sexual maturity were higher. The extracellular matrix and the level of osteoblast mineralization-related genes showed a significantly upregulated expression in chicken calvarial osteoblasts with Zp1 overexpressed and addition of estrogen. The expression of the zp1 gene is tissue-specific and positively regulated osteoblast mineralization under the action of estrogen, laying the foundation for elucidating the functional properties of Zp1 in chicken bones during the egg production period.
Female
;
Animals
;
Zona Pellucida Glycoproteins
;
Membrane Glycoproteins/metabolism*
;
Chickens/genetics*
;
Egg Proteins/metabolism*
;
Receptors, Cell Surface
;
Estrogens
7.Treatment Progress in Diminished Ovarian Reserve: Western and Chinese Medicine.
Qiao-Li ZHANG ; Ya-Ling LEI ; Yan DENG ; Rui-Lin MA ; Xue-Song DING ; Wei XUE ; Ai-Jun SUN
Chinese journal of integrative medicine 2023;29(4):361-367
Diminished ovarian reserve (DOR), generally defined as a decreased number or quality of oocytes, has a significant impact on quality of life and fertility in women. In recent years, the incidence of DOR has been increasing and the ages of patients are younger. The search for an effective DOR treatment has emerged as one of the preeminent research topics in reproductive health. An effective DOR therapy would improve ovarian function, fertility, and quality of life in patients. In this review we evaluated DOR treatment progress both in Western medicine and Chinese medicine, and elucidated the characteristics of each treatment.
Female
;
Humans
;
Medicine, Chinese Traditional
;
Ovarian Reserve
;
Quality of Life
;
Oocytes
;
Treatment Outcome
;
Infertility, Female/therapy*
8.LIN28 coordinately promotes nucleolar/ribosomal functions and represses the 2C-like transcriptional program in pluripotent stem cells.
Zhen SUN ; Hua YU ; Jing ZHAO ; Tianyu TAN ; Hongru PAN ; Yuqing ZHU ; Lang CHEN ; Cheng ZHANG ; Li ZHANG ; Anhua LEI ; Yuyan XU ; Xianju BI ; Xin HUANG ; Bo GAO ; Longfei WANG ; Cristina CORREIA ; Ming CHEN ; Qiming SUN ; Yu FENG ; Li SHEN ; Hao WU ; Jianlong WANG ; Xiaohua SHEN ; George Q DALEY ; Hu LI ; Jin ZHANG
Protein & Cell 2022;13(7):490-512
LIN28 is an RNA binding protein with important roles in early embryo development, stem cell differentiation/reprogramming, tumorigenesis and metabolism. Previous studies have focused mainly on its role in the cytosol where it interacts with Let-7 microRNA precursors or mRNAs, and few have addressed LIN28's role within the nucleus. Here, we show that LIN28 displays dynamic temporal and spatial expression during murine embryo development. Maternal LIN28 expression drops upon exit from the 2-cell stage, and zygotic LIN28 protein is induced at the forming nucleolus during 4-cell to blastocyst stage development, to become dominantly expressed in the cytosol after implantation. In cultured pluripotent stem cells (PSCs), loss of LIN28 led to nucleolar stress and activation of a 2-cell/4-cell-like transcriptional program characterized by the expression of endogenous retrovirus genes. Mechanistically, LIN28 binds to small nucleolar RNAs and rRNA to maintain nucleolar integrity, and its loss leads to nucleolar phase separation defects, ribosomal stress and activation of P53 which in turn binds to and activates 2C transcription factor Dux. LIN28 also resides in a complex containing the nucleolar factor Nucleolin (NCL) and the transcriptional repressor TRIM28, and LIN28 loss leads to reduced occupancy of the NCL/TRIM28 complex on the Dux and rDNA loci, and thus de-repressed Dux and reduced rRNA expression. Lin28 knockout cells with nucleolar stress are more likely to assume a slowly cycling, translationally inert and anabolically inactive state, which is a part of previously unappreciated 2C-like transcriptional program. These findings elucidate novel roles for nucleolar LIN28 in PSCs, and a new mechanism linking 2C program and nucleolar functions in PSCs and early embryo development.
Animals
;
Cell Differentiation
;
Embryo, Mammalian/metabolism*
;
Embryonic Development
;
Mice
;
Pluripotent Stem Cells/metabolism*
;
RNA, Messenger/genetics*
;
RNA, Ribosomal
;
RNA-Binding Proteins/metabolism*
;
Transcription Factors/metabolism*
;
Zygote/metabolism*
9.Molecular Mechanism of Aurora Kinase A Regulating the Meiosis of Oocyte.
Feng LIU ; Bo YAO ; Xiao-Long MO ; Qiong-You LIU ; Yan-Ping REN
Acta Academiae Medicinae Sinicae 2022;44(1):142-148
Aurora kinase A (AURKA),a family member of aurora kinases,is involved in mitotic entry,maturation and separation of centrosome,assembly and stabilization of bipolar spindle,and condensation and separation of chromosome.Studies have demonstrated that AURKA plays a similar role in meiosis,while the specific mechanism and the similarities and differences in its role between meiosis and mitosis remain unclear.Therefore,we reviewed the studies about the localization and activation of AURKA in oocyte meiosis,and compared the role of AURKA in regulating spindle formation,activating spindle assembly checkpoint,and correcting the kinetochore-microtubule attachment between the meiosis of oocytes and the mitosis of somatic cells.This review will lay a theoretical foundation for revealing the mechanism of AURKA in the regulation of cell division and for the clinical research related to cancer and reproduction.
Aurora Kinase A/genetics*
;
Cell Cycle Proteins/genetics*
;
Chromosome Segregation
;
Humans
;
Meiosis
;
Oocytes
10.Maternal heterozygous mutation in CHEK1 leads to mitotic arrest in human zygotes.
Beili CHEN ; Jianying GUO ; Ting WANG ; Qianhui LEE ; Jia MING ; Fangfang DING ; Haitao LI ; Zhiguo ZHANG ; Lin LI ; Yunxia CAO ; Jie NA
Protein & Cell 2022;13(2):148-154

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